Introduction to FI-STAR Future Internet Social and Technological Alignment Research. Anastasius Gavras Eurescom GmbH

Transcription

1 Introduction to FI-STAR Future Internet Social and Technological Alignment Research Anastasius Gavras Eurescom GmbH

2 Trends in Healthcare More and more patients will be treated or cared for outside hospitals, in their homes, GP practices, nursing homes, day surgeries, day clinics, day rehabilitation, and over the Internet Across OECD countries, health expenditure has grown by 4% annually over the past decade, compared with 1.6% for GDP growth 2

3 What is FI-STAR? FI-STAR is a FI-PPP Phase 2 early trial project in the healthcare domain Based on Future Internet technologies in the context of the FI-PPP Delivers a robust technology framework based on FI-WARE Generic Enablers (GEs) Specialised Core Platform Instance using GEs and incorporating Specific Enablers Introduces paradigm shift Software to Data

4 FI-STAR Objectives Implement the Future Internet Private-Public- Partnership in the healthcare domain Validate the FI-PPP Core Platform concept by using the Generic Enablers to build its framework Deliver standardised and certified software for a safe, secure and resilient platform guaranteeing the protection of sensitive and personal data Integrate the vertical community to create a sustainable ecosystem for all user groups in the global healthcare and adjacent markets 4

5 Early Trials FI-STAR executes seven early trials across Europe. Trials validate the FI-PPP core platform and introduce ultra-light interactive applications for user functionality. Osakidetza, in Bilbao, Spain Developing Interactive Future Internet based services for people with Mental Health problems. Improve access to care and apply Core Platform to other already existing services successively. Medichem, in Leeds, UK To implement the 2-D Pharmacy bar-coding, offering a real time reverse supply chain model to prevent error and counterfeiting and create interfaces to additional third part services. CUP 2000, in Bologna, Italy Developing healthcare networks to allow healthcare professionals to share data in realtime, allowing citizens to access healthcare data anytime, anywhere.

6 Early Trials Norwegian Centre for Integrated Care and Telemedicine in Tromsø, Norway To improve the existing telehealth network for Diabetes patients, aiming at the development of smart phone based multi-channeling, allowing for streaming of different data at the same time (sensor data and audio and video) John Paul II Hospital, in Krakow, Poland Designing interactive facilities for cancer patients, using life monitoring sensors, tablets, cameras, web based, treatment diary, mobile and video conferencing client. University of Medicine and Pharmacy Carol Davila in Bucharest, Romania Online Cardiology service for people with heart failure by testing software, applications and internet-monitoring. Improvement of physical training and also the improvement in secondary prevention programs. Klinikum Rechts der Isar, Technical University, in Munich, Germany Implementation of the virtualization of operating theatres to develop methodologies for minimal invasive operating theatre environments with real time data integration for monitoring, to reduce error rates.

7 Service categories 7

8 Architecture Overview 8

9 Relevant results from FI-STAR Design of Specific Enablers is based on Generic Enablers by appropriately enhancing their functionality Currently 14 GEs have been identified and are used The license under which the FI-STAR Specific Enablers will be released is depending on the license of the Generic Enablers used Additional Specific Enablers will be added as a result of the outcome of the FI-STAR open call The specifications of the FI-STAR specific enablers will be available by the end of March 2014 via the main FI- STAR website 9

10 Support for use of results Starting from July 2014, FI-STAR plans to support the FI-PPP phase 3 projects by providing Training on how to deploy and use the FI-STAR platform A cookbook to instruct on the deployment and use of the FI-STAR platform Conditional access to the reference FI-STAR platform deployment for development and evaluation Defined service offering for the use of the FI-STAR platform beyond the project lifetime 10

11 Contacts FI-STAR project coordinator Anastasius Gavras, Eurescom GmbH FI-STAR technical director Stefan Covaci, Technische Universität Berlin FI-STAR medical director Christoph Thuemmler, Edinburgh Napier University Project website: Project blog: YouTube channel: contact: This project has received funding from the European Union s Seventh Framework Programme for research, technological development and demonstration under grant agreement no