Core-platform and Generic Enablers Pascal Bisson (Thales) Henk Heijnen (Technicolor), Thierry Nagellen (Orange)
Connection is key Infrastructure City Management Citizen life Information Publishers The Exchange Realtime Data Aggregation Plug&Play Architecture Analysis Data Packaging Information Seekers 2
Our objective. Set the base of an reliable internet Software that works related to different service areas An open architecture not lockedin to specific vendors for the creation and delivery of services
Our (real) objective: going beyond the next phase Software that works related to different service areas An open architecture not locked-into specific vendors for the creation and delivery of services
The internet will not be built (just) by us Suppliers Manufacturers Wholesalers Retailers Consumers Governments
A technological foundation The FI Core Platform comprises a set of technological Generic Enablers which are considered general purpose and common to almost any usage areas Generic Enablers will provide open interfaces: To Application Developers (APIs) To support interoperability with other GEs Usage area projects under the PPP 6 Cloud Hosting App/Service Delivery Support Services Interface to IoT Interface to Network Security, Trust Dev Tools
With a modular design Each Architecture Chapter in FI- WARE will lead to definition of a set of GEs GE specifications are open (public and royalty-free) There might be multiple compliant implementations 7
Functionality Trust and Security Operations FI Core Platform Architecture: The elements Service delivery Cloud Hosting Internet of Things Context/data Mangement Developer tools Interface to the Network and devices
Network Edge/cloud proxy mgt. Cloud Objective: Handle the provision of computation, networks and software resources Cloud hosting PaaS Enablement Advanced management Basic management Virtualization Pay only for what you need
The Cloud Edge / Cloud Proxy [1] Example: In a home environment Services in the Cloud PCs Cloud proxy TV sets / STBs Tablets Game Consoles Home Automation
The Cloud Edge / Cloud Proxy [2] Major features: Organize access to end-devices Bandwidth management Security / Privacy Continuity of service
Some examples Services in the Cloud High level application Cloud proxy AirCo Mgmt Mini local application Data link (xdsl ) Remote control Home automation: Local intelligence in the cloud proxy keeps the regulation active even if the data link falls down Cloud based application lots of features, remote access, link with other apps
Internal architecture
Internet of things Objective: Interaction with things, searchable and accessible IoT process automation IoT resource management IoT Data handling IoT Communications Internet is not just computers
Context data management Objective: Transform the data into information Data and context management Context management High level intelligent Services Event management Analysis infrastructure Data Storage and core services Turn the data into information
Use the network Objective: Open and standardized interfaces to network and devices I2ND Interface Context to connected management devices Interface to Network services Interface to open networking entities Data Interface Storage to and Cloud core proxies services
Security Objective: Develop a security ecosystem, comprising core and generic enablers Security privacy and trust Context based and compliance Optional security services Generic Security Enablers As safe as you need. Data Storage Security and monitoring core services
Open to others Objective: Provision, Composition and delivery of services Application and service ecosystem and delivery framework Multi channel multi service access Composition and mash-up Business Framework Invent the marketplace Registry and repository
Those elements can be replicated according to your needs
Fiware: A sound and trustworthy design Standardized A portable solution Made of independent but interdependent modules Open All APIs and a great number of elements will be open Software Future Supported by major vendors and Telco providers
The iceberg effect: Innovation requires much more effort than research. Telefónica Global investment
Averting the danger The open calls Bringing-in (even) more talent The innovation lab Letting others contribute Preparing for the following phase Building a sound infrastructure Do not rely on your forces only. Go beyond the PPP
Bringing in more talent! First call 5 proposals on the topic of BM&BE 12 proposals on the topic of middleware
The FI-WARE Testbed The FI-WARE Testbed is a key element. a case example of a FI-WARE Instance It will allow Use Case projects and third parties to test Future Applications based on FI-WARE GEs FI-WARE partners will provide support to UC projects in deploying their conceptual prototypes The FI-WARE Building new Project GEs Base Platform for Educational Future sessions 24
The FI-WARE Testbed Use Case Project Home IoT Gateway FIRE Experimental Facility 4 ID provider FI-WARE Cloud Proxy GE FIRE Experimental Facility 2 (Network) Localization Platform FIRE Experimental Facility 1 FIRE Experimental Facility 3 (Sensors)
FI-WARE Open Innovation Lab Open Innovation Lab by combining The FI-WARE Testbed The FI-WARE Development Support Infrastructure (forge + community tools) It is intended that this Open Innovation Lab be available to third parties (specially SMEs) after the second year But even more in the third call Seville example 26
Beyond PPP. Creating an ecosystem Major Stake holder Test bed 3 Location C Major Stake holder 2 Test bed 3 Location C Test bed Test bed Test bed Test bed Different experiments Test bed 1 Test bed 1 Test bed 1 Test bed 2 Location A Test bed 2 Location B Test bed 2 Location A Location B Major Stake holder 3 Test bed 3 Location C Test bed 1 Other funding sources: CIP FIRE National funds Test bed 2 Location A Location B
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