EnvyPorto: Difference between revisions
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| email = rcosta@ubiwhere.com | | email = rcosta@ubiwhere.com | ||
<!--[mailto:dcorreia@ubiwhere.com Diogo Correia]; [mailto:jmagen@interinnov.eu Jacques Magen]--> | <!--[mailto:dcorreia@ubiwhere.com Diogo Correia]; [mailto:jmagen@interinnov.eu Jacques Magen]--> | ||
| image = | | image = PortoPortugal.jpg | ||
| imagecaption = | | imagecaption = Porto Portugal | ||
| municipalities = Porto (Portugal) | | municipalities = Porto (Portugal) | ||
| status = Ready for Public Announcement | | status = Ready for Public Announcement |
Revision as of 05:02, November 11, 2021
EnvyPorto | |
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Porto Portugal | |
Team Organizations | Citibrain (Portugal) InterInnov (France) Technical University Madrid (Spain) |
Team Leaders | Rui A. Cota] |
Participating Municipalities | Porto (Portugal) |
Status | Ready for Public Announcement |
Document | None |
Description
Through small and low cost sensing stations that can be installed in the urban infrastructure, it is possible to create a dynamic high level map of indicators on air quality, noise pollution levels, temperature, atmospheric pressure, humidity and luminosity. Using this high level map in articulation with the data collected using a small number of certified sensing stations (usually high-cost stations), cities will be able to define dynamic urban policies, namely on mobility and energy.
Challenges
Smart Environmental Quality
Solutions
Major Requirements
- Assessment of specific requirements from the city involved
- Adaptation of the existing solution according to such needs
- Testing application pilot in a controlled real environment
- Refinement of application’s performance according to the feedback gathered
- Scale up the solution to a broader coverage
- Deployment of solution in city
Performance Targets
Key Performance Indicators (KPIs) | Measurement Methods |
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In order to assess the benefits for the city and its citizens, the Methodologies in use will consist of direct and indirect methodologies and studies of the quality of life of the citizens. These will be applied and developed by external agencies such as the Agency for Energy, who will work in collaboration with the municipality in this project. |
Standards, Replicability, Scalability, and Sustainability
- This project will leverage on FIWARE (https://www.fiware.org/), a public, royalty-free and open source platform that eases the development of Smart Applications in multiple vertical sectors. Besides being one of the reference platforms for GCTC 2016, FIWARE is contributing to the International Technical Working Group on IoT-Enabled Smart City Framework launched by NIST. FIWARE brings the NGSI standard API which represents a pivot point for Interoperability and Portability of smart city applications and services.
- Such FIWARE NGSI API is one of the pillars of the Open & Agile Smart Cities initiative (http://oascities.org/), a driven-by-implementation initiative that works to address the needs from the cities avoiding vendor lock-in, comparability to benchmark performance, and easy sharing of best practices. There are currently 89 cities from 19 countries in Europe, Latin America and Asia-Pacific who have officially joined this initiative, including the city of Porto.
Cybersecurity and Privacy
Impacts
- Strategic contribute for urban planning
- Decision support systems for civil protection
- Improved public image
- Platform to interact with citizens
Demonstration/Deployment
- Phase I Pilot/Demonstration:
Deployment of application pilot in a real environment, testing the performance with a set of early adopters
- Phase II Deployment:
Deployment of application in the city