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7/28/2019 Presentations D OSS
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Pervasive Computing inResearch
A European Perspective
Dr. A. Komninos
Glasgow Caledonian University
Mobile & Ubiquitous Computing Research Group
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The FP7 programme
Europes research strategy for 2007-12
FP7 > ICT > Challenges
Challenge 1 - Pervasive and Trusted Network and Service Infrastructures
Challenge 2 - Cognitive Systems and Robotics
Challenge 3 - Alternative Paths to Components and Systems
Challenge 4 - Technologies for Digital Content and Languages
Challenge 5 - ICT for Health, Ageing Well, Inclusion and Governance
Challenge 6 - ICT for low carbon economy
Challenge 7 - ICT for the Enterprise and Manufacturing
Challenge 8 - ICT for Learning and Access to Cultural Resources
http://cordis.europa.eu/fp7/ict/programme/challenge1_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge1_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge2_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge2_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge3_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge3_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge4_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge4_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge5_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge5_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge6_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge6_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge7_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge7_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge8_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge8_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge8_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge7_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge6_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge5_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge4_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge3_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge2_en.htmlhttp://cordis.europa.eu/fp7/ict/programme/challenge1_en.html7/28/2019 Presentations D OSS
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C1 - Pervasive & Trusted network &
service infrastructures
The challenge is to comprehensively and consistently address
the multiple facets of a Future Internet, with energy efficiency
also appearing as an important societal concern.
New Architectures
Trustworthiness
RFID & the Internet of things
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Internet of things
Original funding towards the development of RFID & e-business (FP5/6)
Paradigm reshift towards the Internet of Things:
First definition (90s): discovering information about a tagged object bybrowsing an Internet address or database entry that corresponds to a
particular RFID.
Today, the Internet of Things refers to the general idea of things,
including everyday objects, which are readable, recognisable, locatable,addressable and/or controllable via the Internet.
Communications in the Internet of Things can be 'thing-to-person'
communications or 'thing-to-thing' communications.
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C2 - Cognitive systems &
robotics
In the real world, ICT systems should be able to respond
intelligently to gaps in their knowledge and to
situations that have not been specified in their design.
We therefore want robots(?) to understand their
environments and their users while operating either fully
autonomously or in cooperation with people in complex,
dynamic spatial environments.
We want artificial systems to allow for rich interactions
using all senses and for communication in natural
language and using gestures. They should be able to
adapt autonomously to environmental constraints and to user
needs, intentions and emotions.
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C3 - alternative paths to
components & systems The deep miniaturisation, energy efficiency, performance
increase and manufacturability of nano-electronic devices
The integration of new functionalities for the next generation
of application-specific components and smart systems throughthe convergence of microelectronics, nano-materials,
biochemistry, measurement technology and ICT.
The design, modelling and operation of systems composed of a
large number ofindependent, heterogeneous andinteracting embedded systems as well as their
monitoring and control; and the management of
interconnected large, yet autonomous systems ("Systems of
Systems").
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C3 - alternative paths to
components & systems The parallelisation and programmability methods to allow the
adaptation of existing software to multicore computingarchitectures and systems, from embedded devices to general-purpose and to high performance computing.
The further development of core and disruptive photonictechnologies (lasers, waveguides, photodetectors, amplifiers,LEDs, optical fibres, etc), fundamental in strategic applicationssuch as medicine, biology, communications, lighting, sensing andmeasurement, and manufacturing.
The development of advanced, low temperature processing, andpotentially printable devices and systems on large areaand/or flexible substrates, such as light emitting and sensingdevices, photovoltaics, displays, printed electronics for smarttags, or wearable smart textiles.
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C4 - digital libraries & content
New digital library services allowing content and knowledge to be produced,stored, managed, personalised, transmitted, preserved and used reliably,efficiently and at low cost;
Digital preservation services addressing the needs of memory institutions andmore generally of businesses, public bodies, government services who have
responsibilities for keeping digital records accessible.
New management and production tools making digital resources easier andmore cost- effective to create and reuse;
More creative approaches to content and knowledge, enablingcreators to design more participative and communicative media and increase
the productivity of publishers;
Enabling the mass-individualization of learning experiences, throughsystems allowing faster acquisition of competences and skills, increasedknowledge worker productivity, and more efficient organisational learningprocesses.
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c5 - ict for health, ageing well,
inclusion and governance Personal Health Systems research aims for disease management
and also targets rehabilitation and treatment at the point of need
with a focus on specific diseases.
Virtual Physiological Human research focused on more elaborate and
reusable multi-scale models and a VPH information infrastructure oflarger repositories. Preparatory actions will aim at a grand challenge
on a "Digital Patient", being the integration of patient-specific models
for better prediction and treatment of diseases.
Patient Guidance Services to enable patients' activeparticipation in care processes. A special emphasis will be given to
semantic interoperability to enable integration of patient information
from multiple sources and locations and to ubiquitous and secure
access to these personal health records.
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c5 - ict for health, ageing well,
inclusion and governance Research on ICT for Ageing Well, focused on developing
service and social robotics and highly intelligentenvironments in support of the ageing population. This iscomplementary to the AAL programme
Research on ICT for smart and personalised inclusionaddressing advanced solutions to improve social and economicinclusion by means ofinclusive design, accessible,personalisable and human-ICT interfaces, social computingand advanced solutions for learning and skills acquisition, as well asBrain-Neural Computer Interfaces.
Research into ICT solutions for governance and policy modellingaddressing ICT tools for trusted governance and policy impactanalysis. This research should help deal with future scenariosinvolving even greater complexity and citizens involvement, inparticular addressing the needs of the younger generation.
http://www.aal-europe.eu/http://www.aal-europe.eu/7/28/2019 Presentations D OSS
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c6 - ict for low carbon economy
ICT for sustainable growth
Energy Efficiency of the ICT Sector,
Energy Efficient Buildings,
Smart Cities (e.g. Smart Neighbourhoods),
Smart Electricity Grids and Smart Metering,
Climate Change Management,
Water Management.
http://ec.europa.eu/information_society/activities/sustainable_growth/ict_sector/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/ict_sector/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/buildings/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/buildings/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/cities/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/cities/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/grids/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/grids/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/climate/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/climate/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/water/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/water/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/water/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/climate/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/grids/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/cities/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/buildings/index_en.htmhttp://ec.europa.eu/information_society/activities/sustainable_growth/ict_sector/index_en.htm7/28/2019 Presentations D OSS
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c6 - ict for low carbon economy
ICT for sustainable transport and mobility
Sustainable Road Transport;
systems for vehicles, transport services, and logistics services, the useof electric and hybrid vehicles.
Sustainable Urban Mobility;
data collection and analysis of the state of the transportation network;integrated transportation networks; and urban mobility of goods
Road Transport Safety;
ICT and the Decarbonisation of Transport;
to integrate electric vehicles fully into the urban mobility system,integration with other modes, demand management, andcharging.
Deployment and Horizontal Issues.
Vehicle to Vehicle
& Vehicle to
Infrastructure
communicationUbiquitous access
and End-User
Interfaces
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C7 - ICT for the enterprise &
manufacturing 'Smart factories' including application experiments ofcontrol
and sensor-based systems, laser systems and industrial
robots
'Manufacturing solutions for new ICT products' addressing
manufacturing processes for Organic Large Area Electronics
(OLAEs) and organic photonics
'Virtual factories and enterprises' addressing end-to-end
integrated ICT allowing for innovation and higher management
efficiency in networked operations and supporting the
emergence of 'smarter' virtual factories and enterprises
'Digital manufacturing' including product life cycle management,
modelling, design and optimisation
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c8 -ICT for Learning and Access to
Cultural Resources
Digital Preservation & Access to Cultural Heritage
More reliable and secure preservation technologies and methods
Technologies and systems for intelligent management of preservation
Interdisciplinary research networks
Promotion schemes for the uptake of digital preservation research outcomes
Technologies for creating personalised and engaging digital culturalexperiences
Open and extendable platforms for building services that support use of cultural resources
for research and education
Improved and affordable technologies for the digitisation of specialised forms of culturalresources, including tools for virtual reconstructions
Awareness raising of research results
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c8 -ICT for Learning and Access to
Cultural Resources
Technology enhanced learning
Technology-enhanced Learning systems endowed with the capabilities of humantutors
Educational technologies for science, technology and maths
Advanced solutions for fast and flexible deployment of learning opportunities at theworkplace (targeting, in particular, SMEs)
Computational tools fostering creativity in learning processes
Exploratory activities, demonstrations and showcases
Affective and emotional approaches
Revolutionary learning appliances
Responsive environments for technology-enhanced learning
Adaptive and intuitive learning systems
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Summary
Ubiquitous systems & Ambient Intelligence are a themewhich is seen as fundamental to Europes researchstrategy.
Key directions are towards
sensing, capturing and storing (managing) data (network& system architectures)
inferring knowledge from captured data (AmI)
making knowledge available to end-users at differentabstraction levels (raw, meta) (Pervasive Information
Access & HCI)
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Some Sample projects
SAFERIDER
CHRONIOUS
SmartHouse/SmartGrid
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Saferider
The adaptation and implementation of appropriate
ADVANCED DRIVER ASSISTANCE SYSTEMS (ADAS) and IN-
VEHICLE INFORMATION SYSTEMS (IVIS) technologies in
motorcycles, to contribute to the significant enhancement of
riders' safety. ARAS (Advanced RIDER Assistance Systems)
OBIS (On-Bike Information Systems)
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ARAS & OBIS
ARAS
Speed alert functionality
Curve warning
Frontal collision warning
Intersection support
Lane change support
OBIS
eCall
Telediagnostics module
Navigation & Route Guidance
Weather, traffic & black spot warnings
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Saferider - ended 31/12/2010
AvMap Italy
Federal Highway Research Institute Germany
Hellenic Institute of Transport Greece
Centro para la Inverstigacion y Desarrollo en
Transporte y Energia Spain
CONNCEPT SWISS Switzerland
Europe Recherche Transport France
FEMA Belgium
Fraunhofer Institut fr Arbeitswirtschaft und
Organisation Germany
Ibeo Automobile Sensor GmbH Germany
French National Institute for Transport and
Safety Research France
Meta System S.p.a. Italy
MIRA Ltd United Kingdom
NZI Helmets Spain
PERCRO Italy
PIAGGIO Italy Porsche Engineering
Germany
Universita degli Studi di
Firenze Italy
University of Modena and
Reggio Emilia Italy University of Padova Italy
University of Trento Italy
YAMAHA Motor Europe
Netherlands
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CHRONIOUS
CHRONIOUS proposes an adaptive and ubiquitous chronic disease management
system that offers continuous monitoring to patients by using several sensors either in
a form of a wearable solution or scattered in the patients living environment and a
series of intelligent services to healthcare providers and organisations that aid them
in the monitoring of their patients.
Constant monitoring of activity using audio observation methods, activity sensors and
vital signs sensors.
Detects any trait of abnormal health status and possible alerting incidents and
generates alerts in case of invalid medical data or abnormal current activity and
behaviour.
An overarching goal of the proposed system is to underline and emphasize the
partnership between technology-centered and human-centered sciences as
technologies for sensing, computing and communications become increasingly
ubiquitous.
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CHRONIOUS core OBJECTIVES
Wearable solution for monitoring not only vital parameter but also environmental
parameters and social context parameters.
Simple, customised and adaptive interfaces that take into account the users profile,
medical history and relating HCI (human-computer interaction) factors. Interfaces for
patients & medical staff.
Implementation of new algorithms and methods to perform perceptual and
evaluation of the subject using information from multiple sensors. Multi-fusion from
heterogeneous sources decision support system.
Appropriate, certified medical content and personalised views on it exploiting
intelligent agent techniques coupled with flexible search and retrieval of information.
Interoperability with existing healthcare legacy systems based on standards such as
HL7 etc. Alert and reminding mechanisms to inform end-users of several events.
A secure platform, taking into account privacy and ethical issues
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chronious - end date
31/1/2012
TESAN S.p.A. Italy
Azienda Ospedaliero-Universitaria Careggi
Italy
Universitat de Barcelona Spain
Universitat Bremen TZI Germany
Link Consulting, Tecnologias; Sistemas de
Informacao, S.A. Portugal
LOGICOM SOLUTION Cyprus
Uniscan Instruments Limited United Kingdom
Fraunhofer-Gesellschaft zur Faerderung der
angewandten Forschung e.V. Germany
CURE Center for Usability Research &
Engineering Austria
Solianis Monitoring AG Switzerland
MICRODATA ADVANCED
TECHNOLOGY SA Greece MIP
Consorzio per l'innovazione e laGestione delle Imprese e della
Pubblica Amministrazione Italy
IXTENT s.r.o. Czech Republic
Foundation for Research and
Technology Greece Center for
Research & Technology
Thessaly GreeceConsiglio
Nazionale delle Ricerche
Dipartimento Tecnologie della
Informazione e delle Comunicazioni
(ICT) ItalyVelti Anonymi Etaireia
Proionton Logismikou &
Ypiresion Greece
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Smarthouse/smartgrid
It develops intelligent networked ICT technology for
collaborative technical-commercial aggregations of Smart
Houses, able to communicate, interact and negotiate with
both customers and energy devices in the local energy grid so
as to achieve maximum overall energy efficiency as a whole. The main idea is to allow flexible pricing for businesses, saving
opportunities for homes (run more services when tariffs are
low), optimal load balance, fault tolerance and graceful
degradation under critical conditions
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smarthouse/smartgrid
(SWF presentation)
http://localhost/Users/ako2/Desktop/SHSG_Animation.swfhttp://localhost/Users/ako2/Desktop/SHSG_Animation.swfhttp://localhost/Users/ako2/Desktop/SHSG_Animation.swf7/28/2019 Presentations D OSS
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smarthouse/smartgrid
SAP AG, Research Center Karlsruhe Germany
IWES - Fraunhofer Institute for Wind Energy and Energy System
Technology Germany
MVV Energie AG Germany
ECN - Energy Research Centre of the Netherlands Holland
ICCS - Institute of Communication and Computer
Systems (University of Athens) Greece
PPC - Public Power Corporation S.A. () Greece
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Fp7
The FP7 ICT Programme
http://cordis.europa.eu/fp7/ict/
Funded EU Projects under FP programmes
http://cordis.europa.eu/search/index.cfm?fuseaction=proj.advSear
ch
http://cordis.europa.eu/fp7/ict/http://cordis.europa.eu/fp7/ict/http://cordis.europa.eu/search/index.cfm?fuseaction=proj.advSearchhttp://cordis.europa.eu/search/index.cfm?fuseaction=proj.advSearchhttp://cordis.europa.eu/search/index.cfm?fuseaction=proj.advSearchhttp://cordis.europa.eu/search/index.cfm?fuseaction=proj.advSearchhttp://cordis.europa.eu/search/index.cfm?fuseaction=proj.advSearchhttp://cordis.europa.eu/fp7/ict/7/28/2019 Presentations D OSS
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,
& FP7
28
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/CORDIS - (http://cordis.europa.eu/)
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/CORDIS - (http://cordis.europa.eu/)
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WP No. 1 Start Date or Starting Event: M1
WP Title Project Management
Activity Type MGT
Participant No. 1 2 3 4 5 6 7
Participant short name P1
(Leader)
P2 P3 P4 P5 P6 P7
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participant
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ICT4Health & AALprojectsLab of Medical Informatics, Aristotle University of Thessaloniki
Centre for Research & Technology Hellas, Institute of
Biomedical & Biomolecular Research
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IST/ICT/Objective 5 (2007-12) - http://heartcycle.eu/
Project baseline
The project will provide a closed-loop disease management solution being able to
serve both Heart Failure (HF) patients and Coronary Heart Disease (CHD) patients,
including possible co-morbidities hypertension, diabetes and arrhythmias. This will be
achieved by multi-parametric monitoring and analysis of vital signs and other
measurements.Technologies:
New Sensors: Cuff-less blood pressure, wearable SpO2, inductive impedance,
electronic acupuncture system, etc.
Decision Support System: Personalized patient and professional DSS, Models for
predicting the short-term and long-term effects of lifestyle and medication, Models
for obtaining an objective indicator of patient compliance Patient platform: Dynamic context awareness in a User Interaction Workflow, Sensor
network middleware for sensors abstraction, Medication compliance coaching
Professional platform: Management of chronic care plans, Light workflow engine
available for light devices with very high expressivity and easy to modify on execution66
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Project objectives An integrated care system for cardiovascular disease management
linking health status monitoring, motivation and treatmentassistance at home with the professional care platform.
A closed-loop treatment system, empowering the patient, and givingmotivating feedback to show the importance of working with the
treatment program. A tool for Health status Assessment for Patients at Home by
integrating easy to use sensors for vital body sign measurement andfeature extraction algorithms.
Methods that provide accurate daily measurements related tomedication and lifestyle effectiveness. This information will be
integrated into the decision support system to warn the professionalof unfavorable trends, and possible problems, enabling appropriateupdating of the patient care plan. The system will also give feedbackto the patient to inform him of his health progression, and enable amore optimal lifestyle management. 67
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Partners
68
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ICT-2009.7.1: ICT & Ageing (2010-14) - http://www.universaal.org/
Project baseline
universAAL aims to produce an open platform that provides a standardized
approach making it technically feasible and economically viable to develop
AAL solutions. The platform will be produced by a mixture of newdevelopment and consolidation of stateofthe art results from existing
initiatives.
Work on establishing and running a sustainable community will receive
attention right from the start, with promotion of existing results graduallyevolving into promotion of the universAAL platform, as it develops into one
consolidated, validated and standardized European open AAL platform.
69
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Project objectives
The main objective of the project is to make it technically feasibleand economically viable to conceive, design and deploy innovativenew AAL services by:
producing a platform providing the necessary technical support, andacting as an open, common basis for both developers and end-users;
carrying out support activities promoting widespread acceptance and
adoption of the platform. These activities form an integral part of theproject and will start at an early stage.
Detailed objectives: Approach to platform development
Design and establish uStore. Inspired by Apples App Store concept,the uStore will provide a one-stop-shop for universAAL end-userservices
Design and establish the universAAL developer depot.
Consolidate existing work and integrate with new development
Devise a technical strategy for achieving interoperability amongstuniversAAL platform elements
Design the platform to be open, and allow interoperability withexisting systems / other domains.
70
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Partners
71
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AAL Joint Programme, Call AAL-2008-1 (2007-12) - http://www.remote-project.eu/Project baseline
Pan-European research project concerned with the needs of elderly and individuals
with chronic conditions
Focus especially on those living in geographical or social isolation whose independent
life is at risk with chronic conditions or lifestyle risk factors
Development of support services by introducing an innovative, ontology-driven, openreference architecture and platform that will enable interoperability, seamless
connectivity and sharing of content among the different services
The project attaches great importance to the consistent involvement of its potential
end-users and the measurement of usability, impact and acceptance of the projects
developments by elderly
Users:
Primary end-users: Elderly with specific chronic conditions living in rural and
isolated areas
Secondary end-users: Health professionals
Tertiary end-users: Health and care insurance providers
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Project objectives The project will provide support for an independent life at home
with the aid of AmI (Ambient intelligence) and tele-healthcare
The elderlys personal environment will be enhanced with variouskinds of monitoring and automation abilities for tracing activity andhealth condition, as well as detecting risks or critical situations
The project will use and scale-up existing research prototypes andnew systems for collecting human- and context-related data(including sensors attached to a persons body, or sensors andactuators installed in houses or cars)
As a growing number of elderly in urban as well as in rural areas live
on their own, monitoring activity and medical data at anytime andfrom anywhere can ensure autonomy and a better quality of careand thus close the growing gap between urban and rural areas
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Citi C t d H lth & lif t l M t
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IST2001 - I.1.1: Intelligent environment for citizen centred health management (2001-04)
Project baseline
The purpose of PANACEIA-iTV is to facilitate essential lifestyle changes and to promote
compliance with scientifically sound self-care recommendations through the application
of interactive digital television for family health maintenance through home care.
PANACEIA-ITV is looking for communication of monitoring microdevices with iTV setboxes using infrared technology, and embodiment of analogous H/W and S/W in the I-
TV set boxes
Major system components developed:
TV set-top-box supporting communication with simple home monitoring devices like
weight scale, blood pressure measurement, and videocamera;
Interactive Digital TV services supporting the delivery of a home care; access to a contact centre to manage the interactive family health maintenance
service of a large number of users;
Internet-based services for the delivery of complementary health educational
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Project objectives
Technology: Develop communication means between iTV and
microdevices capable of recording simple, daily routine
measurements through infra-red communication
Health services: Through the use of iTV, provide easily
accessible high information contented educational and health
prevention / monitoring material.
Business models: the creation of a business scheme that can
glue together different competences such as informationcoding/processing, cable TV services, micro device
manufacturers, telecommunication manufacturers, medical
service provision centres, contact centres. 76
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Future Emerging
Technologies (FET)projectsResearch Unit 3 - Design of Ambient Intelligent Systems
(DAISy)
Computer Technology Institute - Greece
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extrovert Gadgets
IST/FET/Disappearing Computer (2001-03)Project baseline
The project specifies a Gadgetware Architectural Style (GAS),which will be used both by artifact designers and users toconstruct gadgetworlds.
An artifact is an everyday object, augmented with softwareand hardware components that make it GAS-aware and ableto communicate with other artifacts.
A gadgetworld is a configuration of artifacts supported by theplug-synapse model: plugs are the services and properties ofartifacts, while synapses are functional associations ofcompatible plugs.
Thus, an artifact is used as a component of a ubiquitouscomputing application.
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extrovert Gadgets
Project objectives Specify a gadgetware architectural style (GAS), containing
a design vocabulary that maps the commoncharacteristics of e-gadgets, the semantic types ofpermissible inter-gadget associations and theconfiguration rules mediating the composition of e-gadgets.
Design and develop GAS-OS, the middleware that wouldsupport the collaboration of e-gadgets within the
framework of GAS. Validate the completeness and appropriateness of GAS
by developing sample artifacts that conform to GAS anddesigning detailed scenarios of use.
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IST/FET/Open (2003-06)Project baseline
Investigate methods for engineering emergent collective behaviourin large societies of micro-nano scale collaborative autonomousagents (C.A.A.) that can learn and evolve.
The applications objective for this project is to provide platforms for
on-line maintenance and repair of filters for organ replacementtherapy systems; however, the concept is more general and can bescaled up at a later stage.
The application has been chosen so as to provide an appropriateframework for focusing the technical innovation in the project, andillustrating through this focus the potential for high return. An
important aspect is that the agents have a clear mission toaccomplish tasks that lead to coherent team activity. Successfulcollective performance in missions of this type critically dependsupon: (a) accurate environmental perception, (b) a real timedecision making / action loop, (c) emergent goal directed socialbehaviour.
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Project objectives Develop a novel agent architectural design, which will serve as a
blueprint for implementation of effective and optimal agents.
Create an accompanying programmable hardware/softwaredevelopment environment, which will facilitate the evolution ofcomplex agent architectures and the development of successive CAA
generations within each CAA brand. It will include modules forspecification, composition, simulation and evaluation of eachgeneration
Develop hardware technology platforms and processesencompassing high density interconnect (HDI) solutions, selfassembly techniques, and a multidimensional integration approach
of field programmable gate 3D arrays, micro-nano scale sensors andactuators, to create tangible hardware agents
Implement aproof-of-concept system using micro-channel networksto replicate aspects of the priority application in order to investigatein-situ behaviour of the tangible agents. 83
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Department of Medical
Physics, School of Medicine
University of Patras , Greece
www.med.upatras.gr
DAISy Research Unit 3 -Computer Technology
Institute, Greece
www.cti.gr
University of Essex, UK
www.essex.ac.uk
Tyndall National Institute
Cork, Ireland
www.tyndall.ie
Enabling mixed societies of communicating
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Enabling mixed societies of communicating
plants and artifacts
IST/FET/Open (2003-06)
Project baseline
To develop complex interactive systems by embedding sensors
in and around particular plants, and by developing middleware
that will enable the integration of distributed systemscomposed of sensors and artifacts into ecosystems.
The resulting mixed society is capable of reacting (via
actuators) to external stimuli (perceived via sensors), aiming
to maintain a coherent global state (with the use of
appropriate middleware) and to interact with its environment(using wireless networks, bio-signals and a concise interaction
style, which includes form, language and ontology).85
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Enabling mixed societies of communicating
plants and artifacts
Project objectives To study plant eco-systems in order to understand sensing and
communication mechanisms, which will be used as models for thespecification of the plant-artefact interfacing mechanisms.
To design and develop sensors and sensor networks, which will beimplanted around and in plants and will transform biological signals
into digital signals. To design and develop biosensors and actuators, which will provide
artefacts with the ability to induce complex responses from plant-life and perceive their environment in a plant-like way.
To design and implement specific middleware (ePlantOS) in order tointegrate complex distributed systems of sensors and artefacts into a
balanced eco-system, for the purposes of non-predictive study ofselected plant-life and interaction with its environment (peopleincluded)
Tocreate two demonstrators, where intermediate results will beused for evaluation and optimisation and the final results will beanalysed and displayed.
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Awareness Services and Systems Towards
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Awareness Services and Systems Towards
theory and ReAlization
IST/FET/Open (2006-09)
Project baseline
To define a framework for supporting the conception and the
design of Pervasive Awareness systems, specifically those that
are intended to support social relationships. The envisaged framework consists of theories and
technological solutions, addressing the two aims of the
project:
To develop a theory to guide the design and the evaluation of
pervasive awareness systems for supporting social communication.
To develop supporting technology consisting of a service oriented
architecture, tools and applications that can support communities to
create, adapt and appropriate Pervasive Awareness systems. 88
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Awareness Services and Systems Towards
theory and ReAlization
Project objectives To develop an integrated theory of connectedness and
awareness.
To develop a descriptive model and a design
theory/framework for awareness mechanisms. To design an integrated service oriented architecture and
implement a platform for supporting end-userdevelopment of awareness systems.
To design and develop a set of tools that will support the
composition of awareness applications by end-users.
To develop proof-of-concept awareness applications byend-user communities using the experimental ASTRAtechnology.
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ICT/FET/Pervasive Adaptation (2007-11)Project baseline
To contribute to the realization of trusted ambient ecologies.Interactive appliances, collaborative devices, and context awareartifacts, as well as models, services, software components are parts
of ambient ecologies, which form the infrastructure that supportsuser activities.
In ATRACO project, each activity is modelled as an activity sphereusing finite resources to achieve the goals of its owner and having itsinternal knowledge model, in the form of an ontology, and clearlymarked borders, which realize the privacy requirements.
The user tasks that compose an activity are supported by an ad-hocorchestration of ubiquitous computing services offered by theecology. The bubble adapts to different contexts by re-negotiating itsborders, adopting suitable interaction modes and employingresource management models.
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Project objectives To lay the foundations for the development of a new range of
components, architectures and guidelines that underpins thedevelopment of ambient ecologies. More specifically, theproject will: Develop a conceptual framework for ambient ecologies and activity
spheres, realized as a core ontology Research on heterogeneity by developing and testing theories of
ontology matching and alignment to achieve task based semanticintegration of heterogeneous devices and services
Design a service-oriented ambient ecology architecture and developor adapt the necessary components to realize its services
Research on various forms of adaptation and develop a set ofintelligent agents to support adaptive task realization, interaction,activity sphere management and networking
Develop a testbed application, which will be deployed in the iDorm-2and the campus at the University of Essex
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