Mais conteúdo relacionado Semelhante a Tutorial: "SmartSantander: Punto de encuentro entre la investigación en la Internet del Futuro y la Smart City." (20) Mais de TELECOM I+D 2011 (20) Tutorial: "SmartSantander: Punto de encuentro entre la investigación en la Internet del Futuro y la Smart City."1. SMART SANTANDER
SmartSantander: Punto de encuentro entre la
investigación en la Internet del Futuro y la Smart City.
Dr. Luis Sanchez, Universidad de Cantabria
XXI Jornadas TELECOM I+D
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
Santander, 28 de Septiembre de 2011
2. Outline
• What, why and how?
• Technologies and services.
• Expected experimentation support and tools
• Objectives of the Open Call
• Conclusions.
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
3. What is SmartSantander about?
SmartSantander aims at providing a European experimental test
facility for the research and experimentation of architectures,
key enabling technologies, services and applications for the
Internet of Things (IoT) in the context of the smart city.
20,000 IoT devices
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
4. Why Smart‐Santander?
• Smart Santander was perceived from the very
beginning as a golden opportunity for lining up the
vectors of the value chain:
– Industry, in particular SMEs.
– Research centers.
– Other agents.
• SmartSantander is not only for researchers...
– Smart services for Santander city and citizens
– Traffic management in the city (outdoors parking areas,
traffic monitoring, control loading areas, ...) +
environmental impact
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
5. How is SmartSantander becoming a
reality?
• Phased roll‐out and deployment:
Time
Scale
Resources
Facility
services
Application
domains
Basis for 1st call experiments Basis for 2nd call experiments
Call publication: Sep ‘12
Experiments: Nov ‘12 – Jul ‘13
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
6. How is SmartSantander becoming a
reality?
• Physical platform requirements extracted from FIRE
research and Smart City service provision demands
– Support for experimentation
– Support for service provision
• Not re‐inventing the wheel
– Taking results from previous projects fitting
SmartSantander requirements
• Real‐world environment
– From the lab to the hostile outdoor scenario!!
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
7. Technologies and Services
• Phase 1 deployment
– 1500 installed on lamp posts
• 750 targeted to service provision (Temperature, Noise Levels, Light
Intensity, CO index)
• 750 targeted to experimentation
– 400 buried in the asphalt
• Vehicle detection
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
8. Technologies and Services
• Full‐meshed network architecture
– Topology controlled by experimenter possible
– Reprogrammable over‐the‐air
– 802.15.4 transceiver dedicated for experimentation
Load/Unload
Area
Streetlight Digimesh Link
Parking sensor: Sensor node
with one transceiver (Digimesh) 802.15.4 Link
Repeater: Sensor node with two WiFi/GPRS,
transceivers (Digimesh and 802.15.4) ethernet Link
SmartSantander
Gateway: Node with communication with Backbone
sensor networks (Digimesh and 802.15.4)
and communication with external networks
(WiFi, GPRS, ethernet)
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
9. Technologies and Services
From the lab to the hostile outdoor scenario!!
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
10. Technologies and Services
• Experimentation and service provision in parallel
• Integration of the Testbed Runtime (WISEBED), USN
(Telefonica) and Resource Directory (SENSEI) APIs in the
SmartSantander framework.
• Further developed to meet SmartSantander
requirements
– Full wireless environment
• OTAP
– New hardware devices
• Dual transceiver
– Glue between components
• Running over a real‐world deployment
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
11. Expected experimentation support
and tools
• Tools supporting of the entire experimentation cycle
– Open APIs with appropriate documentation
– Transparent and seamless
– Secure
Specification
– Resource selection – Reservation – Execution control
– Configuration specs – Scheduling – Event injection
– Provisioning of images – Deployment and – Monitoring
– Definition of KPIs, configuration – Data collection
debug & log info – Logging
Specification phase Setup phase Execution phase
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
12. Expected experimentation support
and tools
• Integration of baseline for SmartSantander
– Software modules coming from WISEBED, SENSEI and
Telco2.0
– Implementation and integration
• Functionalities exclusive of SmartSantander as derived in WP1
– Pure wireless testbed
– Designed for experiments, not for services
– Dynamic self‐configuration
– Monitoring and fault management
– Interfaces between available components
– Integration with new hardware devices
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
13. Open Call: Some facts
• SmartCity context supporting experimentation
1) Innovative applications and services for smart cities and built
environment
2) Internet of Things middleware solutions
3) Internet of Things communication protocols and technologies
• Real‐world environment
• Administrative details
– Call publication: 1st October 2011
– Call close: 16th November 2011
– Call budget: Up to 1.2 M€ (for both phases)
– Number of partners per experiments: 1‐2
– Max requested funding per experiment: 200K€
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
14. Call objectives
• Main goal:
– To expand the project’s service, protocol and technology
offering towards future IoT experimentation as well as the
public in the context of the Smart City.
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
15. Conclusions
• SmartCity for experimentation
– Wide possibilities for experimentation
• WSN management
• services and applications
• data and knowledge engineering
• protocols experimentation
– Open platform
• Open Calls are an intrinsic part of the project
– Proposals must foster project impact
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
16. SMART SANTANDER
SmartSantander: Punto de encuentro entre la
investigación en la Internet del Futuro y la Smart City.
Dr. Luis Sanchez, Universidad de Cantabria
XXI Jornadas TELECOM I+D
Copyright © SmartSantander Project FP7‐ICT‐2009‐5 257992. All Rights reserved.
Santander, 28 de Septiembre de 2011