BigClouT
BigClouT | |
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Global City Teams Challenge Action Cluster | |
Team Organizations | CEA (France) Engineering SpA (Italy) Institute of Communication and Computer Systems (Greece) Lancaster Univ. (UK) Absiskey (France) NTT East Corporation NTT R&D Keio University National Institute of Informatics (NII) University of Tsukuba YRP-IOT |
Team Leaders | Levent Gürgen |
Participating Municipalities | Grenoble France Fujisawa Japan Bristol UK Tsukuba Japan |
Status | Launched |
Document | None |
Description
BigClouT project aims at giving an analytic capability to cities exploiting available big data from sources such as IoT devices, open data, social networks, mobile applications, etc. and use them to improve the daily life of cities, their citizens and visitors. The target applications are:
- Measuring the economic impact of large events organized in the city to the local economy, providing customized recommendations to the visitors (shopping, restaurants, sightseeing, etc.)
- Improving the mobility of the citizens and visitors during important events such as big congresses, festivals, Olympic Games, etc.
- Deployments and replications in 4 pilot cities in Europe and in Japan
Challenges
How to collect and redistribute the heterogeneous big city dataHow to process big data in city scale, and to ensure to take efficient decisions with desirable effects How to guarantee the privacy of the citizens and visitors
Solutions
The project will build a big data platform that will gather various data from the city (IoT data, mobile applications, social networks, etc.) and analyse it for prediction and decision making for better managing the city resources. The solutions will include the handling of personal data collection of international visitors according data regulation in and in Japan.
Major Requirements
BigClouT project is bringing together resources and knowledge necessary from prestigious European and Japanese institutions and will follow 5 main steps:
- Use case definition, co-creation workshops with stakeholders
- Development and integration of the BigClouT platform and applications
- Field testing and performance evaluation in 4 pilot cities Europe / Japan
- Opening BigClouT platform to third parties such as application developers, services providers, integrators, etc.
- Exploitation plans and business models validation
Performance Targets
Key Performance Indicators (KPIs) | Measurement Methods |
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Standards, Replicability, Scalability, and Sustainability
- BigClouT will leverage the results of the EU-Japan ClouT project (http://clout-project.eu) which has developed an interoperable smart city platform providing support for various IoT and Cloud standards (Zigbee, LORA, CDMI, MQTT, XMPP, etc.) BigClouT results will still continue to be promoted in OSGi alliance (IoT group) and AIOTI alliance in Europe (Alliance for the Internet of Things Innovation).
- During the project the field trials will be replicated in different cities from Europe and Japan facing common needs and by using the same BigClouT platform. Scalability is already demonstrated within the ClouT platform leveraging Cloud computing advantages.
Cybersecurity and Privacy
TBD
Impacts
- Optimizing the investment of cities in hosting big international congresses (> 5000 participants) or sport events (Tokyo Paralympics 2020) while boosting the local economic sectors: transport, shops, hotels, restaurants, etc.
- Replicability of field trials deployed in pilot Cities in Europe to Japan and vice-versa
- BigClouT platform and tools will be provided towards a community of developers (e.g., SMEs/starupts) both in Europe and in Japan.
Demonstration/Deployment
- Phase I Pilot/Demonstration June 2017:
- Use case scenarios definition completed on November 2016# First technical integration completed on April 2017
- First demonstration started on June 2017
- Phase II Deployment June 2018:
- Evaluation of first integration results July 2017
- Selection of deployment use cases on September 2017
- Engagement of city stakeholders for trials on December 2017
- 2nd iteration of integration finalized on March 2018
- Deployments and trial execution started on April 2018
- First evaluation of results on June 2018