1. CURRICULUM VITAE
PERSONAL INFORMATION
• Name Martin Horvath
• Adresse Gaisbergweg 6
5081 Anif, Österreich
• Mobil +43 664 7500 4652
• E-mail martin.horvath@primebird.com
• Nationality Austria
• Date of birth 30.01.1984
WORK EXPERIENCE
• Dates May 2011 – ongoing
• Occupation/Position held Consultant/Developer/Associate
• Company PRIMEBIRD
• Field of activity Design, Marketing, Management
• Acquired skills Corporate Identity Design, Project management, Requirements Analysis
• Dates February 2009 – May 2011
• Occupation/Position held GIS Consultant/Developer
• Company Self-employed
• Field of activity Development, Consulting
• Acquired skills Project management, Quality control, Technical documentation
• Dates June 2008 - ongoing
• Occupation/Position held Brand coach
• Company Adidas/CIP
• Field of activity Customer- & Resseller-Trainings, Events, Sale supports
• Acquired skills Event management, Customer care, Sales
• Dates July 2004
• Occupation/Position held Management assistant/Press officer/Statistician
• Company PSV Volleyballgemeinschaft Salzburg
• Field of activity Statistics, Public relations, Management, Marketing
• Acquired skills Acquisition of sponsors & partners, Press publications
2. • Dates July 2008 - August 2008
• Occupation/Position held Network technician & Innovation-assistent
• Company Saia-Burgess Austria GmbH (Trainee)
• Field of activity Computer networks, Spatial databases, web-services
• Acquired skills Project management, Implementating in existing system architectures
• Dates January 2008 - March 2008
• Occupation/Position held Assistant developer
• Company Geodan Salzburg GmbH (Trainee)
• Field of activity Spatial databases, web-services
• Acquired skills Interface-development, real-time- and location based services
• Dates February 2007 – July 2008
• Occupation/Position held Tutor: GIS, Remote sensing & Image processing
• Company University of Salzburg
• Field of activity Course-organization and -design, Help desk
• Acquired skills Presenting learning content, Student support
• Dates January 2004 – February 2007
• Occupation/Position held Technical adviser
• Company Mountain Rescue Austria
• Field of activity Webmaster, Members insurance process, Administration
• Acquired skills Nationwide collaboration, Event management
3. EDUCATION & TRAINING
• Date January 2011 – April 2011
• Institution Next Level Consulting
• Principal subject IPMA Certification
• Title of qualification awarded Certified IPMA Level D project manager
• Date September 2007 – November 2008
• Institution University of Salzburg, Scientific faculty
• Principal subject Applied geoinformatics
• Title of qualification awarded Master of Science (MSc)
• Date September 2002 – October 2007
• Institution University of Salzburg, Scientific faculty
• Principal subject Geography
• Title of qualification awarded Bakk. rer. nat.
PERSONAL SKILLS
& COMPETENCES
• Languages German (native), English (excellent), French (B1)
• Driving license A, B
• Hobbies Sports, Outdoor-Activities/Adventures, Traveling, Computer
SOFT SKILLS
• Analytical thinking
• Stressable
• Ambitious
• Sociable
• Creative
• Learning receptivity
• Rhetoric
• Self-critical
• Team-player
• Tolerant
• Responsible-minded
• Reliable
• Focussed
• Additional information I've been active in a wide variety of business segments and was able to
experience the importance of teamwork and internal communication. Soft
skills were also part of my university degree with courses in mediation,
project management and presentation techniques.
4. HARD SKILLS
• Computer skills
• Marketing
• Project management
• Leadership abilities
COMPUTER SKILLS
• Additional details The following illustration represents an excerpt of my detailled computer
skills.
1 10
• Adobe Illustrator/Inkscape
• Adobe Photoshop/Gimp
• ActiveDirectory, LDAP
• Android Development
• Apache, MS IIS, Tomcat
• ArcGIS, Grass, Quantum GIS
• ASP.NET, ASP.NET MVC, PHP
• C#, Java EE/ME
• Cloud Development (Azure)
• CMS Systems
• HTML 4/5, CSS, JavaScript
• Definiens professional
• Erdas Imagine
• ER-Modelling, UML,...
• Geoserver
• GIS
• Google Maps, Bing Maps,...
• GSM Gateways (Kannel)
• Linux
• MySQL, PostgreSQL, SQL Server
• ODBC
• Oracle, Oracle Application Server
• OpenLayers, OpenStreetmap
• SQL, PL/SQL
• Java- & .NET Frameworks
• VisualStudio, Eclipse, Netbeans
• WIF, WCF, WS-Federation
• Windows (7, 2008 Server,...)
5. RECENT PROJECT
• Date September 2010 – March 2011
• Topic Cloud Tracking Solution in Windows Azure
• Type Project
• Keywords Windows Azure, Tracking, Mobile devices, Cloud Computing
• Abstract IT solutions often reach a critical performance limit due to limited
resources in productive environments. By adding the complexity of spatial
data processing and -storage, this critical point is lowered again! This
particular project, the development of a tracking application for mobile
devices, was therefore based on a cloud computing environment and the
cloud-benefits (reliability, scalability) were implemented effectively!
The result is a multifunctional, scalable tracking solution which runs on all
major smartphones and can be adapted to special customer needs. The
basic version supports Symbian-, Android- and JavaME-supporting
devices with external or internal GPS receiver. The required minimum
location information are visualized in an ASP.NET web-application.
6. • Date Mai 2009 – September 2009
• Topic OpenSource web-mapping solution
• Type Project
• Keywords OpenSource, web-mapping, OGC Standards, Spatial database
• Abstract Depending on the scope and the target group of an application or service,
visualization of data is a more or less important requirement. In this
project, sensor data with location information had to be represented in a
PostgreSQL database and visualized through a JSP web application.
Beside the measured values at each location, the network of sensors and
it's visualization was an important criteria.
OpenLayers was used to merge the different data-sources like the sensor
data, geonames and OpenStreetMap background map data. To guarantee
the interoperability of the application, it was designed to support OGC
WMS and WFS services. The implementation of a GeoServer ensured the
usability of the sensor data in third-party (OGC WMS supporting)
applications.
To round up user experience, an AJAX function was developed to query
gazetteer information from matching services and visualize city names,
elevation etc. on the map.
7. • Date November 2007 – September 2008
• Topic Representation of 3D-Gebäudemodellen in spatial databases
• Type Master-thesis
• Keywords Oracle spatial, Java, User Interface Design, Building modelling
• Abstract Nowadays, we know about great 3d-modellers, geoinformatic scientists,
architects, etc. but they all face problems and build solutions from their
point of view: While the 3d-modeller is able to build visual models, and
doesn’t care about projections and coordinate systems, the
geoinformatic scientist is in most cases not able to build these advanced
visual models. Geography, and of course Geoinformatics, are located at
the border to many other disciplines like computer science, architecture,
geology,... Not at least because of this, one approach is to bring them
together to achieve better results and develop more efficient solutions
for certain problems. Filling this gap between geography, architecture
and computer science brings up a wide range of new possibilities to use
this data: Building energy analysis can be done on the web, models of
buildings for google earth can be created automatically, indoor routing
services for big buildings can be set up within a few minutes and much
more.
This master thesis concerned itself with ways to make three dimensional
building models interoperable. To achieve this goal, a solution was
developed to convert and store these models in databases. One
challenge was the data extraction from 3D-models (e.g. dxf) and the
other challenge was to build a sample solution to show up the great
potential of such a data model. In this case, a visualization of the
sample data in virtual globe, using a custom java tool as well as the
spatial operators which are implemented in the spatial databases, was
realized. Further the thesis covered the methodology of systems,
modeling and spatial databases. The work flow to achieve the
mentioned goals was illustrated with an example building. At the end,
the sample building was stored as a set of three dimensional
geometries in a spatial database and the data was visualized in a virtual
globe.