José Antonio Galache University of Cantabria … · 2015-12-10 · massive IoT data •Generate an...
Transcript of José Antonio Galache University of Cantabria … · 2015-12-10 · massive IoT data •Generate an...
Path towards smart city
Smart city ecosystem: some lessons learned
The seed: SmartSantander
Exploiting the deployment
Conclusions
Outline
Source: Gartner, August 2015
Evolution towards Smart city and beyond
Big Data, Business
Intelligence, Machine Learning
Wireless Sensor
Networks (WSNs).
Machine to machine
communications(M2M).
FutureInternet (FI) and Internet
of Things(IoT).
Smart Citiesand Living
Labs
Starting point: What is a smart city?It is a complex ecosystem characterized by the intensive use of information and communication technologies (ICT), aiming at
making the cities more attractive, more sustainable and a unique place for innovation and entrepreneurship.
CITIZENS AND CIVIL SERVICES
Manteinance &
Sustainability
Impact: Stakeholders involved
Service providers
and
Application developers
Government
and
Public service providers
Research community Platform managers
Citizens
The smart city cycle
IoT and ICT technologies
Smart City platforms
Maintenanceand
Sustainability
Apps/contestsfor involving
citizens
Technical, social and
economic KPIs
SmartSantander IoT facility
Service Provision
On street Parking and ParkingGuidanceTraffic intensity MonitoringEnvironmental MonitoringIrrigation in Parks and gardensParticipatory SensingAugmented Reality….
Massive deployment of IoTdevices
Fixed nodes Mobile nodes
Citizens as sensorsCitizens Apps
Urban services
Experimentation
Native Experimentation (at Node Level)Service Experimentation
Tesbeds Federation
http://maps.smartsantander.eu/
SmartSantanderRA is an augmented reality App, including informationabout 2700 places: beaches, park and gardens, monuments, Points OfInterest, tourism offices, shops, art galleries, museums, libraries, cultureevents agenda, shops, public buses, taxis, bikes, parking places, etc.
QR codes and NFC tags deployment within the city to support the App andimprove the service.
Augmented Reality
3000 POIs divided in different categories
Eventssent by
thecitizens
Sensor measurements
from thesensors in the
mobile phones
Participatory Sensing
Exploiting the platform (R&D projects)
EAR-IT FP7 project
• Extending deployment with intelligent acoustic devices.
• Detection of unusual exceptions/situations, such as traffic, emergency, security.
ClouT EU-JP FP7 project
• Leveraging Cloud computing for improving management of massive IoT data
• Generate an intercontinental FT, including IoT resources from pilot cities and using cloud computing techniques.
Festival H2020 EU-JP project
• Homogeneous access to a federated testbed platform with an “Experimentation as a Service” model
• Smart Shopping adding new devices detecting presence of peopleand sending offers accordingly.
Demo center Hands on area for explaining and
involving users within the smart city environment
Compliance with deployed platform
E.g. Waste management call for tender
Smart city platformGathering and processing
retrieved information in a transversal way
Exploiting the platform (City involvement)
Smart cities, from sensor networks to Big data analytics
New data sources from IoT architectures, citizens and Social Networks
Powerful software platforms for gathering and processing cross-service data
Maintenance and sustainability of deployed platform
Citizens awareness/collaboration and civil services involvement
Definition of a common set of KPIs to evaluate provided services
Real examples, addressing different smart city related aspects: Environment
Traffic
Parking
Safety
Waste management
Shopping
Social participation and involvement
Conclusions
No silo public servicestransversal platform gathering, processing and providing data
to different public services