Book on Identifying, Analyzing and Planning Sites for Architectural Projects, is an attempt to document options and factors to be considered for selecting suitable sites for any project; defining principles which can be used for preparing site plans on the site selected ; and approach to be used for planning and designing of cost-effective, sustainable, energy efficient and qualitative buildings. Book is based on my limited knowledge and understanding of architecture and offers enormous opportunities for addition, subtraction,deletion, reviewing,revising and redefining the contents and intent to make it more qualitative, comprehensive,useful, relevant, rational and productive. Book is dedicated to all the students, faculty, researchers, professionals engaged in the art of teaching-learning of Architecture and in the hard core professional practice.
Site planning in Architectural Projects- Principles and ApproachesJIT KUMAR GUPTA
Write up is an attempt to define in principles governing the site planning and setting of the buildings in the context of site so as to make them rational and sustainable. It defines the principles and approach to site planning.
Site Planning in Architectural Projects- Principles and Approach JIT KUMAR GUPTA
This document discusses principles and approaches for site planning in architectural projects. It notes that buildings have a major role in making human settlements sustainable, and that site planning is crucial for architectural design solutions. The key principles of site planning discussed are respecting the existing site features, planning with nature using elements like sun and greenery, adopting strategies to protect and enhance existing features, minimizing building footprints, keeping maximum areas open, and making provisions for rainwater harvesting and groundwater recharging. The document emphasizes that a thorough understanding and analysis of the site is important for rational site planning. It outlines the various factors that should be considered in site planning such as project requirements, site characteristics, building regulations, climate, and orientation.
Site planning in Architectural Projects- Principles and ApproachesJIT KUMAR GUPTA
Paper defines in brief the principles, studies, analysis, which need to be carried out before preparing site plan of any project. Paper highlights the role, importance and criticality of site planning in making optimum use of land resource, resource existing at site, orientation, wind, sun, flora and fauna, landscaping, building design etc to make the project rational, sustainable
Site planning in Architectural Projects- Principles and ApproachesJIT KUMAR GUPTA
Paper makes an attempt to define the process, elements and principles which should be considered for site planning in the architectural projects. Paper also defines the role and importance of the site planning in planning, designing and making the projects sustainable.
The document provides an analysis of the nature incorporated spaces at PJ Trade Centre and their influence on occupant satisfaction. It first discusses how the architect designed the building to be responsive to the natural context through techniques like building orientation, material selection, and facade design. It then examines the various nature incorporated spaces implemented, including exterior green spaces, naturally ventilated spaces utilizing vernacular techniques, interior green spaces, and naturally lit spaces. A questionnaire and interviews with occupants found that the nature incorporated design succeeded in creating a unique experience and high levels of satisfaction through its greenery, ventilated green spaces, and natural lighting. Incorporating nature and considering occupant satisfaction are important for contemporary architecture.
Role and Relevance of Architects and architecture in SustainabilityJIT KUMAR GUPTA
This brief text on Role, Relevance and importance of Architects and profession of Architecture in making this world and human settlements more livable, climate responsive and sustainable has been prepared as commitment of the professionals and profession of Architects on this World Environment Day ; June 5th , 2024 , with the hope that profession would be understood, valued ,appreciated and empowered in the right context for enabling it play its designated role in making built environment qualitative, cost-effective, energy-efficient, eco-friendly, safe and sustainable.
A presentation on the philosophy of Site Responsive Design delivered to planners and members at Winchester City Council as part of their urban design training.
Evaluating Suitability of Site for any Architectural Projects.docxJIT KUMAR GUPTA
Role of site selected for any building project remains most critical ,valuable and prime reason and major determinant of success and failure of any project. All architectural projects have their origin/genesis in the site on which they are located and accordingly remain site specific for their conceptualization, planning, designing and construction. Like human beings, sites also remain different and distinct. Every site remains unique and distinct, comprising of numerous complex elements including; varying topography, changing physiography, existing flora & fauna; existing bio-diversity; ruling climatic conditions; physical, social, environmental features; local culture; available building materials and construction technologies in practice, which largely influence, impact and guide design process and decision making.
Site plays a crucial role in positioning and orienting the building, determining its footprints, form, shape, fabric, material, structure, sustainability and typology, including its relation with nature, surrounding and neighborhood buildings. Accordingly, finding and locating appropriate site for any project and carrying out detailed site analysis, remains vital and crucial for any project to be rational, effective and sustainable. In the parlance of Architecture, site analysis involves evaluating a particular location physically, environmentally and socially with the basic objective of developing an architectural solution which would be distinct and help achieve the defined objective of the project besides making the project cost-effective, energy-energy, eco-friendly, user-friendly and sustainable. Accordingly, sourcing an appropriate and suitable site remains pre-requisite and vital for developing any project of any merit because all good architectural solutions have their genesis in understanding, analyzing, appreciating and bringing best out of the given site.
All globally known architectural master pieces had their genesis in the uniqueness and appropriateness of site on which they were located and the design option used for optimizing the prevailing strength of such unique sites. Sourcing appropriate site remains vital for the owner, project managers and architects and accordingly, it will be relevant and rational to define broad guidelines and principles which must be kept in mind, must be valued and should remain the basis/ guiding principles while defining/ selecting sites for any sustainable architectural project. Since all human settlements remain different, distinct and unique, accordingly searching appropriate site for any standalone project remains both a difficult and most challenging task. However, critical factors which need to be considered and broad methodology, guidelines and approach, which can be used/leveraged for searching appropriate site, have been briefed below. These factors will also form the very basis of carrying out site analysis, before taking up the site planning .
Site planning in Architectural Projects- Principles and ApproachesJIT KUMAR GUPTA
Write up is an attempt to define in principles governing the site planning and setting of the buildings in the context of site so as to make them rational and sustainable. It defines the principles and approach to site planning.
Site Planning in Architectural Projects- Principles and Approach JIT KUMAR GUPTA
This document discusses principles and approaches for site planning in architectural projects. It notes that buildings have a major role in making human settlements sustainable, and that site planning is crucial for architectural design solutions. The key principles of site planning discussed are respecting the existing site features, planning with nature using elements like sun and greenery, adopting strategies to protect and enhance existing features, minimizing building footprints, keeping maximum areas open, and making provisions for rainwater harvesting and groundwater recharging. The document emphasizes that a thorough understanding and analysis of the site is important for rational site planning. It outlines the various factors that should be considered in site planning such as project requirements, site characteristics, building regulations, climate, and orientation.
Site planning in Architectural Projects- Principles and ApproachesJIT KUMAR GUPTA
Paper defines in brief the principles, studies, analysis, which need to be carried out before preparing site plan of any project. Paper highlights the role, importance and criticality of site planning in making optimum use of land resource, resource existing at site, orientation, wind, sun, flora and fauna, landscaping, building design etc to make the project rational, sustainable
Site planning in Architectural Projects- Principles and ApproachesJIT KUMAR GUPTA
Paper makes an attempt to define the process, elements and principles which should be considered for site planning in the architectural projects. Paper also defines the role and importance of the site planning in planning, designing and making the projects sustainable.
The document provides an analysis of the nature incorporated spaces at PJ Trade Centre and their influence on occupant satisfaction. It first discusses how the architect designed the building to be responsive to the natural context through techniques like building orientation, material selection, and facade design. It then examines the various nature incorporated spaces implemented, including exterior green spaces, naturally ventilated spaces utilizing vernacular techniques, interior green spaces, and naturally lit spaces. A questionnaire and interviews with occupants found that the nature incorporated design succeeded in creating a unique experience and high levels of satisfaction through its greenery, ventilated green spaces, and natural lighting. Incorporating nature and considering occupant satisfaction are important for contemporary architecture.
Role and Relevance of Architects and architecture in SustainabilityJIT KUMAR GUPTA
This brief text on Role, Relevance and importance of Architects and profession of Architecture in making this world and human settlements more livable, climate responsive and sustainable has been prepared as commitment of the professionals and profession of Architects on this World Environment Day ; June 5th , 2024 , with the hope that profession would be understood, valued ,appreciated and empowered in the right context for enabling it play its designated role in making built environment qualitative, cost-effective, energy-efficient, eco-friendly, safe and sustainable.
A presentation on the philosophy of Site Responsive Design delivered to planners and members at Winchester City Council as part of their urban design training.
Evaluating Suitability of Site for any Architectural Projects.docxJIT KUMAR GUPTA
Role of site selected for any building project remains most critical ,valuable and prime reason and major determinant of success and failure of any project. All architectural projects have their origin/genesis in the site on which they are located and accordingly remain site specific for their conceptualization, planning, designing and construction. Like human beings, sites also remain different and distinct. Every site remains unique and distinct, comprising of numerous complex elements including; varying topography, changing physiography, existing flora & fauna; existing bio-diversity; ruling climatic conditions; physical, social, environmental features; local culture; available building materials and construction technologies in practice, which largely influence, impact and guide design process and decision making.
Site plays a crucial role in positioning and orienting the building, determining its footprints, form, shape, fabric, material, structure, sustainability and typology, including its relation with nature, surrounding and neighborhood buildings. Accordingly, finding and locating appropriate site for any project and carrying out detailed site analysis, remains vital and crucial for any project to be rational, effective and sustainable. In the parlance of Architecture, site analysis involves evaluating a particular location physically, environmentally and socially with the basic objective of developing an architectural solution which would be distinct and help achieve the defined objective of the project besides making the project cost-effective, energy-energy, eco-friendly, user-friendly and sustainable. Accordingly, sourcing an appropriate and suitable site remains pre-requisite and vital for developing any project of any merit because all good architectural solutions have their genesis in understanding, analyzing, appreciating and bringing best out of the given site.
All globally known architectural master pieces had their genesis in the uniqueness and appropriateness of site on which they were located and the design option used for optimizing the prevailing strength of such unique sites. Sourcing appropriate site remains vital for the owner, project managers and architects and accordingly, it will be relevant and rational to define broad guidelines and principles which must be kept in mind, must be valued and should remain the basis/ guiding principles while defining/ selecting sites for any sustainable architectural project. Since all human settlements remain different, distinct and unique, accordingly searching appropriate site for any standalone project remains both a difficult and most challenging task. However, critical factors which need to be considered and broad methodology, guidelines and approach, which can be used/leveraged for searching appropriate site, have been briefed below. These factors will also form the very basis of carrying out site analysis, before taking up the site planning .
Evaluating Suitability of Site for any Architectural Projects.docxJIT KUMAR GUPTA
Role of site selected for any building project remains most critical ,valuable and major determinant of success and failure of any project. All architectural projects have their origin/genesis in the site on which they are located and accordingly remain site specific for their conceptualization, planning, designing and construction. Like human beings, sites also remain different/distinct and no two sites are same. Every site remains unique and distinct, comprising of numerous complex elements including; varying topography, changing physiography, existing flora & fauna; existing bio-diversity; ruling climatic conditions; physical, social, environmental features; local culture; available building materials and construction technologies in practice, which largely influence, impact and guide design process and decision making.
Site plays a crucial role in positioning and orienting the building, determining its footprints, form, shape, fabric, material, structure, sustainability and typology, including its relation with nature, surrounding and neighborhood . Accordingly, finding and locating appropriate site for any project and carrying out detailed site analysis, remains vital and crucial for any project to be rational, effective and sustainable. In the parlance of Architecture, site analysis involves evaluating a particular location physically, environmentally and socially with the basic objective of developing an architectural solution which would be distinct and help achieve the defined objective of the project besides making the project cost-effective, energy-energy, eco-friendly, user-friendly and sustainable. Accordingly, sourcing an appropriate and suitable site remains pre-requisite and vital for developing any project of any merit because all good architectural solutions have their genesis in understanding, analyzing, appreciating and bringing best out of the given site.
All globally known architectural master pieces had their genesis in the uniqueness and appropriateness of site on which they were located and the design option used for optimizing the prevailing strength of such unique sites. Sourcing appropriate site remains vital for the owner, project managers and architects and accordingly, it will be relevant and rational to define broad guidelines and principles which must be kept in mind, must be valued and should remain the basis/ guiding principles while defining/ selecting sites for any sustainable architectural project. Since all human settlements remain different, distinct and unique, accordingly searching appropriate site for any standalone project remains both a difficult and most challenging task. However, critical factors which need to be considered and broad methodology, guidelines and approach, which can be used/leveraged for searching appropriate site, have been briefed below. These factors will also form the very basis of carrying out site analysis, before taking up the site
Suitability of Site for Architectural Projects.docxJIT KUMAR GUPTA
The document discusses important factors to consider when evaluating a site for an architectural project. It states that the site plays a crucial role in determining the success of a project and that every site is unique. It provides guidelines for site selection including defining project requirements, complying with planning frameworks, evaluating accessibility, shape and size, land costs, avoiding low-lying areas, complying with legal prohibitions, and ensuring basic infrastructure is available. Detailed site analysis and consideration of physical, environmental and social factors is important for developing an appropriate architectural solution.
Selecting site for Sustainable Projects and Green BuildingsJIT KUMAR GUPTA
Success, failure, cost, quality and ambiance of any architectural/infrastructural projects, have genesis in the quality and appropriateness of the site where they are located. Every site remains unique and distinct for the reasons ; accessibility, shape and size, varying topography, flora & fauna, bio-diversity , climate, physical, social, environmental features, culture etc. which largely impact/guide design, site planning; positioning and orienting the building; determining the footprints, form, shape, fabric, material, structure, sustainability and typology of the building including its relation with the surrounding and neighborhood buildings. All globally known architectural projects had their genesis in the uniqueness and appropriateness of the site where they are located. Accordingly, defining guidelines /principles remains valuable for identifying sites for sustainable projects. Guidelines for the project remain both dynamic- constantly and continuously evolving and devolving requiring review, revision and redefinition from time to time to make them more relevant, rational and objective. Nevertheless, identification of appropriate site will need lot of study, data, knowledge, understanding and expertise before coming to a logical conclusion.
Integrated design and performance target of conceptual architecture designPutika Ashfar Khoiri
This document summarizes the key aspects of an integrated design process for architectural and spatial design projects. It discusses establishing performance targets, conducting site inventory and analysis, developing conceptual diagrams, managing budgets, creating construction documents, and observing construction. The integrated process aims to involve interdisciplinary teams throughout all phases of a project to collectively research, analyze, communicate, and explore design solutions considering physical, biological, and cultural site impacts.
This document summarizes an engineering research workshop at Qatar University on "Livable Environment and Sustainability". The workshop will highlight current research projects in architecture and urban planning, discuss how architectural research benefits the community and industry, and identify priority research areas and topics for Qatar. The agenda includes invited speakers, panel discussions on how research impacts different groups, and a workshop to revise Qatar's priority research areas and generate new proposals. The document also outlines the university's research theme of "Sustainable and Livable Environments" and 10 specific research areas.
NPPG Seminar- Paul Watson spoken by Meredith Evans, MADE seminarDesign South East
The document provides guidance on national planning practice in the UK, including summaries of key documents and policies. It discusses the National Planning Policy Framework and guidance, with an emphasis on design, housing, sustainability, and other planning considerations. It also addresses how to approach pre-application discussions, design reviews, viability assessments, and determining planning applications in accordance with relevant policies and laws.
Green Building Design, Engineering and CommissioningKevin Sullivan
The document provides details about the author's experience in green building design, engineering, and commissioning over almost twenty years working in the US and Asia. It summarizes that the author has led over one hundred LEED and sustainable design projects as the managing director of two sustainable design firms, supervised commissioning teams, and sees commissioning as an important part of integrated sustainable design to optimize building performance. It also lists the author's technical skills and experience in areas like energy modeling, daylight analysis, indoor air quality assessments, and applying various green building rating systems.
Fue theory 4 lecture 6 - methods of evaluation and design developmentGalala University
This document discusses methods of evaluating architectural design quality and building performance. It outlines four main areas of design quality: impact, build quality, functionality, and value. Design evaluation and post-occupancy evaluation are two types of evaluation discussed. Post-occupancy evaluation involves assessing a building's performance after it is occupied and can provide benefits like improving future building designs and measuring if a building meets its intended functions. The document presents models for conducting post-occupancy evaluations and examples of how evaluations have been applied.
IRJET- Study of Green Building Over Conventional BuildingsIRJET Journal
This document discusses a study comparing green buildings to conventional buildings. It finds that green buildings are more energy efficient, have lower operating and maintenance costs, provide improved occupant comfort and health, and have a lower environmental impact over their lifecycle compared to conventional buildings. The study establishes an integrated construction process to help partners successfully implement green building practices and technologies during project development. Key benefits of green buildings identified include reduced energy and water usage, lower greenhouse gas emissions, less construction waste, and protection of natural habitats and wildlife.
Kaustav Gupta's portfolio document summarizes his professional experience and academic qualifications. It includes a profile, list of professional works as a design architect at Cannon Design International on various projects in India, and academic works. Some of the professional projects summarized include an IT office campus in Kolkata for Tata Consultancy Services, a cancer hospital addition for Tata Medical Center, a university campus for Amity University, and an office campus in Chennai for Cognizant. Diagrams and images are provided to summarize the designs and approaches for some of the projects.
THE SYNERGY BETWEEN VALUE ENGINEERING AND SUSTAINABLE CONSTRUTIONAnkit Singhai
This document discusses the synergy between value engineering and sustainable construction. It defines value engineering and sustainable construction, explaining that value engineering takes a life cycle cost approach to optimize function, quality, and cost in a project. Applying value engineering principles like functional analysis and alternative generation can help make construction projects more sustainable by reducing costs, waste, and environmental impacts over the full life cycle. The document outlines the value engineering job plan process and how applying it at early design phases can significantly improve sustainability and value in construction projects.
The document provides an evaluation report of design proposals for a university building project. It ranks 10 design criteria and scores three design proposals - Hydrodynamic, Neoteric, and Encapsulated - on how well they meet the criteria. The Encapsulated design scores highest with 381 points out of 550. The report also summarizes the designs' programs and costs. It recommends the Encapsulated design to the client based on the qualitative and quantitative analysis.
The document discusses embedding material reuse in architectural practice and training. It notes that architectural education and practice currently lack engagement with material reuse due to insufficient understanding and exposure. The document outlines shortcomings in architectural curricula and licensure requirements regarding material reuse and deconstruction. It argues that integrating reuse experts into training and evolving design processes to consider long-term material flows can help architects better address reuse in their work.
The document discusses various topics related to pedagogy in architectural design teaching including:
- The definition and aims of pedagogy as the science and art of education.
- Approaches to teaching architectural design such as problem-based learning and team-based learning.
- Frameworks for effective lesson delivery including gaining attention, reviewing material, presenting new information, and providing practice and feedback.
- The development of pedagogical content knowledge in early career teachers through tools like content representations.
- Historical developments in architectural design and modernism's emphasis on function in all design.
REDEFINING ARCHITECTURAL EDUCATIONIN THE ERA OF GLOBALISATION AND LIBERLISATI...JIT KUMAR GUPTA
1) Architectural education in India has become too static and disconnected from current practices, unable to meet challenges of globalization and liberalization.
2) Objectives of architectural education need to be broadened beyond just designing buildings to include promoting quality of life through organizing space, air, water, land use, and more.
3) Architectural education requires significant changes, including involving practicing architects, attracting more talented students, improving faculty quality, and making education more practice-oriented.
This document provides an overview of landscape architecture. It defines landscape architecture as improving the aesthetic appearance of land by changing its contours, adding decorative features, or planting trees and flowers. The scope of work for landscape architects includes master planning, site planning, landscape design, project management, and implementation. Landscape architects work with clients, engineers, surveyors, city planners, and contractors. They are responsible for creating plans and designs, working with clients, partnering with installation professionals, site planning, and environmental planning. Common drawings used include site plans, bubble plans, landscape plans, plot plans, elevations, sections, planting plans, renderings, and perspectives. Examples of landscape projects are also provided.
This document provides an overview of landscape architecture. It defines landscape architecture as improving the aesthetic appearance of land by changing its contours, adding decorative features, or planting trees and flowers. The scope of work for landscape architects includes master planning, site planning, landscape design, project management, and implementation. Landscape architects work with clients, engineers, surveyors, city planners, and contractors. They are responsible for creating plans and designs, working with clients, partnering with installation professionals, site planning, and environmental planning. Common types of drawings created by landscape architects include site plans, bubble plans, landscape plans, plot plans, elevations, sections, planting plans, renderings, and perspectives. Examples of landscape architecture projects are also provided
This document provides an overview of landscape architecture as a profession. It defines landscape architecture as improving the aesthetic appearance of land by changing its contours, adding decorative features, or planting trees and flowers. The scope of work for landscape architects includes master planning, site planning, landscape design, project management, and implementation. Landscape architects work with clients, engineers, surveyors, city planners, and contractors. They are responsible for creating plans and designs, working with clients, partnering with installation professionals, site planning, and environmental planning. Example drawings include site plans, bubble plans, plot plans, elevations, sections, planting plans, and renderings.
Exploring the Role of Environment-Behavior Studies (EBS) in Residential Archi...IRJET Journal
This document discusses a research paper that explores the role of environment-behavior studies (EBS) in residential architecture. It begins with an abstract that outlines how EBS integrates fields like architecture, planning, and behavioral sciences to systematically study relationships between the built environment and human behavior to inform design.
The document then reviews the evolution of EBS and its methodology. It discusses how EBS advocates greater user involvement in design to address gaps between what people want and what architects design. EBS is applied through post-occupancy evaluations to assess building performance and user satisfaction.
Finally, the document outlines the research paper's goals to discuss EBS applications in residential design through literature review and highlight how considering EBS findings can
This thesis document outlines Hamza A. Ibrahim's proposal for an integrated mixed-use development called "The Lantern". The Lantern aims to address issues in the existing area such as a lack of cohesiveness, connectivity, and vibrancy. It proposes residential, office, and retail spaces totaling 290,000 square feet. Concepts like place-making, circulation, and socio-economic sustainability were considered in the design. Site plans, sections, and perspectives of the project are presented to show how it would create a sense of place and encourage human interaction within the community.
Heritage Conservation.Strategies and Options for Preserving India HeritageJIT KUMAR GUPTA
Presentation looks at the role , relevance and importance of built and natural heritage, issues faced by heritage in the Indian context and options which can be leveraged to preserve and conserve the heritage.It also lists the challenges faced by the heritage due to rapid urbanisation, land speculation and commercialisation in the urban areas. In addition, ppt lays down the roadmap for the preservation, conservation and making value addition to the available heritage by making it integral part of the planning , designing and management of the human settlements.
Bridging gap between resources and responsibilities at Local level.JIT KUMAR GUPTA
Text refers to need, role, relevance and importance of empowering urban local bodies by bridging gap between resources available and responsibilities bestowed, for enabling ULBs to operate and function as institutions of local governance more effectively and efficiently.
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Semelhante a Book on-Identifying, Analysing and Planning sites for Architectural Projects
Evaluating Suitability of Site for any Architectural Projects.docxJIT KUMAR GUPTA
Role of site selected for any building project remains most critical ,valuable and major determinant of success and failure of any project. All architectural projects have their origin/genesis in the site on which they are located and accordingly remain site specific for their conceptualization, planning, designing and construction. Like human beings, sites also remain different/distinct and no two sites are same. Every site remains unique and distinct, comprising of numerous complex elements including; varying topography, changing physiography, existing flora & fauna; existing bio-diversity; ruling climatic conditions; physical, social, environmental features; local culture; available building materials and construction technologies in practice, which largely influence, impact and guide design process and decision making.
Site plays a crucial role in positioning and orienting the building, determining its footprints, form, shape, fabric, material, structure, sustainability and typology, including its relation with nature, surrounding and neighborhood . Accordingly, finding and locating appropriate site for any project and carrying out detailed site analysis, remains vital and crucial for any project to be rational, effective and sustainable. In the parlance of Architecture, site analysis involves evaluating a particular location physically, environmentally and socially with the basic objective of developing an architectural solution which would be distinct and help achieve the defined objective of the project besides making the project cost-effective, energy-energy, eco-friendly, user-friendly and sustainable. Accordingly, sourcing an appropriate and suitable site remains pre-requisite and vital for developing any project of any merit because all good architectural solutions have their genesis in understanding, analyzing, appreciating and bringing best out of the given site.
All globally known architectural master pieces had their genesis in the uniqueness and appropriateness of site on which they were located and the design option used for optimizing the prevailing strength of such unique sites. Sourcing appropriate site remains vital for the owner, project managers and architects and accordingly, it will be relevant and rational to define broad guidelines and principles which must be kept in mind, must be valued and should remain the basis/ guiding principles while defining/ selecting sites for any sustainable architectural project. Since all human settlements remain different, distinct and unique, accordingly searching appropriate site for any standalone project remains both a difficult and most challenging task. However, critical factors which need to be considered and broad methodology, guidelines and approach, which can be used/leveraged for searching appropriate site, have been briefed below. These factors will also form the very basis of carrying out site analysis, before taking up the site
Suitability of Site for Architectural Projects.docxJIT KUMAR GUPTA
The document discusses important factors to consider when evaluating a site for an architectural project. It states that the site plays a crucial role in determining the success of a project and that every site is unique. It provides guidelines for site selection including defining project requirements, complying with planning frameworks, evaluating accessibility, shape and size, land costs, avoiding low-lying areas, complying with legal prohibitions, and ensuring basic infrastructure is available. Detailed site analysis and consideration of physical, environmental and social factors is important for developing an appropriate architectural solution.
Selecting site for Sustainable Projects and Green BuildingsJIT KUMAR GUPTA
Success, failure, cost, quality and ambiance of any architectural/infrastructural projects, have genesis in the quality and appropriateness of the site where they are located. Every site remains unique and distinct for the reasons ; accessibility, shape and size, varying topography, flora & fauna, bio-diversity , climate, physical, social, environmental features, culture etc. which largely impact/guide design, site planning; positioning and orienting the building; determining the footprints, form, shape, fabric, material, structure, sustainability and typology of the building including its relation with the surrounding and neighborhood buildings. All globally known architectural projects had their genesis in the uniqueness and appropriateness of the site where they are located. Accordingly, defining guidelines /principles remains valuable for identifying sites for sustainable projects. Guidelines for the project remain both dynamic- constantly and continuously evolving and devolving requiring review, revision and redefinition from time to time to make them more relevant, rational and objective. Nevertheless, identification of appropriate site will need lot of study, data, knowledge, understanding and expertise before coming to a logical conclusion.
Integrated design and performance target of conceptual architecture designPutika Ashfar Khoiri
This document summarizes the key aspects of an integrated design process for architectural and spatial design projects. It discusses establishing performance targets, conducting site inventory and analysis, developing conceptual diagrams, managing budgets, creating construction documents, and observing construction. The integrated process aims to involve interdisciplinary teams throughout all phases of a project to collectively research, analyze, communicate, and explore design solutions considering physical, biological, and cultural site impacts.
This document summarizes an engineering research workshop at Qatar University on "Livable Environment and Sustainability". The workshop will highlight current research projects in architecture and urban planning, discuss how architectural research benefits the community and industry, and identify priority research areas and topics for Qatar. The agenda includes invited speakers, panel discussions on how research impacts different groups, and a workshop to revise Qatar's priority research areas and generate new proposals. The document also outlines the university's research theme of "Sustainable and Livable Environments" and 10 specific research areas.
NPPG Seminar- Paul Watson spoken by Meredith Evans, MADE seminarDesign South East
The document provides guidance on national planning practice in the UK, including summaries of key documents and policies. It discusses the National Planning Policy Framework and guidance, with an emphasis on design, housing, sustainability, and other planning considerations. It also addresses how to approach pre-application discussions, design reviews, viability assessments, and determining planning applications in accordance with relevant policies and laws.
Green Building Design, Engineering and CommissioningKevin Sullivan
The document provides details about the author's experience in green building design, engineering, and commissioning over almost twenty years working in the US and Asia. It summarizes that the author has led over one hundred LEED and sustainable design projects as the managing director of two sustainable design firms, supervised commissioning teams, and sees commissioning as an important part of integrated sustainable design to optimize building performance. It also lists the author's technical skills and experience in areas like energy modeling, daylight analysis, indoor air quality assessments, and applying various green building rating systems.
Fue theory 4 lecture 6 - methods of evaluation and design developmentGalala University
This document discusses methods of evaluating architectural design quality and building performance. It outlines four main areas of design quality: impact, build quality, functionality, and value. Design evaluation and post-occupancy evaluation are two types of evaluation discussed. Post-occupancy evaluation involves assessing a building's performance after it is occupied and can provide benefits like improving future building designs and measuring if a building meets its intended functions. The document presents models for conducting post-occupancy evaluations and examples of how evaluations have been applied.
IRJET- Study of Green Building Over Conventional BuildingsIRJET Journal
This document discusses a study comparing green buildings to conventional buildings. It finds that green buildings are more energy efficient, have lower operating and maintenance costs, provide improved occupant comfort and health, and have a lower environmental impact over their lifecycle compared to conventional buildings. The study establishes an integrated construction process to help partners successfully implement green building practices and technologies during project development. Key benefits of green buildings identified include reduced energy and water usage, lower greenhouse gas emissions, less construction waste, and protection of natural habitats and wildlife.
Kaustav Gupta's portfolio document summarizes his professional experience and academic qualifications. It includes a profile, list of professional works as a design architect at Cannon Design International on various projects in India, and academic works. Some of the professional projects summarized include an IT office campus in Kolkata for Tata Consultancy Services, a cancer hospital addition for Tata Medical Center, a university campus for Amity University, and an office campus in Chennai for Cognizant. Diagrams and images are provided to summarize the designs and approaches for some of the projects.
THE SYNERGY BETWEEN VALUE ENGINEERING AND SUSTAINABLE CONSTRUTIONAnkit Singhai
This document discusses the synergy between value engineering and sustainable construction. It defines value engineering and sustainable construction, explaining that value engineering takes a life cycle cost approach to optimize function, quality, and cost in a project. Applying value engineering principles like functional analysis and alternative generation can help make construction projects more sustainable by reducing costs, waste, and environmental impacts over the full life cycle. The document outlines the value engineering job plan process and how applying it at early design phases can significantly improve sustainability and value in construction projects.
The document provides an evaluation report of design proposals for a university building project. It ranks 10 design criteria and scores three design proposals - Hydrodynamic, Neoteric, and Encapsulated - on how well they meet the criteria. The Encapsulated design scores highest with 381 points out of 550. The report also summarizes the designs' programs and costs. It recommends the Encapsulated design to the client based on the qualitative and quantitative analysis.
The document discusses embedding material reuse in architectural practice and training. It notes that architectural education and practice currently lack engagement with material reuse due to insufficient understanding and exposure. The document outlines shortcomings in architectural curricula and licensure requirements regarding material reuse and deconstruction. It argues that integrating reuse experts into training and evolving design processes to consider long-term material flows can help architects better address reuse in their work.
The document discusses various topics related to pedagogy in architectural design teaching including:
- The definition and aims of pedagogy as the science and art of education.
- Approaches to teaching architectural design such as problem-based learning and team-based learning.
- Frameworks for effective lesson delivery including gaining attention, reviewing material, presenting new information, and providing practice and feedback.
- The development of pedagogical content knowledge in early career teachers through tools like content representations.
- Historical developments in architectural design and modernism's emphasis on function in all design.
REDEFINING ARCHITECTURAL EDUCATIONIN THE ERA OF GLOBALISATION AND LIBERLISATI...JIT KUMAR GUPTA
1) Architectural education in India has become too static and disconnected from current practices, unable to meet challenges of globalization and liberalization.
2) Objectives of architectural education need to be broadened beyond just designing buildings to include promoting quality of life through organizing space, air, water, land use, and more.
3) Architectural education requires significant changes, including involving practicing architects, attracting more talented students, improving faculty quality, and making education more practice-oriented.
This document provides an overview of landscape architecture. It defines landscape architecture as improving the aesthetic appearance of land by changing its contours, adding decorative features, or planting trees and flowers. The scope of work for landscape architects includes master planning, site planning, landscape design, project management, and implementation. Landscape architects work with clients, engineers, surveyors, city planners, and contractors. They are responsible for creating plans and designs, working with clients, partnering with installation professionals, site planning, and environmental planning. Common drawings used include site plans, bubble plans, landscape plans, plot plans, elevations, sections, planting plans, renderings, and perspectives. Examples of landscape projects are also provided.
This document provides an overview of landscape architecture. It defines landscape architecture as improving the aesthetic appearance of land by changing its contours, adding decorative features, or planting trees and flowers. The scope of work for landscape architects includes master planning, site planning, landscape design, project management, and implementation. Landscape architects work with clients, engineers, surveyors, city planners, and contractors. They are responsible for creating plans and designs, working with clients, partnering with installation professionals, site planning, and environmental planning. Common types of drawings created by landscape architects include site plans, bubble plans, landscape plans, plot plans, elevations, sections, planting plans, renderings, and perspectives. Examples of landscape architecture projects are also provided
This document provides an overview of landscape architecture as a profession. It defines landscape architecture as improving the aesthetic appearance of land by changing its contours, adding decorative features, or planting trees and flowers. The scope of work for landscape architects includes master planning, site planning, landscape design, project management, and implementation. Landscape architects work with clients, engineers, surveyors, city planners, and contractors. They are responsible for creating plans and designs, working with clients, partnering with installation professionals, site planning, and environmental planning. Example drawings include site plans, bubble plans, plot plans, elevations, sections, planting plans, and renderings.
Exploring the Role of Environment-Behavior Studies (EBS) in Residential Archi...IRJET Journal
This document discusses a research paper that explores the role of environment-behavior studies (EBS) in residential architecture. It begins with an abstract that outlines how EBS integrates fields like architecture, planning, and behavioral sciences to systematically study relationships between the built environment and human behavior to inform design.
The document then reviews the evolution of EBS and its methodology. It discusses how EBS advocates greater user involvement in design to address gaps between what people want and what architects design. EBS is applied through post-occupancy evaluations to assess building performance and user satisfaction.
Finally, the document outlines the research paper's goals to discuss EBS applications in residential design through literature review and highlight how considering EBS findings can
This thesis document outlines Hamza A. Ibrahim's proposal for an integrated mixed-use development called "The Lantern". The Lantern aims to address issues in the existing area such as a lack of cohesiveness, connectivity, and vibrancy. It proposes residential, office, and retail spaces totaling 290,000 square feet. Concepts like place-making, circulation, and socio-economic sustainability were considered in the design. Site plans, sections, and perspectives of the project are presented to show how it would create a sense of place and encourage human interaction within the community.
Semelhante a Book on-Identifying, Analysing and Planning sites for Architectural Projects (20)
Heritage Conservation.Strategies and Options for Preserving India HeritageJIT KUMAR GUPTA
Presentation looks at the role , relevance and importance of built and natural heritage, issues faced by heritage in the Indian context and options which can be leveraged to preserve and conserve the heritage.It also lists the challenges faced by the heritage due to rapid urbanisation, land speculation and commercialisation in the urban areas. In addition, ppt lays down the roadmap for the preservation, conservation and making value addition to the available heritage by making it integral part of the planning , designing and management of the human settlements.
Bridging gap between resources and responsibilities at Local level.JIT KUMAR GUPTA
Text refers to need, role, relevance and importance of empowering urban local bodies by bridging gap between resources available and responsibilities bestowed, for enabling ULBs to operate and function as institutions of local governance more effectively and efficiently.
Construction Industry Through Artificial Intelligence -.docxJIT KUMAR GUPTA
Considering the role, relevance and importance of construction sector in promoting economy, generating employment and creating wealth besides providing infrastructures and amenities, there is need to make the sector more effective, efficient, productive and sustainable. Driven manually, construction sector remains in the slow lane of creating quality built environment which are cost-effective, energy efficient, least consumers of resources and generators of waste. Artificial intelligence can help and empower the construction to make it more valuable, productive and qualitative besides supportive of environment and ecology. However, construction sector must be ready to co-operate and collaborate with IT industry to look for options and opportunities to make construction sector more qualitative and productive. Majority of urban ills and climate related issues can be resolved if Artificial intelligence can be embedded as integral part of the construction industry right prom planning, designing, construction, operation and management of the built environment and infrastructures. Communities and nations will save lot of valuable non-renewable resources if the construction sector is transformed from human led to technology led by the induction of Artificial intelligence. However, Construction industry has to search the areas where Artificial intelligence can be used effectively and intelligently.
Making Urban India a Role Model of Planned Urban Growth a.docxJIT KUMAR GUPTA
Known for productivity, promoting economy, employment and innovations cities, when properly planned, rationally developed and professionally managed, have been labelled and recognized as engines of economic growth. Prosperity and urbanisation are known to have positive co-relation with rational urbanisation, leveraging growth and development of any community, city, state and region. In majority of developing countries, where urbanisation remains unregulated, forced largely by rural push and less by urban pull, cities invariably remain in crisis, crisis of population, crisis of poverty, crisis of development and management. Cities need to be cared ,incentivized, empowered and made more productive, effective, efficient and humane.
Redefining Globalization, urbanisation and LocalisationJIT KUMAR GUPTA
If cities are to made more livable, humane and productive, it is time that intent, contents and scope of globalization must be revisited and reviewed, both critically and objectively. Globalisation would need redefinition for promoting universality and inclusiveness among people and nations to have basic amenities and quality of life for all its residents , including poorest of the poor to lead a dignified life. Failure to redefine globalization, rationalise urbanisation, restore localization empowering poor and promoting universalisation and inclusivity; will invariably lead to making SDGs merely a paper exercise. In addition, making the world, cities and communities sustainable, livable, safe and inclusive, would remain merely a dream and a mirage, for future generations and communities, making planet earth as their preferred place of residence.
Knowing, Understanding and Planning Cities- Role and Relevance Physical Plan...JIT KUMAR GUPTA
Cities are known for its complexities and operational inefficiencies. cities remain dynamic ,ever evolving, ever devolving, never static and never finite.
All cities remain different, distinct, unique and universal. No two cities are similar. Each city has its own strength, weaknesses, opportunities and threats. Accordingly, problem faced by any city cannot be viewed, dissected, analyzed and enumerated, while sitting within the four walls of the air-conditioned rooms and by the so called intellectual sitting in the so called offices determining the future of cities and towns. Neither the cities can be made more rational by limited knowledge agencies providing consultancy to cities , states and nations.
For realistically and rationally understanding, analyzing the cities and having simple, cost-effective and quality solutions to the problems and challenges faced , Cities have to be walked through and concerns of the various communities have to be properly understood and appreciated.
Prime reason for inability and lack of capacity on the part of majority of physical planners, engaged in the art and science of planning, designing and developing the cities, to address the issues and challenges faced by cities , realistically and rationally, has genesis in the lack of understanding of the origin, growth and development of cities.
Lack of capacity in majority of town planners, has roots in the quality of education imparted and seriousness and commitment on the part of both teachers and taught involved. As it stands today, majority of institutions involved in imparting education in planning are being run on an ad-hoc manner and by proxy. Only few institutions have regular teachers and regular students. Majority of planning institutions are being run on proxy with proxy students and proxy teachers. Education system including curricula used for teaching, needs, review, revision and redefinition to make it more relevant to rational for addressing the issues and challenges faced by the cities and towns.
Land as a Resource for urban finanace- 24-1-23.pptJIT KUMAR GUPTA
PPt tries to brief Land, as a gift of nature, is being grossly misused, abused , manipulated Land is globally used for providing platform for all human driven activities, based on living, working, culture of body/ mind and travel.
Limited availability, coupled with large number of human beings trying to source land, has invariably created large demand for land resource for human consumption. Land, in urban context, is required for meeting the specific needs of urban dwellers for residential, commercial, institutional, recreational, travel& traffic purposes besides providing space for infrastructures , amenities, services, trade and commerce etc. Land in urban context remains under large demand and command high price due to concentration of large population in small physical area, with stakeholders making competing claims.Rapid and uncontrolled growth in population experienced by urban areas has adversely impacted and generated considerable pressure on land resource in cities and towns , leading to large scale conversion, sub-division and illegal occupation of urban land. Unregulated and regulated pressure on land has largely been met by means of both formal/informal sub-division and development of land. Growth of the urban settlements and entire mechanism of urban planning and development remains land based/ land focused. In order to make optimum use of land resource on 24x7x365; making city planning, growth, development and management ,both rational. realistic, orderly and promoter of quality living, it will be critical and essential, that all ULBs are made to focus on eliminating culture and practices promoting un-authorized/ illegal sub-division of land for ushering an environment and era of planned urban development in the cities. Land needs to be effectively leveraged to generate resources for ULBs to make cities vibrant.
COST-EFFETIVE and Energy Efficient BUILDINGS ptxJIT KUMAR GUPTA
Built environment is known for its capacity, capability, role, relevance and importance to change the quality of life of the occupants and communities. Presentation focuses on options which need to be leveraged to make buildings sustainable, cost-effective, energy efficient, resource efficient, qualitative over its entire life-cycle through designing, construction, operation. It calls for making buildings green and sustainable.
Making Buildings cost-effective , Energy Efficient ptxJIT KUMAR GUPTA
Presentation focuses on options which need to be leveraged to make buildings sustainable, cost-effective, energy efficient, resource efficient, qualitative over its entire life-cycle
Ppt briefs about role, relevance, importance of the rating systems applicable in India, criteria used in assessing
greeness, weightage allocated, , brief of how these rating systems are applied, parameters involved; weightage granted, levels of rating granted , incentives given by states for green rated buildings and brief of suggestions, how to make rating system more effective, efficient, objective and transparent.
The phenomenon of global warming remains more pronounced in the urban areas, for the reason cities house large concentration of people and activities in a small/compact urban space.Densely-built downtown areas tend to be warmer than suburban residential areas or rural areas.. UHI not only raises urban temperatures but also increases ozone concentrations because ozone is a greenhouse gas whose formation will accelerate with the temperature. Tokyo, an example of an urban heat island. Normal temperatures of Tokyo go up higher than those of the surrounding area. However, it needs to be understood and appreciated that climate change is not the cause of urban heat islands but it is causing more frequent and more intense heat waves which in turn amplify the urban heat island effect in cities. Major reasons for ever growing global warming and climate change can be attributed to the; Nature and natural; Human-Driven; population; Rapid Urbanisation; Irrational Urban planning; High Density; Inefficient Transportation ;Large generation/consumption of fossil fuel based Energy; Unsustainable Buildings; Polluting Industry & Manufacturing; Unsustainable Agriculture; Irrational Development; Large scale Deforestation; Lack of open spaces and individual life-choices;
Making and Unmaking of Chandigarh - A City of Two Plans2-4-24.pptJIT KUMAR GUPTA
Presentation is a narrative of a
capital city- known for its innovative planning, designing, construction and management of a new capital . It briefs about the principles used in the planning and designing of city -by the first team of planners led by Albert Mayer and Mathew Nowicki-- followed by the second team led by Le- Corbusier, P Jenerette, Jane B Drew , Maxwell Fry. It also details about the various aspects of the city planning, planning of the sector as a neighbourhood, typologies of
various developmental controls used for regulating the construction of buildings. Innovations used for regulating the growth and development of periphery; redensification of city in case city exceeds its planned population of half a million, creating a narrative of city and periphery, innovative landscaping, defining an edict for the city to educate the future citizens of the capital city to safeguard the future growth and development besides lessons learnt from planning and designing the new cities.
Planning and Designing Green buildings-.issues, options and strategiesJIT KUMAR GUPTA
Affordability and sustainable development are considered anti-thesis across the world. Generally there exists conflict between the approach to sustainable built environment and affordable buildings. Sustainable development is considered more expensive. According to Middleton, ‘Sustainability and affordability aren’t mutually exclusive goals. It’s not about adding extra, but thinking more carefully about the design of buildings and incorporating technologies that can offset the rising costs of energy, water and other services. Affordability and sustainability are known to fit together perfectly’.
Through excellent design, buildings can be made more sustainable and affordable. Smaller the footprint of buildings, lower will be the upfront costs and embodied energy and lower shall be the running costs of buildings. Looking at the entire context of health, rising cost of amenities/services; Sustainable/Green designs are now being increasingly adopted, to make built environment more cost-effective and affordable. Considering the enormous amount of built environment to be created, India will have no option but to tread the path of sustainability and sustainable development in the built environment. Sustainable built environment would also help in and go a long way in achieving the majority of the 17 Sustainable Development Goals for the reason, built environment is known to be the largest consumer of energy, avoid wasteful use of resources and minimise generation of waste. Global sustainability will be largely contingent upon how effectively and efficiently we can make our buildings sustainable and qualitative through innovative/green design solutions based on local climate and culture, valuing site planning, embedding orientation, cross ventilation, using renewable/waste materials and involving state of the art building technologies.
_Neighborhood Planning in Capital City of Chandigarh- An Appraisal (2) - Copy...JIT KUMAR GUPTA
Neighborhood as an idea, concept, option and strategy has been extensively used locally and globally by the Urban Planners to plan and decentralize cities, create cities within cities, promote self-contained communities and to make cities more humane, safe and socially vibrant. Neighborhood has also been used recently to define the city in terms of travel time - making 10/15 minutes city
Accordingly, large typologies of NH ,in terms of planning and designing , with varying shapes, sizes and contents have emerged in the urban context. Americans have used superblock and French using Sector for defining the neighborhood. Despite distinct advantages, holding high degree of relevance in urban and local area planning , NH planning has not been able to deliver the envisioned objectives of safety and social vibrancy. Cities in the process have been socially, economically and physically fragmented, leading to clear division of cities into different communities with little economical and social connectivity. Variance of planning and designing norms followed at NH and sub-neighborhood levels have promoted more dichotomy and contradictions with varying quality of life inducted at local level. Differential population and infrastructures have divided the city into the categories of high/low end NH units. Fabric and morphology of cities, in large cases, has been distorted with urban settlement emerging as a distinct social map of communities graded economically and socially,on the basis of area/location . In the process, the way NH planning concept has been used, neighborhood planning has emerged as an instrument of social and economic segregation/division. In fact in number of cases, concept has been used, misused, abused in intent and content to divide the cities into distinct social and economic layers. Instead of unifying , concept has led to division of cities.
Genesis of modern application of NH can be found in the planning and designing of Chandigarh where entire city fabric of capital city was woven around Sector as the basic unit of planning, concptulasied as self-contained and self-sustaining unit at the local level. However, the way sectors have been planned, it has led to dividing the cities into different and distinct communities. Individual status in Chandigarh can be judged from his/her residence. Concept of Sector has done more damage than good to the fabric of the city. Chandigarh is likely to face considerable problem in making city socially and economically cohesive/vibrant,. Sectors in Chandigarh remain anti-thesis to the basic concept of NH planning of safety, involving walkability, vehicular movement, putting commercial space in the centre. Considering role, relevance, importance and usability , NH needs to be planned, designed with care and caution, in order to make cities socially and economically vibrant, inclusive. NH planning deserves a new definition and approach to make it relevant and rational.
Reviewing, Revising and Redefining Master Plans and Development Plans to Ma...JIT KUMAR GUPTA
Looking at its efficacy and efficiency, it can be seen and observed that Master Plans/ Development Plans have done more damage than good for the planned growth and development of the cities to which they have been made applicable. These plans have been violated with impunity both by the people, communities, cities and parastatal agencies; for the betterment/welfare of which these plans were prepared. These plans have been visualized as controller of development rather than promoters of development. Instead of planned development , these plans have been usherers of the unplanned development. These plans are known to be responsible for promoting large number of slums besides making quality of life poor for majority of the urban inhabitants. Cities under Master Plans are also known to promote exclusion rather than inclusion. Master Plans/Development Plans are known to promote prosperity for few and marginalize the large proportions of the local community by making them poor. Instead of catering to urban dynamism, Master Plans/Development Plans try to freeze the city, for next two decades, to which it is made to serve. Accordingly, these plans need to be reviewed , rationalised, revised and redefined to make them better Master Plans/Development Plans
Rationalizing the Planned Growth of Urban India- paper.docxJIT KUMAR GUPTA
Rapid and uncontrolled growth in population experienced by urban areas has adversely impacted and generated considerable pressure on land resource in cities and towns , leading to large scale conversion, sub-division and illegal occupation of urban land. Unregulated and regulated pressure on land has largely been met by means of both formal/informal sub-division and development of land. Growth of the urban settlements and entire mechanism of urban planning and development remains land based/ land focused, based on a strategy of sub-division of the land, dictated by the economic forces prevailing in the market. Irrational and ineffective public policies of urban planning and land sub-division, devoid of prevailing ground realities, have turned out to be incompatible with the demands of urban expansion, leading to large scale un-authorized and illegal sub-division of land. In the process, valuable land resources, gift of nature, has been misused, abused and mutilated in this race of uncontrolled and irrational urbanisation. In order to make optimum use of land resource; making city planning, growth, development and management ,both rational. realistic, orderly and promoter of quality living, it will be critical and essential, that all urban centres are made to focus on eliminating the culture and practices promoting un-authorized/illegal sub-division of land for ushering an environment and era of planned urban development in the country.
Suggestion and Options for integrating villages. within the framework of the...JIT KUMAR GUPTA
Preparing Master Plans/Development Plans for any urban settlements, basically and essentially, involves declaring a planning area for which the said long term plans are prepared. Planning area invariably includes and involves, number of rural settlements, which comprise of the planning area besides the urban settlement. It has been observed that in majority of cases, while detailed studies and analysis are carried out of the urban settlements but villages in the study and analysis remain marginalized, diluted and muted. Despite the fact, villages have critical role in the rational development of the urban settlement, but in preparing Master Plans their role and relevance is not made part of the said plan. Accordingly, this text tries to bring out the typologies of villages falling in the planning area and the suggested framework to develop these villages in making Master Plans, better Master Plan. In order to improve Master Plan qualitatively, quantitively, both in intent, contents and scope, It will be appropriate that all the villages falling in the planning area must be studied , analyzed and made integral part of the final outcome of the proposals of Master Plan. In-fact one Chapter must be exclusively dedicated to detail out the issues faced by the Villages and options which can be leveraged to promote the rational growth of villages ,as an integral part of the long term development of the urban settlement , for which the Master Plan is being prepared. This will help not only in integrating the urban- rural settlements falling in the planning area, but would also go a long way in promoting and ensuring rational growth and development of the urban settlement, for which the Master Plan is being prepared.
Making cities Climate Responsive and SustainableJIT KUMAR GUPTA
“Decarbonization” of cities ,as an issue ,as an option and as a strategy , has been gaining currency in the parlance of; making planet earth livable and sustainable. “Decarbonization has been globally valued for keeping the global temperature below 1.5C, and achieving the agenda and goals defined in the 17 Sustainable Development Goals, defined by UN for achieving universal sustainability. Despite distinct role and relevance, criticality and importance of decarbonization of cities has neither been properly understood and appreciated nor made integral part of the architectural practice and art and science of designing and construction of buildings. Consuming one -third of global energy (33%) and generating 39% of greenhouse gas emissions buildings have been considered as the major player in the domain of climate change and global warming. Since Architects and Architecture are
actively involved in the making and unmaking of buildings, accordingly it becomes important that planners and architects must play a significant role in making
cities and buildings least consumers of energy and generators of the minimum greenhouse gas emissions. This objective can be achieved if decarbonizing cities/buildings is made a distinct reality . Issue of decarbonizing the cities/buildings assumes importance for the reason, that world’s building floorspace is likely to be become double by the year 2060, with the addition of large number of newcities/ buildings due to rapid urbanization, population growth and economic development ; required for catering to
to the needs of additional population opting for urban living.
Managing Planning and Development of Citie- 26-2-24.docxJIT KUMAR GUPTA
Cities in India are known to be in perpetual crisis; facing numerous crises in terms of; crisis of rational growth, crisis of orderly and planned development; crisis of effective and efficient urban management; crisis of making provision of basic infrastructure and services; crisis of climate change; crisis of global warming; crisis of poverty, pollution and population and crisis of making human living and prevailing environment qualitative. These urban crises have genesis in the fact that cities in India, lack ownership, command, authority and lack of willingness to run and manage cities professionally and objectively. In majority of cases, cities in India are run by proxy. In terms of physical growth and development; large cities are marked by multiplicity of agencies claiming right/ownership of development over the urban areas, whereas smaller cities face absence of such ownership and are made to run, operate and function like orphans
Agenda, Approach and Options for Rationalising and Redefining Future Indian ...JIT KUMAR GUPTA
Government of India/state policies, programs, mission and agenda must move providing basic essentials to all its citizens through an efficient, objective and transparent system of governance. For making cities livable and empowering people; right to basics/essential of human living including; Right to shelter, food, clothing universal access to healthcare, education, employment , infrastructures, amenities and mobility; should be made integral part of Indian Constitution by embedding it as Fundamental Rights/Directive Principles of state policy besides making them integral part of planning, development and management/governance process of all human settlements.
Best Digital Marketing Strategy Build Your Online Presence 2024.pptxpavankumarpayexelsol
This presentation provides a comprehensive guide to the best digital marketing strategies for 2024, focusing on enhancing your online presence. Key topics include understanding and targeting your audience, building a user-friendly and mobile-responsive website, leveraging the power of social media platforms, optimizing content for search engines, and using email marketing to foster direct engagement. By adopting these strategies, you can increase brand visibility, drive traffic, generate leads, and ultimately boost sales, ensuring your business thrives in the competitive digital landscape.
Book on-Identifying, Analysing and Planning sites for Architectural Projects
1. Identifying, Analyzing
and Planning Sites for
Architectural Projects
Ar. Jit Kumar Gupta
jit.kumar1944@gmail.com
former Director, College of Architecture, IET Bhaddal, Punjab
former Advisor; TP, Punjab Urban Development Authority
2. FOREWORD
Criticality, role and importance of site in evolving passive, sustainable, eco-
friendly, energy- efficient and resource efficient design of buildings is well
known and well recognized in the parlance of profession of Architecture .
Despite criticality of site in making building design qualitative, role and
relevance of site, in majority of cases, remains marginalized, diluted and
muted in teaching- learning of art and science of designing buildings. As
creators and designers of physical spaces, architects have enormous
capacity, capabilities, understanding and abilities to use various options to
create numerous concepts and typologies of built form. However, while
preparing for the design phase of a project, it is crucial for an architect to
familiarize and understand the context in which he has been engaged to
design built environment. The context of site accordingly assumes
importance in evolving rational, realistic and sustainable design of buildings.
Accurately mapping and defining the materials, conditions and history of a
site, is known to empower, help and enable architects in, realistically and
rationally, conceptualizing an architectural project and taking it to a distinct
reality. The questions that are answered through the process of focused site
mapping and analysis, invariably leads into programming/schematic design
phase , make informed decisions throughout the design process and
reflecting the needs of the community to be housed. Looking at the entire
3. context of site, initially an article was written, as a reading material, for the
Indian Green Building Council, which focused on Site planning for
architectural projects. Writing a book on Site planning was never a thought
and priority. However, when article was sent for putting on the portal of
Council of Architecture, for wider dissemination I was asked by Ar. Jayshree,
whether presentation can be converted into a book for reference of the
students of architecture. It was both a challenge and opportunity to create
literature exclusively in the domain of site and site planning. Considering my
limited knowledge, exposure and understanding, attempt has been made to
put in place my understanding about the intricacies and complexities of site.
Looking at the context, book has been divided into five different chapters,
dealing holistically with the entire gamut of sourcing site and site planning.
While first chapter of the book is dedicated to; Role and Importance of Site,
Site Planning and Buildings; second chapter dwells on; Evaluating Suitability
of Site for any Architectural Projects. Chapter three details the; Methodology for
carrying out site analysis, besides bringing out the need and advantage of
doing a site analysis. Chapter also deals with methodology and contents of
presenting the data related to site analysis. Chapter four defines in brief the-
Principles Governing Site Planning; whereas last chapter details out the
Approach to Site Planning in Architectural Projects.
Considering the fact that all sites remain different and distinct, it becomes
difficult to deal comprehensively with the entire context of site and site
planning inclusively and exclusively. Looking at the undefined boundaries of
the subject , I would like to clarify that book does not remain comprehensive
and conclusive in the domain of site and site planning. It provides enough
space for professionals, faculty, researchers and students to make additions,
alterations and deletions to the book to make it more comprehensive and
self- contained. I am sure all stakeholders will look at the contents and intent
and will make valuable addition to the book so that it can serve as a study
material for the institutions engaged in teaching- learning of the architecture.
Jit Kumar Gupta
Chandigarh
May 16,2023
4. Contents;
Preface
Chapter -1
• Site, Site Planning and Buildings – Role and Importance -Page 5
Chapter -2
• Evaluating Suitability of Site for any Architectural Projects -Page 9
Chapter -3
• Site Analysis- Methodology, Need , Importance --Page 28
Chapter- 4 -Page 36
• Principles Governing for Site Planning; -Page 41
Chapter 5
• Site Planning in Architectural Projects- Principles and Approach --Page 58
References
5. Chapter-1
Site, Site Planning and Buildings – Role and Importance
Buildings have critical and important role in making human settlements,
productive, efficient, liveable and
sustainable. No city can be made
smart and sustainable, unless it is
supported by built environment,
which is energy and resources
efficient. Buildings, as largest
consumers of energy, resources and
generators of waste, are known to
use over 40% world’s total energy,
30% global raw materials extracted,
25% timber harvested, 16% fresh
water withdrawal, 35% of world’s CO2 emission, generators of 40%
municipal solid waste and 50% ozone depleting CFC besides making 30%
residents suffering from sick building syndrome.
With number of people rushing towards urban centres, energy requirements
of cities due to buildings, is going to rise sharply in future. As per McKinsey
Global Institute Report (April, 2010), ‘India Urban Awakening: Building
Inclusive Cities’, India would be required to create, on annual basis, buildings
to the tune of 700-900 million sqmts (equal to the built-up volume of Chicago
City in USA), to meet the emerging needs of urban India. Considering the
large volume of built space to be created, its implications in terms of
resources, energy and waste are going to be colossal. Despite huge
implications, very little focus is being given to mitigate the adverse impact on
the environment caused by rapid and uncontrolled growth of building
industry. Thus building, as a sector, would require close scrutiny and
monitoring for effecting overall economy in the levels of energy consumption
and for making cities resource efficient and sustainable.
6. Experience and studies have shown that adopting an integrated and passive
approach to design and designing with nature, using natural elements of
Sun, Space and Greenery, can help in proper planning and designing of
buildings. Integrated approach to building design is known to essentially
revolve round; rationalising site planning; optimising shape and size of the
buildings ; evolving sustainable built form; optimising surface to volume ratio;
promoting building efficiency , rationalising ratio between length and depth
of the building, making building structurally smart, light and cost-effective;
adopting solar passive techniques; controlling lighting, heating, ventilation ;
using solar energy, optimising landscaping etc. Making optimum use of
existing and available natural elements/sources and vegetation, offer the
best options for creating buildings which are not only sustainable but also
supportive of the local environment ecology. In order to ensure that buildings
are made energy and resource efficient, buildings must be planned and
designed to conform to rational site planning and designing buildings with
nature using natural elements available locally.
Making buildings sustainable will be largely contingent upon the quality of
site selected and approach used for site planning, designing buildings
including defining building fabric, their placement in the context of site and
determining its footprints. Accordingly ,it will be critical to define and explain
the basic factors which need to be considered and kept in view while
identifying suitable site for any architectural projects. After the site has been
selected/identified, the next stage shall be to evaluating the site, and taking
up the process of site analysis. Before taking up site planning, it will be
important to define the basic and governing principles which must be kept in
mind while preparing the site plan. In many cases, sites are already selected
or sourced directly from a Development Authority or a Private developer by
the client, in such cases, the architects’ operational domain gets confined to
planning and designing of buildings. Since all building are to be constructed
7. on the given site, accordingly, it remains relevant and important that
detailed evaluation of the given site is made, based on which work related to
site planning should be taken up. Globally all great architectural projects are
all products of synthesizing/ respecting and valuing site. Accordingly,
carrying out detailed study and undertaking detailed & in depth analysis will
be critical for realistically understanding and appreciating the architectural
context of the given site and evolving site responsive design. Accordingly,
understanding site should be made mandatory part of architecture teaching-
learning/architectural practice to make the profession more qualitative.
In order to make site , site evaluation and site planning process more
focused, rational and objective, attempt has been made to deal the entire
subject matter of site and site planning in a more comprehensive manner for
the use of students and professionals in order to achieve the universal goal
of making building eco-friendly, sustainable and promoters of ecology and
environment while minimising consumption of natural resources.
Looking at the entire gamut of built environment, role and importance of site
in the context of planning and designing sustainable buildings can be
enumerated in terms of;
• Site remain critical and valuable for any Architectural Project to be
made qualitative, rational, realistic
• Ignoring site and its distinct character/features in design solutions,
invariably leads to wrong architectural solutions.
• Site does not provide space for any pre-meditated designs to be fitted
• Site determines and dictates the contours of the buildings to be
planned and designed
• Site defines space on which building is to be conceptualized, planned,
designed, constructed and made operational
• Site determines the size/shape/footprints of the buildings to be
planned/designed and constructed.
• Site determines the most appropriate space for placing buildings,
defining area for parking, landscaping, pavement , hard and soft
surfaces.
8. • Site determines the relationship between built spaces within and
outside.
• Site gives distinct character to the building typologies
• Site, supported by orientation & wind direction, helps/enables
architects in understanding the context and fabric of the project
• Site, supported by approach and accessibility determines the
placement and orientation of the project
• Globally all iconic architectural projects , known for their quality/context,
are outcome of respecting/ valuing site.
• Studying/ understanding/analyzing /valuing site remains important for
architects before evolving design solutions/options.
• Site has to be seen ,studied both from within , from without/outside ,
from top and from bottom for understanding its complexity and
peculiarities.
• For realistic understanding/analyzing of site; carrying out SWOT
analysis remains critical and valuable.
• All sites remain unique and distinct; No two sites are similar;
accordingly, design solutions for all sites have to be different & distinct
• Detailed Study and indepth analysis of site remains critical and
valuable for any good design
• Good designs are always outcome of detailed study and
understanding the site.
10. Chapter -2
Evaluating Suitability of Site for any Architectural Projects
Role of site selected for any
building project remains most
critical ,valuable and prime reason
and major determinant of success
and failure of any project. All
architectural projects have their
origin/genesis in the site on which
they are located and accordingly
remain site specific for their
conceptualization, planning,
designing and construction. Like
human beings, sites also remain
different and distinct. Every site remains unique and distinct, comprising
of numerous complex elements including; varying topography, changing
physiography, existing flora & fauna; existing bio-diversity; ruling
climatic conditions; physical, social, environmental features; local
culture; available building materials and construction technologies in
practice, which largely influence, impact and guide design process and
decision making.
Site plays a crucial role in positioning and orienting the building, determining
its footprints, form, shape, fabric, material, structure, sustainability and
typology, including its relation with nature, surrounding and neighborhood
buildings. Accordingly, finding and locating appropriate site for any project
and carrying out detailed site analysis, remains vital and crucial for any
project to be rational, effective and sustainable. In the parlance of
11. Architecture, site analysis involves evaluating a particular location
physically, environmentally and
socially with the basic objective
of developing an architectural
solution which would be distinct
and help achieve the defined
objective of the project besides
making the project cost-
effective, energy-efficient , eco-
friendly, user-friendly and
sustainable. Accordingly,
sourcing an appropriate and suitable site remains pre-requisite and vital for
developing any project of any merit, because all good architectural
solutions have their genesis in understanding, analyzing, appreciating
and bringing best out of the given site.
All globally known architectural master pieces had their genesis in the
uniqueness and appropriateness of site on which they were located and the
design option used for optimizing the prevailing strength of such unique sites.
Sourcing appropriate site remains vital for the owner, project managers and
architects and accordingly, it will be relevant and rational to define broad
guidelines and principles which must be kept in mind, valued and should
remain the basis/ guiding principles while defining/ selecting sites for any
sustainable architectural project. Since all human settlements remain
different, distinct and unique, accordingly searching appropriate site for any
standalone project remains both a difficult and most challenging task.
However, critical factors which need to be considered and broad
methodology, guidelines and approach, which can be used/leveraged for
searching appropriate site, have been briefed below. These factors will also
form the very basis of carrying out site analysis, before taking up the site
planning and designing the built environment of the project.
12. Defining Project Scope and Requirements;
Site selection is globally valued as one of the most exciting and challenging
phases in an architectural project, because process involves and includes
looking and searching for appropriate and suitable options, where to locate
the project and construct the building. It is more complicated than simply
choosing a location that is convenient. Site selection requires a careful
examination of different options available , factoring in many things beyond
aesthetic and climate. Before going for location of the site, where project is
to located, it will be important to define all the requirement of the project, in
terms of built space and the open spaces required besides area required
under parking etc. Parking area remains crucial for commercial, industrial,
institutional and mixed land use projects. In addition to quantifying the built
area required for the project, it will be relevant to decide whether site
proposed to be selected; should make and include provision and scope for
the future expansion to increase its capacity at later date/stage. This
remains generally the case for education, healthcare and industrial projects.
If scope for future expansion is to be made, then area requirement for such
expansion should also be quantified and included in the total requirement of
the built space. Quantifying different spaces precisely , will invariably be
valuable in determining total land requirements for the project, depending
upon the permissible floor area ratio, ground coverage, height, setbacks etc.
defined in the building control regulations made applicable in the area and
city, depending upon the nature of the project.
Looking at the Planning Framework;
After having quantified the built area requirement and broadly understanding
the contours and area of the land required for the project, it will be
appropriate to look at the existing planning framework/Master
Plans/Development Plans/Zonal Plans, evolved for the city and identify the
permissible zone in which the land use of the project is permissible. Site must
be identified in the permissible land-use zones defined in the planning
13. framework of the city, failing which it will create numerous problems in getting
statutory approvals like change
of land use and getting building
permit for starting the
construction etc., which may
inordinately delay the project
and may even require selection
of an alternate site in the
relevant zones. In addition, city
planning framework needs a
detailed study and in-depth
analysis, with regard to land
uses defined for the adjoining areas; proposed pattern of future development
of the city; suggested traffic and transportation network; positioning of major
infrastructures at city and local level; future density and population
distribution, so as to have an overview of the city existing/future growth, for
making optimum use of the positive development while eliminating any threat
posed by the non- conforming development. Permissible zones positioned in
the city need critical and objective evaluation and analysis for ascertaining
their comparative merits and demerits for appropriateness of the siting of the
project. However, in case of projects having large land requirement, it will
be desirable that before selecting/locating the precise site, it will be essential
to understand/analyze the context of the planning framework of the city, for
which services of the professional planner must be made use of. This would
help in making right choice of land without getting into subsequent
formalities. Sourcing and studying master/zonal plans , zoning regulations
and applicable building by-laws should invariably be made integral part of
site selection process. After locating the permissible zone, process of
precise location of the site can be initiated based on the following factors;
14. Involving Technology;
After having identified the preferred
zone for locating project, identifying
precisely the site for project should be
done based on detailed data available
for that zone. It will be desirable to
make use of available technology for
zeroing on the site. Google maps can
be a handy tool to provide the overall
profile of the area including mapping
physiography; understanding
topography and contours of the area; existing road network; connectivity with
roads- both main and sub-roads; position of the railway lines; location of
major transport nodes including railway station, Bus Terminals, Airport ;
distance from major landmarks of city including Shopping centers, Railway
Station, Airport; mapping flora and fauna, existing structures, water bodies,
canals, rivers, electric lines- both Low /High Tension Lines, service network,
forests, low lying areas etc. These maps will be of considerable value while
defining the exact site, working out its boundaries, dimensions and area.
However, if the site is being sourced in the planned area, developed by a
Parastatal agency/ Development Authority/Urban Local
Bodies/Improvement Trusts/Private Builders/ Developers; then in such
cases, the approved layout plan of the area in which site falls; overall
dimensions of the site, number/width of the existing/proposed roads
permissible entry/exit, set- backs, permissible height; orientation, open
spaces, shape and size of the plot, ; positioning of supportive infrastructure
etc. must be looked at. Before opting/bidding, site must be visited to assess
its location ,suitability and the existing encumbrances. In case of sites in
hills, sites have lot of vegetation, sites having large area, use of drones can
also be made for assessing and evaluating the site realistically and rationally.
Sourcing demarcation plan and zoning plan of the area/site should always
be insisted before opting for site.
15. Evaluating Accessibility;
Site to be selected must have good
accessibility, both inter/intra city and
the region, so as to provide good
connectivity with different residential,
commercial, institutional areas of the
city/region. Good connectivity
enhances the value , visibility, viability
and usability of the project whereas
poor accessibility is likely to create
numerous operational problems for the projects. Accordingly, it will be
desirable to study the available access to the site. While commercial sites
may require location on the major axis and important roads of the city,
residential sites may require areas which are not close to highway , and
must be free from noise and traffic hazard but still close and well-connected
to the work areas, healthcare, educational institutions and market area for
sourcing day to day needs. Site for institutional area must be located in close
proximity to the residential areas, in order to serve the community without
much travel. Depending upon the nature of the project accessibility
requirement of the site needs to be evaluated and considered essential and
integral part of the site selection process. However, for larger sites
accessibility from more than one side shall be desirable to cater to the
different requirement of accessibility to the project. Accessibility to the site
should invariably evaluated in all modes of travel involving public, private,
vehicular and pedestrian access in order to make optimum use of all
available options of accessibility/mobility.
Valuing Shape and Size;
While selecting the site, it must be ensured that the shape of the site should
be such that it allows proper planning, designing and placement of buildings.
Accordingly, sites having regular shape should be preferred as compared to
16. irregular shaped sites, because regular shaped sites allow making optimum
use of the site area. Sites having irregular boundaries, forming acute angles
should invariably be avoided. Acute angled site leads to creating deep
pockets which lead to inefficient use of site as compared to sites having
obtuse angles. Shape and size of the site must ensure proper air, light and
ventilation within the building designed. Accordingly, too deep and too
narrow sites with large depth as compared to width or larger width as
compared to depth, should be avoided for proper designing of buildings and
making provision of parking etc. Area of the site should also be adequate to
accommodate the covered area worked out as per the scope of the project
Understanding Cost of Land;
Cost per unit area of land will be one of the most critical factors in making
decision about the selection of the site and its location because of its
implication in determining the sustainability and affordability of the project.
Too high land cost will make the project unviable leading to cost overrun.
Sites in developed area will be costlier as compared to sites in the
comparatively less developed area. Sites having better accessibility and
located on the major roads shall always command more premium as
compared to site having low accessibility and located on the lower order
roads. Sites located on major roads have more commercial value and
potential and are more appropriate for locating shopping malls, multiplexes
as compared to housing complexes. While evaluating the cost of land, care
must be taken with regard to future pattern/trends of growth and
development of the city, for which master plans/development plans will
remain useful documents for reference and decision making. In case, the
land is being sourced directly from the private landowners, then in addition
to looking at the cost, land ownership also needs detailed study and
evaluation. While selecting the site, it must be seen that land ownership is
not disputed and site is unencumbered. Also, site is not fragmented and is
not mortgaged or under dispute in a court of law. All disputed sites must
invariably be avoided for obvious implications, for the feasibility of the project.
17. Land having too many landowners must be considered carefully. Before
buying land , it will be important to check the ownership record, land area
and status of land from local revenue authorities. It will always be advisable
to get a feasibility study done in respect of the land falling in the site, from
any advocate for obtaining non-encumbrance certificate for the land. In any
case when land is sourced privately from an individual landowner, certified
copies of revenue record of ownership, land holding, area of land, quality etc.
should invariably be obtained and made integral part of record.
Avoiding low lying and floodable sites;
While selecting sites, care should
be taken that; all low-lying areas
and sites, which are prone to
flooding, must always/invariably be
avoided for any likely damage to the
site/buildings in future. In order to
avoid low lying area, it will be
appropriate to obtain the flood-
ability map of the city, to know the
area which is prone to flooding.
Further, low lying area falling on the banks of water bodies should also be
avoided to make the project safe. Highest flood level along the water bodies
must be made part of site selection for avoiding low-lying areas. In such
cases, levels of the site, with respect to adjoining land must be visited along
with the past history of flood- ability of the area, before making a decision.
Levelling low lying area could be an expensive investment, raising the cost
of the project. In addition, all areas used for sourcing earth for brick kilns
should also be avoided. Low lying area, levelled by dumping solid waste,
should never be selected because of health hazards and environmental
implications it will have for the residents of the buildings in the project. Low
18. lying sites which have been used for dumping debris, construction,
demolition waste and sites which are filled with non-toxic or other harmless
materials, can be taken up for construction, considering the consolidation
and stability of land to avoid differential settlement subsequently. However,
low lying sites, which are not prone to flooding and which can be managed
against disaster, can prove to be asset for project and designing of
buildings, where basements are required to be created for meeting the
parking norms, creating space for storage, services etc. Consultation with
architect will always help in critically evaluating the merits and demerits
besides evaluating suitability of land for the project sustainability and rational
designing.
Looking at Prohibitions imposed by legal Framework;
There are numerous restrictions which are imposed on the development
coming up along the major roads to control the ribbon development and to
ensure smooth flow of traffic and to safeguard areas of importance like area
under forest, protected area and area around heritage buildings and
wetlands. In addition, master plans also provide restrictions on the use of
land in certain pockets calling for making provision of the green belts. In
Punjab along Scheduled Roads, a no-building zone up to 50 meters and in
case of By-pass; up to 150 meters, is to be provided in all projects located
on such roads. These restrictions, lead to making large area open in the site
adjoining these roads, where no construction can be undertaken. Such
locations need to be clearly avoided. In case the sites are required to be
located on such locations, considering the peculiar requirement of the
project, then site with lesser length /façade with more depth should
invariably be preferred in order to minimize the extent of site area , coming
under no construction zone and more area becomes available for building
purposes. However ,in projects having large requirements of open spaces ,
siting of projects along these roads can be considered. Sites falling in the
coastal areas, impacted by the provisions of Coastal Regulations Zone ,
should also be avoided. Accordingly, all these legal requirements,
19. prohibitions, restrictions and limitations imposed in the area, either through
planning legislation or through planning framework- Master Plans/Zonal
Plans etc., must be identified, listed, considered, quantified and evaluated
before selecting the site and all prohibited sites covered under various
regulatory considerations should invariably be avoided.
Locating Basic Infrastructures;
Availability of water, sewerage, road network, stormwater drains,
communication network etc., remain vital and critical for any project,
institution and users to make the project cost-effective and economical. .
Accordingly, while evaluating sites, availability of these basic essentials must
be considered. In the absence of these services and infrastructures, the
projects will not only be considerably delayed but the initial, operational and
maintenance costs will become much higher and unaffordable. First priority
in site selection for the project must go to the area, which is developed and
where municipal services of appropriate capacity are already available.
Selecting site within defined boundary of urban areas should always be
preferred , as compared to sites falling outside urban limits, because within
urban limits, urban local bodies are mandated to provide the basic services.
In addition to looking at the existing network of services, area also needs be
studied in terms of future development of services in the area, creating new
roads/widening of existing roads, laying of sewers/water supply/drainage
network. In addition to physical infrastructures, availability of social
infrastructures in the close vicinity of the identified site also needs detailed
evaluation. Success and failure of projects are largely governed by the
availability of the quality supportive infrastructure within and in close vicinity
of the project. Non- existence of basic services invariably delays the project
and makes the project cost-intensive, whereas availability of such services
always makes value addition to the project in terms of cost and timeline of
completion of project.
20. Avoiding Physical Encumbrances;
Physical encumbrances in terms of; HT/LT Electrical Lines , Gas pipes, City
Water Supply, Storm Water drainage, Sewerage pipes, Built-up structures,
Religious Buildings, Revenue Roads, Canals, Water Bodies, Easement
Rights etc., play critical role in defining the usability of site because of
numerous implications /limitations such encumbrances impose on the use
of site. Accordingly, while locating site, it will be vital to identify physical
infrastructures existing within/without the site All sites having physical
encumbrances like High Tension Electric Lines needs to be avoided because
of enormous threat they pose to the safety of the building and inhabitants. In
addition, it causes inefficiency in use of land due to prohibition of construction
under these wires besides leaving a distinct air corridor where no
construction is permitted. Shifting these wires remains both cumbersome
and time consuming process/procedure, involving lot of cost, labour, time
and permissions. Sites having gas pipes, sewerage lines, telephone lines,
water pipes passing through it, should also be invariably avoided, because
of the limitations it imposes on the positioning of building and determining
building footprints. Similarly, sites with religious structures/derelict structures
should also be ignored for obvious reasons. It will always be desirable and
appropriate to select site which should be free from physical, social and
environmental encumbrances. In addition, existing Easement Rights in the
context of site should also be identified and evaluated in terms of its impact
on the usability of site.
Avoiding Disaster Prone Areas;
India, as a nation, is ranked high
globally among countries with major
land area subjected to numerous
natural disasters. Accordingly,
considering and evaluating the context
of vulnerability of sites to disasters
and for making buildings safe should
21. be made integral part of promoting safety of the project. Site selected
in a vulnerable zone, subjected to natural calamities, will make project
not only cost-intensive, but also make buildings vulnerable.
Accordingly, site falling in high risk, vulnerable and disaster-prone
areas, which are subjected to frequent flooding, earthquake, landslides,
tsunamis and cyclones; must be avoided for development, considering
the risk involved to the stability of the built environment created on these
sites and possibility of frequent loss of life and property. However, where
such risks are unavoidable, then site selected should be such that it
involves minimum risk even when such disasters hit the area. In case of
flooding; efforts should be made to identify sites which are located at
higher elevation. Similarly, in case of cyclone hit area, site falling in
windward direction should not be considered. Area facing landslides
would need evaluation for stability, with area selected having least
possibility of landslides. Area prone to earthquake, should involve
possibility of creating earthquake resistant buildings through adoption
of state of art planning, designing and construction options. Vulnerability
Atlas and other documents prepared/available, showcasing the area
prone to disaster and intensity of disaster need to be referred for
avoiding such sites. Mapping site in respect of extent/intensity of
exposure to disasters shall be valuable in selecting a safe site in
disaster prone areas.
Understanding and Valuing Topography;
Undulating sites have inherent
limitations in terms of their planning,
designing, development and
placement of buildings as compared to
level/flat sites and accordingly
topography and physical structure of
land must be evaluated before
finalizing site. In Hill areas, where flat
lands are generally not available,
22. selection of site should be based on involving minimum cutting and filling
with contours and gradient providing enough space/ options to design
buildings along the contours rather than across the contours. Study and
analysis of the slope of the site, must entail mapping of the existing
gradient, landforms, elevations, drainage patterns etc., for site study and
analysis. Considering the magnitude of the projects, undulating sites can be
asset for creating sustainable design options, depending upon the
architectural solutions, which can be leveraged effectively and efficiently for
converting them from challenge to opportunities. Derelict sites offer enough
opportunities for restoring and promoting environment of the area and make
value addition to bio-diversity and ecology. Such sites could be preferred for
large projects because of lower land values they have and numerous options
they offer to design buildings with nature and natural elements. However, it
will always be valuable that site selected in hill areas should have land
pockets with slope not exceeding 30-40 degrees, because many building
regulations prohibit the construction of buildings on slopes more than 40
degree and site selected should not be located on Northern slope.
Connecting with Existing Transportation Network;
As already defined, accessibility to site remains critical for the success of any
project. Accordingly, suggested site should also be mapped and defined in
terms of accessibility related to major nodes of local traffic and transportation
in terms of local bus stops , local metro stations, ferry- station etc. Site
selected should preferably be within walking distance, located near to and
closely connected with the existing system of public/mass traffic and
transportation, so as to enable the people working/living in the project,
are able to use these modes of travel in a convenient manner. This will
help in minimizing the use of personal vehicles for intra- city travel and
promote the use of public transport.
23. Documenting Existing Flora and Fauna;
Selection of site should also include
and involve, understanding and
evaluating the existing wealth of flora
and fauna on the site. Existence of
too many trees on a smaller site can
pose considerable challenge to
evolution of the appropriate design
solution whereas in case of large
sites, existing flora and fauna can
prove to be an asset. Sites having too
many protected trees or protected forest areas invariably needs to be
avoided. Evaluation of green wealth existing on the site needs to be made
right in the beginning, based on detailed survey by assessing the nature,
age, girth, foliage and number of trees and possibility of making existing flora
and fauna, integral part of design solution. However, before selecting the
site, documenting and analysing the positioning, quantity, quality and
typologies of such flora and fauna must be made to ensure there exists
enough area within the identified site, to meet the requirements of the built-
up area defined in the project report
Evaluating View to and from Site;
Views, from and to site, remain another valuable element to be considered
while determining comparative
merits and demerits of different sites.
Good views providing visibility to ,
lakes, water bodies, hills,
landmarks, bio-diverse area, forests
etc. which make value addition to the
site ,should invariably be considered
an asset for the site and the project.
On other hand, view which lead to
derelict areas, slums, industrial area,
24. thermal plants, large industrial units, refineries, garbage dumps and areas
which are polluted, needs to be discounted. Good views are considered
valuable while designing the buildings and are major determinant for
evolving good design solutions.
Understanding Soil
Quality of soil existing at the site also needs to be evaluated in terms of its
usability for building purposes. Soil having good bearing capacity makes
enormous value addition, in making project not only cost-effective but also
providing safety against disasters. Good load bearing capacity makes not
only foundation more economical
but also reduces structural cost of
the building. Accordingly, sites
having good load bearing capacity
soil should be valued and preferred
as compared to soil with low
bearing capacity. Site having high
water table needs to be discounted
for obvious reason of water
seepage into the building, and low
bearing capacity it will create for the soil at the site. Sites with high water
table make them unfit for creating spaces at basement level and always pose
threat to buildings in terms of water getting into the building. During heavy
rainfalls, such sites are invariably subjected to flooding and create problems
of safety to building and inhabitants, using the building. Good soil is known
for the capacity and quality to make buildings not only cost- effective but also
facilitate the rapid growth of flora and fauna, making value addition to the
project.
25. Mapping Wind Direction;
Wind direction needs critical study
and analysis while selecting any site.
Wind has both positivity and
negativity. If fresh air remains
essential for good quality living,
managing humidity and temperature,
bad air causes enormous pollution
and generates poor quality of life.
Wind modulate temperature
depending upon the climate zone in which site is located. Accordingly, it is
essential induction of foul air into the buildings have to be invariably avoided
and fresh brought in to make the buildings healthy and well-ventilated.
Accordingly, if site falls on the path of wind coming from industrial area, then
it is likely to cause pollution and will adversely impact health, hygiene and
quality of life of the people living/working in the project area. Accordingly,
location of industries /non-conforming uses and both in present and future ,
must be considered while selecting any site. Wind direction will also be
relevant in selecting site and positioning of buildings in order to make
optimum use of prevailing wind and avoiding its adverse impact. In case of
coastal areas and area falling in the warm and humid climatic zone; site
should invariably be located in the windward direction, to promote cross-
ventilation in site and the buildings to be constructed therein. Site located on
leeward side should invariably be avoided in coastal area. However, in case
of Cold regions and Hill areas, site facing windward direction should
invariably be avoided as against site located in the leeward side, to avoid
adverse impact of cold air on the built environment.
26. Locating Air Funnel;
Air Funnel defined in the case of cities, having air connectivity, also need to
be taken into account while finalizing
the site, located on the periphery or
falling under the defined air funnel.
Site falling under existing air-funnels
need to be avoided, because of two
distinct reasons; involving high degree
of noise generated by planes while
taking off and landing. Sites for
hospitals, education, offices and
activities requiring minimum noise, should invariably avoid locating under the
air funnels and locating near nodes generating noise pollution. Sites located
in close vicinity of airports also need careful consideration due to limitation
of height imposed on the buildings to be constructed there, which invariably
limits the quantum of built up area to be constructed on the site. It leads to
underutilization of the site due to low floor area ration admissible on such
sites.
Exploring Brown field Sites;
In majority of cases, all developers/architects go in for green field sites as
against the brownfield sites for the reasons , green field sites provide
enormous options/flexibility in planning, designing and construction of
buildings to both architects , engineers and developers. But all green field
sites remain consumers of land and resources besides adversely impacting
the nature, environment and ecology. Accordingly, it is important that while
looking at the site in any urban settings, option of selecting existing site for
the use of the project should also be explored. Brown field development hold
distinct advantages in terms of location, services, centrality, existing built
environment, materials etc., subject to suitability of site based on
considerations defined above.
27. Locating Climatic Zone;
Study of climate remains critical and basic factor for evaluating the site and
its suitability for planning, designing and
construction of buildings. Based on climate,
India is divided into five distinct Climatic
zones considering the norms defined for
day-temperature and humidity. Each
climate zone, remains unique and distinct;
requiring different options for planning ,
designing and construction of buildings
due to differential requirements of heating,
cooling, air, light and ventilation. Climate
evaluation of site will have to be carried out at three distinct stages involving;
Macro-climate( Study of the Climatic Zone in which the site falls); Meso-
Climate (Climate of the city where site is located) and Micro- climate
( Climate of the site) .Detailed study and analysis of three distinct climates
will be crucial not only for selecting appropriate site but also for evolving Bio-
climatic architecture structure. It will also provide clear idea to the
architect/designer about the Bio- climatic aspects to be considered while
designing the structures. Accordingly, role , importance and relevance of the
climate, should invariably be built into the site selection process. In case of
Cold& Sunny- Dry/wet regions /hill areas; all sites falling on the Northern
slopes, should invariably be prohibited for construction, for making buildings
sustainable and energy-efficient. Similarly, context of leeward and windward
direction on the proposed site, as already defined earlier, should also be
taken care of , while selecting site. In case of zones having too much rainfall,
then site on higher elevation and having efficient drainage should be
selected to avoid flooding.
Evaluating Impact on surrounding Environment
While analyzing the site, it will be critical to evaluate, quantify and list
both positive and negative impact of the proposed project on the
28. surrounding environment and evolve strategies to build on the positive
aspects and eliminate negative impact on environment. This will help in
designing the buildings in a sustainable manner and for making value
addition to the project and the surrounding environment.
Mapping Orientation;
Orientation should invariably be valued and considered while selecting site.
Sites providing best orientation need to be preferred for planning and
designing sustainable buildings. It will be easier to achieve sustainability on
sites having good orientation, considering the prevailing climate in the zone.
Sites facing west in hot regions need to be invariably avoided considering
the inherent limitation they create in managing the adverse impact of the sun
and heat for designing sustainable buildings. North- South remain best
orientation for office buildings in hot regions. North slopes need to be avoided
in the hill areas for creating sustainable buildings due to non- availability of
Sun. South/South-East is considered good orientation in the composite
climate zones
Conclusion
Efforts have been made in brief, to describe factors which need to be
considered, analyzed, quantified and evaluated for identifying
appropriate sites for any project. However, it remains difficult to
comprehensively detail out all the possible factors which govern the
precise and appropriate location of the site of any project. Guidelines
for locating the project remain both dynamic- constantly and
continuously evolving and devolving requiring constant review, revision
and redefinition from time to time to make them more relevant, rational
and objective. Nevertheless, identification of appropriate site will need
lot of study, data, knowledge, understanding and expertise of the
various factors detailed above, before coming to any logical and
rational conclusion.
30. Site Analysis- Methodology, Reasons and Advantages.
All architectural/ construction projects, for becoming a distinct reality, have
to be spaced on the land identified for the project. Accordingly, detailed
study and in-depth analysis of the given site, on which built environment
is being created, becomes important and critical so that site is properly
understood and appreciated in different aspects before evolving design
options. For understanding the fabric and structure of identified land, carrying
out site analysis assumes importance for the reason that whatever is being
planned, designed and constructed, should invariably meet the basic
requirements of safety, aesthetics, utility, environment and sustainability.
Genesis and importance of site study/analysis has its origin and roots in
the role and importance of the site in creating realistic and rational options
for designing sustainable buildings. Globally, all iconic buildings have
genesis and origin in carrying out detailed study, understanding and
analysis of site and designing buildings looking at the prevailing physical,
social, environmental and cultural aspects of the area and the setting in
which site was located.
Looking at the various connotations, Site analysis in architecture, has been
defined as; ‘A process that involves research and analysis of the social,
historical, climatic, geographic, legal and infrastructure aspects of a location’.
This work is delivered visually, in the form of site analysis diagrams, which
are used when planning to build a structure/building. Juxta positioning
realistic site analysis with the other construction project data, allows
architects to make more insightful decisions while designing the structures/
buildings.
31. Site study/analysis remains valuable/ important document during the design
process and invariably influences the programmatic, structural and even
aesthetic decisions, involving shape, form and materials to be used in the
making of building. Site analysis does not merely empower the architects in
evolving a rational and sustainable design in conformity with the conditions
prevailing in the site, but also remains helpful for the contractor, making
him aware about the existing ground realities to make decision regarding
undertaking construction besides helping owner understand the viability
of the project.
Site Analysis is valued as one of the most important and effective way in
architectural vocabulary, to define the context and find a concept for the built
environment to be created on a site. The quality of site analysis invariably
depends upon the details sourced about the site. Architects accordingly,
need to be thorough with the prevailing peculiarities of the given site.
Therefore, any detailed, meaningful and comprehensive analysis would
help and empower architect to think of the form, mass, approach, landscape
and much more about the project to be designed. Making buildings fit in the
space and how that space impacts the construction remain critical elements
of site analysis.
Site analysis in architecture, is part of the programming / pre-design stage
and is composed of three distinct phases/ three basic steps; involving
Research, Analysis and Synthesis.
• Research ; Remains the first step involved in the process of site
analysis. The process looks at not only the physical conditions
existing at the site but also tries to explore the site and its
surroundings in historicity, to map any significant changes and
how site looked earlier. Research also includes documenting
site from available record with the revenue agencies, maps and
images of the area and local communities, which are valuable for
expanding the context of the site. Visiting site physically , taking
pictures, preparing notes, taking measurements of site, mapping
32. accessibility, identifying flora& fauna, understanding physical
encumbrances existing etc. on the site remain most valuable
aspect of research. More the time spent and larger the
information sourced during physical visit to site, will invariably
lead to better understanding and analysis of site.
• Analysis; After making the basic study and collecting data
during the visit to the site , the next stage will be to analyse the
data sourced and collected during the physical visit. Since large
data will be available, accordingly the entire data shall be looked
at, both critically and objectively, and only information relevant to
the project and its designing shall be analysed excluding
information not relevant to the designing of the project.
However, while analysing data , care has to be taken that only
that data is retained which has a purpose and useful in the
designing of the project . No data relevant to the project design
should be left out. Analysis has to be done with care and caution
because in number of cases valuable data is left out, which
dilutes the very purpose of carrying out site analysis.
• Synthesis; Architecture site analysis is the process of
researching and analysing the social, historical, climatic,
geographical, legal, and infrastructural characteristics of a given
site, and synthesizing these analyses into visual information
usually in the form of site analysis diagrams. Accordingly, last
step in site analysis is known as Synthesis, which involves
synthesizing the information which has been sourced and
analysed. In synthesis, data sourced and analysed is prioritized
with reference to design needs of the project , which help the
architects in evolving design parameters and forming the basic
concept and approach to project design. Synthesis involves
preparing site analysis diagrams, which remain the graphic
translation of key observations and analyses, since they
showcase and relate to the material conditions existing at a site.
33. Common themes appearing in site analysis diagrams include
sun and shade paths, movement and circulation patterns, land
use, and public space vs. private space. However, synthesis has
to be done by the project team, because understanding the entire
context of site shall be contingent upon the accurately mapping,
defining and synthesising the site in its physical , social an
environmental context.
Preparing Site Analysis Report
The process of site analysis should include and conclude by preparing a
detailed report which would define, detail and present the site analysis for
the benefit of respective stakeholders. Report should contain and include
written text, sketches, plans, details about climate, topography,
physiography, photographs, literature related to site/area . Few key points
that will help in ensuring an excellent presentation would include;
• Providing Overview; of the project site through data
sourced along with photographs (including aerial ones)
• Digital mapping ;Adding images in the form of
pictures, photos, sketches of the features existing on the
site etc. which invariably help in realistically
communing the ground realities.
• Mapping Distinguishing features; including elements
that can play a more vital role in the design process
which should invariably be prioritised
• Enumerating data; Including relevant data related to
site and its environs which makes report precise,
concise and clear
• Avoiding Ambiguities; Complicated tables,
schedules, and graphs sourced from external sources
should invariably be avoided.
• Mapping data Accurately /simply; Creating tables and
charts which are simple and relevant, always make
value addition to report.
34. • Ensuring Clarity; Clarity remains the most crucial
factor which needs to be kept in mind while creating site
analysis diagrams.
• Mapping environmental features; Drawings
showcasing solar path, wind direction, climate, climate
zones remain valuable for the report.
• Using Technology; Using technology and involving
drawing /drafting tools like Sketchup remain valuable for
depicting various details of the site. Even preparing a
video of existing features on/off the site will be valuable
asset to report.
•
Reasons for undertaking Architecture Site Analysis
As explained above, undertaking a site analysis is the first and most crucial
step before starting the process of construction. There are several reasons
why this phase is one of the most critical in rational designing/planning of
buildings/sites and must be carried out correctly.
• Assessing Financial Viability; Site analysis invariably
helps in assessing the financially feasible of any project
• Facilitating Best design Options; Site analysis helps
in developing parameters which lead to evolving best
of design options
• Identifying opportunities; Every project remains
different and unique, and site analysis helps identify the
available unique opportunities
• Empowering Architects; Proper site analysis helps
consider present and future developments and
empowers architects to make rational decisions while
evolving design options.
• Identifying building footprints ; Site analysis helps in
identify/defining factors and elements that might impact
determining the placement and footprints of building
35. • Creating Passive design options; Based on existing
conditions, site analysis helps in developing
adaptive/passive design
• Making Design site specific; Realistic/rational/
detailed site analysis invariably helps the architect in
blending the proposed design of the structure with the
conditions existing at site.
• Mapping weaknesses; Weaknesses along with
prevailing unwanted conditions can be easily
identified/mapped and quantified through the process
of site analysis
Advantages Of Undertaking Architectural Site Analysis
Undertaking a site analysis is not only necessary/essential but also remains
valuable for the reason it offers several benefits for the project, project
planner, designer and all the stakeholders involved in terms of ;
• Providing information ; Site analysis provides required
information to client about the construction project and
its progresses,
• Assessing Financial Feasibility ; Site Analysis helps
maximize return on investment (ROI) and check the
project’s feasibility before investing
• Trouble Shooting; Site analyses also help resolve any
issue right at the initial stage, preventing more
significant problems emerging later
• Making Informed Decision; Based on detailed/
accurate information, team involved in the project can
make informed decisions about planning, designing and
construction of buildings to be constructed.
• Promoting Time -efficiency; Site analysis helps in
saving time spent in conceptualization and visualization
• Avoiding Legal Issues; Site analysis also helps in
avoiding legal problems through feedback obtained
from local authorities.
37. Principles Governing Site Planning;
Site plan in Architectural vocabulary refers to the detailed drawing of
building/project site which showcases the location of the
existing/proposed buildings/structures on the site allocated in relation
to the surrounding area and also includes the boundaries, entry& exist to
the site, location of streets, sidewalks, utilities, topographic features,
open/landscaped area, space for parking, services, built up area, floor area
achieved and other relevant details of the site.
Considering the major implications of site planning in the context of making
architectural projects sustainable, cost-effective, rational, supportive and
making value addition to prevailing quality of environment, ecology and local
bio-diversity, it will be essential that broad principles governing the process
of site planning must be defined and detailed to serve as a guide to the
architects while planning their projects. These principles, though not
inclusive, should revolve around;
i. Respecting site and all physical features existing on site for making
optimum use of existing features available while designing and placing the
built environment/various project elements in site planning, in order to evolve
a design which reflects the peculiarities of site and remains site responsive.
ii. Planning with nature, using natural elements of sun, space and
greenery; should invariably be the approach which should form the
guiding/underlying principle of site planning. Any
site planning and building design, based on
leveraging the nature and Panchmahabhutas,
including Prithvi, Jal, Agni, Vayu and Akash; shall
always make value addition to the project and shall
never fail at the altar of sustainability.
iii Adopting strategy of protecting, preserving
enhancing and promoting available physical features, which will invariably
help in making site planning more rational, realistic, effective and efficient.
38. Preserving and protecting all areas and elements of natural areas/ scenic
beauty and protecting all good views of built/ manmade /natural heritage, to
and from the site ,should remain the guiding principle of site planning.
iv. Minimising fingerprints of proposed buildings- involves covering
minimum area of site under building footprints, and leaving large open area
within the site, to be used for promoting landscaping, creating green spaces
and giving a sense of more openness in the site, besides overcoming
limitations imposed by smaller land area. Having minimum building footprint
invariably helps in higher order of ground water recharging, lower incidence
of heat island, lowering temperature on site, reduced demand of energy for
heating and cooling and ensuring adequate air, light and ventilation besides
making living and working area more user friendly. Large open spaces
created within site is known for its distinct advantage of making both buildings
and cities cool and energy-efficient.
v. Keeping maximum area under open, will always go a long way in
promoting air, light and ventilation, creating large landscaped area providing
enlarged scope for water absorption, making provision for the parking
space, creating open space for sit-outs/gardens , space for basic services
and ground water re-charging.
vi. Identifying entire range of flora and fauna- on site and preserving them
by making them integral part of site planning and building design process to
impart a distinct ambience, character and culture to the project.
viii. Making adequate provision for rain water harvesting -and ground
water recharging to help in sourcing/storing large amount of precious water
and reduce the demand on ground water.
ix. Opting for brownfield development by using areas which were earlier
used for buildings, to help minimising adverse impact of green field
development and regenerating the existing derelict areas.
x; Providing Setbacks of adequate width, - for ensuring availability of
adequate air- light and ventilation within and outside the buildings and for
facilitating vehicular access of the fire/ ambulance vehicles , in case of
39. natural and manmade disasters; for creating landscaped area within the site;
providing space for parking; to mitigate outside noise and to promote privacy.
xi. Minimising damage to the site should invariably be promoted by
minimising changes to existing environment , ecology , bio-diversity
prevailing within the site and making value addition to the site through
rational site planning
xii. Restoring the derelict area existing within the site by developing them
and restoring them to original status for promoting sustainability of the
project.
xiii Site planning of steep sites and sites falling in the hill areas/
contoured sites- should preferably be based on placing and designing
buildings along the contours to the extent possible so as to minimise
damage to physiography and environment. When placing buildings across
the contours, care must be taken to ensure that buildings involve minimum
cutting/filling and damage to the structure of the site. Minimising damage
/tempering with the existing physiography of the site, should remain the
guiding principle of site planning.
xiv. Site planning should invariably involve; Evaluating, analysing and
mitigating the adverse impact of development on site, adjoining areas,
communities , ecology and environment
xv. Planning with Sun and wind; Site planning shall invariably be dictated
and governed by the cardinal directions, orientation, position of the sun, solar
movement and wind direction prevailing in and around site for
orienting/placing/designing buildings to make the built environment energy
efficient and sustainable.
xvi Valuing Land; Considering limited availability of land and India being
recognised as having low land-man ratio, Site planning must focus on
conserving and preserving land by having minimum footprints of buildings
to be created, leaving large area as open space, to be used later on.
41. Site Planning in Architectural Projects- Approach
Site planning is considered and valued as the most crucial aspect of
architecture while evolving
design solutions and placing
them within a given site.
Architectural solutions have their
origin and genesis in the site on
which they are to be located. All
sites remain unique in their
fabric, shape, size, area,
location, physical features,
orientation, surroundings,
environment, ecology, and
accessibility. Accordingly, design solutions provided by Architects remain
different, distinct and unique, considering response of the designer to the site
and its surroundings.
Site planning remains a complex and intricate process, involving number of
elements and studying number of contexts including; positioning of
structures and designing internal and external elements. Site planning is
considered both an art and science of determining the basic fabric, footprints
and typology of buildings besides locating them in the context of a given site,
having due regard to prevailing orientation, landscaping, infrastructure,
mobility, parking, privacy, view etc
Site planning essentially involves arranging structures on a given land
besides shaping spaces between them. Kelvin Lynch considered site
planning, as a process linking architecture, engineering, landscaping and city
planning. Creating logical relation between mass, space, zoning, services &
maintenance is also known to be the outcome of site planning besides
42. locating activities and objects in space and time. Site planning is considered,
both as a compromise between the site, modified to work out building
program taking into account features of site. Since land remains the basic
and essential platform of site planning, accordingly site planning is also
reckoned as art and science of planning, designing and management of land.
Considering numerous implications and its role and importance in promoting
sustainability of architectural projects, site planning has to be done with
sensitivity, care and caution to eliminate any possible adverse impact and
blend the project with local environment, ecology, climate, culture and bio-
diversity.
Approach to Site Planning
After learning about the principles to be considered and approach to be
adopted for site planning, it will be relevant to define and describe the
process which needs to be followed in order to evolve rational options for
site planning. Rational site planning needs to be considered and evaluated
looking at the broad range of concerns and issues related to building design
and their inter-relationship before finalisation. Site planning should
essentially be made a synthesis of a number of collated factors and should
be based on carrying out detailed study and analysis of existing physical
aspects of site ; vision/ program of client; designer’s own creative
inclination; concerns of community; interests of end user; zoning /bye-laws
requirements for regulating the density, height ,coverage ,geometry of
development, road widths ,parking and drainage requirements; protection
of natural resources ; Neighbourhood Character; Physical Characteristics
etc. Accordingly site planning must incorporate an accurate description of
well-defined, well-designed and well-executed site analysis, which remains
critical for evolving cost-effective, environmentally sustainable and eco-
friendly design options. Considering the total fabric and structure of any
architectural project, site planning process includes large number of
elements involving; buildings, roads, walkways, trees, gardens, water
bodies, landscaping, plazas, environment, services, parking, natural and
manmade features etc.
43. Considering large number of elements and factors involved, following
approach is being suggested for rationalizing and optimizing the process of
site planning of any project for achieving its sustainability.
i. Looking at Project brief; Before undertaking the exercise of site
planning of any project, it will be important to understand the
genesis, context, intent and content of the project. Reference in this
regard needs to be made to the project profile already prepared; so
that scope of the project, built spaces requirements, services and
infrastructures to be provided, are clearly delineated, understood
and appreciated. If no such document is available, then such a
document must be created for keeping the project on track , within
its defined scope and for avoiding any complications and omissions
arising out of time overrun / cost-overrun, at a later date
ii. Visiting Site; Site visit is the first step to any design process. Many
a times the importance of this step is overlooked. Architects are
often expected to start working on a building design by just looking
at revenue plans, survey plans and site pictures or videos. There
are several things that a visit to the site can offer which you cannot
see, experience or understand from photographs. It is crucial to
understand the context before you build on it. This allows to
establish continuity between the building and the conditions it is built
for. To quote renowned architect Tadao Ando, “You cannot simply
put something new into a place. You have to absorb what you see
around you, what exists on the land and then use that knowledge
along with contemporary thinking to interpret what you see.” These
words sum up the first lesson of building design. A good design
must complement the landscape it is built for.
iii. Site Analysis;The practice of site analysis and site development
needs to start as early as possible , right from Architecture schools.
Most common practice that you see in architecture schools is that
young architects design for hypothetical sites. The idea of a design
concept is usually limited to the form development while the
44. methodology for form development is left unexplored. It is important
for an architect to know what to look for when they visit a site and
how to use these findings to derive a concept. Keeping aside the
tangible elements such as the climate, geology, existing vegetation
and neighboring views, there are several intangible elements such
as the culture of a place, political-economic conditions etc. which
needs to be considered before beginning a design. The sensitivity
of the architect with which all these elements get integrated to
generate a design is what makes each design unique and universal.
Optimizing the true potential of a site is the best sustainable
approach towards design. It is important and critical to look at some
of the best examples in the history of architecture which showcase
how site and its features paved way for concept and design
development.
iv. Locating and Understanding Site; After having understood the
project profile and requirements of the project, it will be critical to do
a detailed study and analysis of the site identified for the project for
understanding its complexity, uniqueness, strength and locational
peculiarities. Understanding site remains critical, important, vital for
preparing rational site planning and state of art designing of
buildings. Before starting planning of site and designing of buildings
proposed; site needs to be properly documented, visited, studied,
analyzed and understood thoroughly and objectively. Preparing site
plan and designing buildings have to be the outcome of the
prevailing site conditions and responsive to those conditions.
Premeditated designs options have invariably/always failed to
produce great and sustainable solutions and do justice to the
project, making them in majority of cases irrational/
unsustainable.Site for its proper understanding and planning needs
to be studied and analysed in terms of Location; Accessibility;
Shape and size; Topography; Vegetation; Infrastructure;
Orientation; Wind Direction; Local culture, Soil conditions; View
from site /View to site; Prevailing typology of buildings; Structures
45. existing within site; Existing encumbrances- electric /gas lines,
water bodies etc.; Local Building bye laws; Developmental Controls-
Height, FAR, Setbacks ,Land use etc.; Restrictions imposed by
Master Plans/ statutory document. Understanding site has great
value and considered vital in resource to understand and appreciate
the contexts ; defining and designing structure and contours of the
project; positioning buildings; determining solid and void
relationship within site; determining shape, size & and volume of
buildings; determining distances and relationship between
buildings; planning and designing state of art buildings; planning
and designing sustainable buildings; making buildings cost–
effective/energy /waste efficient ; planning spaces rationally and
objectively- both internal and external; placing buildings and
determining building setbacks; preparing landscape design;
evolving Traffic and Transportation/mobility Plans ; preparing
Infrastructure plans; evolving service plan ; preparing drainage plan
and providing Rain water Harvesting. A detailed and accurate
survey of the site indicating the shape, size, dimensions, orientation,
easements, levels / contours of site, difference in levels between
site / surrounding properties, location/ height of existing physical
features on site/ surrounding properties, existing flora & fauna,
use/height of surrounding buildings, details of means of
accessibility, location and availability of municipal services including
roads, water supply, sewerage, electricity, drainage location of
institutions of healthcare, education and shopping areas etc.,
relevant to project profile, will be critical and valuable for good site
planning. Survey of site should be supplemented with getting soil
tested in laboratory, for assessing soil bearing capacity along with
ascertaining the water table, before taking a call on the design of
buildings. This will be critical for projects involving creation of multi-
level basements for meeting the parking needs and buildings with
large footprints, which fall in the category of high-rise buildings.
Physical survey and soil testing should be supplemented by visit of
the architect to the project site to have a realistic feel of site and its
46. setting and surroundings, besides understanding the context of the
site with its neighborhood communities and the city. Site needs to
be looked out both from different side, inside and outside and from
top and bottom. Critical and objective evaluation and appreciation
of the different facets of the site will help in planning of the site in a
realistic manner based on the prevailing ground realities. Carrying
out a detailed SWOT analysis will further help the designer to
understand the strength of the site, enumerate its weaknesses,
identify opportunities offered by the site and eliminate possible
threats, which need to be encountered. Locating and understanding
site, will always remain vital component of site planning process.
Thorough and objective site analysis remains most valuable and
potent mechanism/ critical for evolving cost-effective,
environmentally sustainable and rational design solution for any
project. Site analysis has been valued for evaluation of site in terms
of its existing potential, understanding environmental impact of
development, Impact on community, Impact on adjoining
development/properties, defining project design, defining scope of
project and understanding developmental constraints.
v Evaluating Building Controls &
Building Regulations Detailed study
and understanding of the provisions
made in the prevailing building bye-
laws, zoning regulations, architectural
controls, zonal plans, zoning plans,
development plans etc shall be vital for
evolving site plans which will stand the
testimony and scrutiny of legal framework for statutory approvals.
Accordingly, it will be desirable to know the applicable building
controls to the project site in terms of; permissible ground coverage,
maximum permissible height, prescribed floor area ratio, minimum
stipulated setbacks, area zoned as building envelop, area
47. permissible under basement, norms prescribed for
parking/population density/dwelling units, extent of projections
permitted , positioning of entry and exits, number of storeys
permitted, requirements of public health services, mobility
within/outside buildings, structural stability of buildings,
requirements of fire exit/disaster for the buildings, distance to be left
between buildings etc, so that site plan remains within the confines
of these statutory limits. These controls need to be followed and
clearly defined in the site plan so that building designs are also
prepared within the same framework. Limitations on height/
setbacks/coverage imposed by the location of the project close to
airport, location on highways, heritage areas, wetland, protected
monuments, defence installations and coastal areas, also need to
be clearly deciphered, defined and followed as part of site planning
process.
vi Studying Climates; Climate will
be one of the major determinants of
the shape, size and location of the
buildings in the site. Climate shall
invariably be studied in the three
distinct contexts in terms of; Micro,
Meso and Micro climates. In the
Macro context, site will be studied at
the zonal level for ascertaining
precisely in which climate zone site
falls. Based on climatic
considerations, India has been divided into five distinct climate
zones namely; Hot and Dry; Warm and Humid; Temperate;
Composite and Cold climate Zones. Depending upon the relevant
zone, site plan will need orientation to mitigate the adverse impact
and challenges posed by the prevailing climate of the zone. At the
second level, city climate shall be considered so that design
solutions could be made more realistic, based on general climatic
48. conditions prevailing at the settlement level. At the lowest level, site
climate will need detailed study and analysis ,which will be major
determinant of contours of site planning and building design .It will
include evaluating all the distinct feature prevailing on the site and
in its surroundings for evolving site- specific planning. Based on
climatic considerations, site planning shall address all issues related
to heat radiation and humidity, based on orientation, movement of
sun and prevailing wind direction.
vii Understanding Orientation;
Orientation is known for its role and
importance in influencing the
design solutions involving size,
form, shape , massing and location
of buildings /fenestration to take
maximum advantage of the daylight,
heat gain and views offered by the
site. The prime objective of
understanding and making
orientation, integral part of building
design is to achieve a solar efficient design as a response to the
prevailing climatic conditions at local/ regional level. Orientation is
the position/positioning of site/buildings with relation to points of
compass and other specific directions. Orientation is the most
critical factor which needs to be effectively leveraged in site
planning/building designs, in order to evolve rational site plan and
energy efficient/sustainable/green building designs, by making
optimum use of solar light/heat/radiation and the available wind
energy. However, requirements of building design would vary from
region to region, state to state, cities to cities and within regions,
states and cities. Accordingly, buildings with regard to sun , wind,
heating, ventilation, cooling and lighting will have to be oriented
differently and distinctly in different regions. In order to ensure that
buildings make best use of solar and wind energy, it would be
49. essential that majority of buildings would have the site advantage
of having best orientation where such buildings are to be
constructed. Accordingly, in this context, urban planners have
important role cast for themselves for ensuring, that while preparing
the layout plan of the area, highest consideration is given to
orientation, so that maximum number of plots have the distinct
advantage of best orientation. Once this is ensured at the planning
level, it would be much easier for the Architects to evolve a design
which would be energy efficient. Further, the planners should
ensure that ratio of plot width and depth is fixed in such a manner
that the entire depth of built-up area permitted on a plot should have
access to natural light during the day, minimizing the requirement of
artificial lighting. This would be particularly important in case of row
housing, where plots have the limitation of drawing light from front
and the rear only.
Understanding site orientation would essentially involve; looking at
the position of North, South, East and West with respect to project
site. Context of each cardinal direction needs to be understood and
appreciated with respect to these directions, both individually and
collectively. These cardinal directions have both positivity and
negativities besides strength and weaknesses, considering the
climate zone in which they are located. South- East remains best
orientation in composite climate whereas North orientation is
considered best for sourcing glare- free and uniform natural light,
without any heat gain. North direction provides good opportunity for
having large area under glazing and remain most suitable for
industrial buildings, because sun never rises and sets in the North.
If North remains the coolest side, South remains hottest in terms of
highest radiation. Sun also remains at highest altitude both in
summer and winter in the Southern side. However, elevation of sun
remains much higher during the summer as compared to winter.
Sun revolves around North during summer, as it rises in the North-
East and sets in the North- West. During winters, Sun revolves
around South, rising in the South- East and setting in the South-
50. West. Considering the movement of Sun, with sun not available in
the North, in Cold regions locating buildings on the North
direction/slopes needs to be invariably avoided due to obvious
reason of non-availability of sun. Buildings in hill areas should
preferably be located on the Southern slope, followed by East and
west sides in order to maximize the solar heat g provided by the
Sun. West direction has its inherent limitations and implications and
is known to be worst orientation in all hot climate regions due to
maximum heat and horizontal radiations falling in that direction and
accordingly exposure of the buildings in this direction needs to be
minimized and avoided to the extent possible. However, it will not
be possible to avoid western direction in the large projects having
setbacks on all sides or sites having exposure to western direction.
Accordingly, while preparing site planning, minimum building
surfaces should be given exposure in the west side to avoid heat
gain. In order to avoid the adverse impact of the heat on west side,
mechanism of providing properly designed shading devices could
be used as an option. Planting rows of deciduous trees for shading
the western walls or greening western walls through well-planted
creepers, will be other options available for reducing impact of heat
on such walls. Painting western walls with light colour paints or
adopting cavity walls for west can reduce the adverse impact of heat
on western side. Accordingly, it will be desirable that detailed study
and analysis of the site orientation must be made along with
studying and mapping the behavior and movement of Sun, during
different seasons of the year while preparing the site plan and
designing buildings. Good and bad sides of the site need to be
clearly identified and demarcated while preparing site plan/building
plans. All areas involving human habitation should be placed along
good orientation, whereas all areas providing worst orientation,
should be made to house non-habitable areas of the project in site
plans. Considering the entire context, orientation plays important
role in site planning and siting buildings. When combined with wind
direction and sun path, orientation helps in providing optimum
solution regarding how buildings should be oriented and sited.
51. Orientation along with sun path will always remains major
determinant site planning, positioning of the buildings and that of
placement of rooms inside buildings.
viii. Ascertaining Wind Direction; Prevailing wind direction will be
another major determinant for
evolving rational site plan. Wind
direction remains location and season
specific and accordingly varies during
the year. However, it will be
appropriate to consider and identify
the direction, in which for majority of
the time wind flows. For designing /
evolving climate responsive site
planning/building design, it will be important to consider and map
the direction of wind in which it flows for majority of the time in the
year and to channelized it through interiors of the buildings to
minimise the adverse impact of radiation and humidity on the human
living. This will be particularly important in the case of sites falling in
the warm and humid climatic zones, where cross- ventilation
emerges as the most important feature of the building design to
counter the adverse impact of high percentage of moistures present
in the air. However, in case of cold regions and hot climate regions,
cross ventilation has to be invariably avoided during the flow of the
cold winds in cold regions and that of hot winds in the hot and dry
regions, during the daytime.
ix Defining Setbacks and Building Envelop; Set-backs remain
the most important component of site planning and positioning of
buildings. Adequate set backs are always considered vital for
promoting sustainability and liveability of the project. Set- backs in
the shape of minimum distance to be provided, are generally
defined as part of the building rules and zoning plans, where no
52. construction is permitted. There is no limit prescribed for the
maximum width of the setback to be left within the site. While
designing and placing buildings in site, there remains considerable
flexibility for defining the set-backs, particularly in the projects
having large area. Accordingly, it will be desirable that due care and
caution is used while deciding the set-backs. Minimum set- backs
can be considered for sides having worst orientation whereas
maximum setbacks should be provided on sides having best
orientation. Maximum set-backs provided in the front side of the site
will also make value addition to site planning for reasons of safety,
security, sealing buildings from noise, privacy, developing green
spaces, avoiding demolition during widening/laying infrastructure.
Fire safety, air-light and ventilation in buildings are the other
determinants of the extent of set-backs to be provided in the site.
Identifying open spaces to be left within buildings, positioning of
existing flora- fauna and area to be used for landscaping, can also
be factors considered, while site planning for determining set-backs.
While dealing with irregular sites, it will be appropriate to respect
the roads facing the site. All buildings must be placed, planned and
designed, parallel to the streets on which they fall and site plans
should invariably be evolved on that principle. All irregularities in the
site, need to be adjusted as part of building design process.
Irregular set-backs should invariably be avoided in site planning
x. Defining Exit and Entry to the Site; Entries and exits and their
numbers, defined in the project are also known to impact the site
planning due to provision of accessibility to be made for the
mechanised/non-mechanised vehicles, pedestrians, public, private,
VIPs, loading/unloading of goods, parking etc. in the site.
Accordingly, entries/exits need to be carefully considered for
location of various buildings. In case of big sites/campus having
multiple exits, entries and parking, preparing rational site plan
requires lot of study and analysis.
53. xi Existing Flora and Fauna; Site
planning needs to invariably value the
prevailing physical conditions on the site
and also give credibility to the trees and
vegetable wealth existing on site.
Accordingly, all the trees and physical
encumbrances existing on the site,
along with their size, shape, foliage, age,
canopy , cover etc., must be duly
identified, mapped and marked
accurately on the site plans in order to prepare rational site plans.
Decisions needs to be taken right at the outset regarding existing
trees, whether they are to be adjusted as integral part of the building
design or integrated with landscaped area or made part of the space
marked for parking/ services. Such a strategy will help in not only
saving all trees existing on the site but will also help in designing
and positioning of the buildings, placing of open spaces and
services in the site planning.
xii Making provision for Rain Water Harvesting and Solar
Energy Generation; Rain water
harvesting must be made integral
part of site planning by earmarking
dedicated space in the plan for
harvesting the rain water and
meeting the demand of non-potable
water for the landscaping and other
needs of the buildings. In addition,
adequate provision should also be
made in the site plan for recharging
the ground water so as to add to the ground water resource of the
area. Site planning potential can be leveraged for promoting the
sustainability of the project if dedicated area is marked for
generating energy from renewable and natural resources. These
54. provisions shall be made based on prescribed norms and
standards. Adequate provision shall also be made in the site plan
for minimising the adverse impact of heat island by innovatively
designed pathways, walkways etc .Low lying area available in the
site should be considered for creating water bodies as part of site
planning to collect rain water and also for modulate prevailing
climate besides promoting greenery on a large scale
xiii. Valuing surrounding land
uses and buildings; For optimum
site planning and creating
sustainable design solution for
proposed project/buildings, it will be
relevant and desirable that prevailing
pattern of planning and that of
surrounding land uses and buildings
should be brought under close focus
and consideration. While taking decisions regarding planning and
designing of the project, incompatible land uses existing in close
vicinity to project site need to be avoided to the extent possible
considering its implications , adverse impact it may have on the
project and issues they may create in planning and designing.
Adjoining structures/development needs evaluation in terms of their
height, setbacks, building footprints, materials, typologies etc, which
will be important in the context of privacy, ensuring flow of air,
light, ventilation and sunlight , within and outside buildings,
Prominent Vision lines / Visual linkages, to natural and made
objects are invariably considered relevant and Important elements
in site planning and building design process. Views to site as well
views from the site need careful consideration, evaluation and
inclusion while preparing site plans and design of buildings.
55. Conclusion
Master Architect, Frank Lloyd Wright pioneered the idea that buildings
should be designed as extension of the environment and natural
landscape in the most unobstructed manner. and their three
dimensional forms should depend upon the properties of materials.
The approach not only gives an insight on the importance of designing
to suit the site and context ,but at the same time remains testimonial to
how an Architect can draw inspirations from the site to create unique
monumental structures. For any design to be holistic, it needs to be
responsive to its surroundings. This could also be the reason why
principles of vernacular architecture and critical regionalism are valid
and relevant even today as they underline the idea of creating
harmonious design with the geographical context of the building .From
above, it can be safely concluded that site must be considered as the
source or starting point of any design process.
Considering the broad parameters explained and factors defined
above, preparing rational site plans for any project should be
essentially based on the factors involving; adopting Integrated
approach to design; preserving sites ; adopting passive approach to
Architecture solutions; providing basic amenities; promoting proximity
to local transport; respecting natural topography; protecting existing
flora & fauna , promoting rain water harvesting, adding to the
environment, ecology etc. Adopting the defined principles, approach
and process, would be valuable and helpful for putting in place rational
site planning for the project and evolving sustainable building designs.
Site planning approach for both small, medium and large projects
shall be at variance, depending upon nature of project, location, client
perception, climate etc of the project but basic principles governing
site planning and building design will always remain same.
To conclude, site planning and building design should have genesis
in and should invariably revolve around;
56. • Site planning and designing state of art building should always have
genesis in careful site analysis.
• Before going for site planning / building design- ensure site is
properly/accurately surveyed, documented -- mapping everything
within/ outside the site which would be relevant for its
planning/designing.
• Site survey should include details of ; determining accurately
dimensions of outer boundaries, area of site, angles of all sides,
contours/levels at regular intervals- gradient, landform, elevation,
drainage pattern etc. ; existing trees/flora fauna- in terms of type,
size, location, shape, pattern, aesthetics, ecology; existing water
bodies ;electric lines; existing services- both underground /over-
ground/within /outside; approach roads- inside/outside along with
their dimensions; existing structures – within/outside of area of site;
views of the site- within /outside ; existing water table/ floodability,
low lying areas etc.;
• Testing Soil, for determining the soil load bearing capacity of soil
• Locating North in relation to site along with other cardinal
directions for quantifying the context of site planning, site
orientation and building design.
• Identifying Wind direction /pattern of wind flow;
• Defining Setbacks to be left within building as per bye-laws;
Defining- ‘No building Zone’- to be left within site, as per Master
Plan/National /State Highways, applicable legal framework etc.,
• Defining mandatory,’ No building zone’-- to be left , when located
near defense installations/ protected monuments/ zoo/ botanical
gardens/ electric installations;
• Defining-‘No Building Zone’ --to be left when site located near
water bodies/rivers etc ; Defining right of way for High Tension
Electric Lines when passing through site
• Obtaining Zoning Plan of the site , when site allotted by any
Development Authority/Urban Local Body/Improvement Trust/
Industrial Corporation etc. for guiding the site planning and building
design process.
57. • Carrying out site planning and building design simultaneously for
rational planning and designing with site planning dictating the
location of various project components and buildings to be housed
within the site.
• Segregating the vehicular and pedestrian traffic while planning
residential complexes , with focus on keeping vehicles on periphery
and making core as the pedestrian paradise.
• Evolving site plan based on making assessment of parking
requirement and deciding where parking is to be provided-
surface/stilts/ground- for making adequate provision of parking
space, within and outside buildings.
• For sites having large area, site Planning should be based on
carrying out detailed land suitability analysis and defining/zoning the
area of site in terms of; area to be preserved, area to be conserved
and area fit for development. Derelict areas remain vital for
development and accordingly needs to be addressed in site
planning. Site planning of large sites must be carried out initially by
drawing a master plan; in terms of area zoned for different uses
along with defining broad road network for accessibility.
• Requirement of adequate and appropriate lighting/ ventilation
remain the critical factors to dictate positioning of buildings. North
direction remaining best for sourcing glare free/uniform/cool light.
• Sites involving irregular shapes- should invariably involve planning
buildings with walls running parallel to abutting roads and residual
irregular spaces used for landscaping/ defining setbacks.
• In site -planning and building designing-- respecting site, respecting
nature, respecting existing topography and valuing existing water
bodies must remain the most important consideration.
• Site planning must be based on considerations guided by climatic
conditions prevailing at Regional/ Settlement/Site levels
• Valuing prevailing wind direction should be made integral part of
site planning and positioning of buildings in site
• Considering views from/to site to make optimum /best use of
views focusing on nature, avoiding views of slums /industry
58. /pollution etc. should form integral part of site planning and
positioning of buildings
As designers, architects have enormous capacity, capability, understanding
and ability to use all aspects of a site/project to further articulate the
concepts and typology of architecture to be produced. However, in
preparing for the design phase of a project, it will be crucial for all architects
to get familiarized with and have total understanding of the site and the
context in which architect has been engaged to design, using best of his
design abilities. Honestly , holistically mapping, understanding and defining
the material, physical conditions and history of a site, will invariably help
and empower architect to conceptualize an architectural project rationally
and realistically, besides making informed decisions throughout the design
and construction process.
Note; All images shown in the text are sourced and have genesis in the
Google Search, which are gratefully and thankfully acknowledged by
the author.
Reference
• Architecture Student Chronicles; Site Selection and Analysis/
Architectural Thesis; http://www.architecture-student.com/thesis-
project/site-selection-and-analysis-architectural-thesis/
• https://graarchitects.com/contact-us
• Site Selection Criteria and Search Strategies;
https://www.csh.org/wp-
content/uploads/2013/09/SiteSelectionandSearchStrategies_F.
pdf
• Vasquez Aida; Architecture Site Analysis ; Architect Guide;
March 27,2023
• Peter Landau ; Site Study and analysis; Jul 26, 2022
59. • Capital Impact Partners; Determine Criteria for Site Selection;
https://www.lisc.org/charter-schools/understanding-your-
needs/site-selection/determine-criteria-site-selection/
• U.S. General Services Administration, Public Buildings Service
Office of the Chief Architect The Site Selection Guide;;
https://www.gsa.gov/cdnstatic/GSA_Site_Selection_Guide_R2-
sY2-i_0Z5RDZ-i34K-pR.pdf
• Gupta J K; Site Planning for Architectural Projects ppt
• Wikipedia; Site Planning; en.wikipedia.org/wiki/site_ plan
• Archisoup; Architecture Site Analysis- An Introduction;
https://www.archisoup.com/architecture-site-analysis-
introduction
• First in Architecture; Architecture Site Analysis Guide;
https://www.firstinarchitecture.co.uk/architecture-site-analysis-
guide-2
• https://www.studiovistaar.com/post/relevance-of-site-and-
context-in-architecturehis
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