op den Akker, H. and Tabak, M. and Marin-Perianu, M. and Huis in 't Veld, M.H.A. and Jones, V.M. and Hofs, D.H.W. and Tönis, T.M. and van Schooten, B.W. and Vollenbroek-Hutten, M.M.R. and Hermens, H.J.
Development and evaluation of a sensor-based system for remote monitoring and treatment of chronic diseases - the continuous care & coaching platform.
In: Proceedings of the 6th International Symposium on eHealth Services and Technologies, EHST 2012, 3-4 July 2012, Geneva, Switzerland.
SciTePress - Science and Technology Publications.
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The steep increase in the number of people with chronic diseases in the Western world is a long recognised
problem which forces us to look for less labour intensive and more cost effective methods to deliver health-care. Wider use of telemedicine services seems to be a solution that can contribute substantially to reduction
of costs and maintenance of health service quality at a high level, but its implementation in regular healthcare
practice often fails. This is no surprise since designing, building and implementing a successful telemedicine
application is no trivial task. The reasons for failure are many, and include technical problems and low us-ability, however there are also organisational factors such as the often disruptive effect the introduction of new
technologies can have on existing healthcare processes. This paper presents the experience gathered when
building our system: the Continuous Care & Coaching Platform (C3PO). This platform was designed to monitor patients with chronic diseases during daily life and provide them with the support they need to develop
and maintain an active lifestyle in order to improve quality of life and offset deterioration of health condition.
In this paper we share the lessons learned and present results of evaluation studies using earlier versions of the
platform. Innovations in the field of wireless sensor technology as well as changing demands from the users
led us to redesign and develop a new version of the platform. This process is described, starting with the gath-ering of requirements using a user-centred design approach and derivation of specifications. The components
of the platform are described as well as results of recent evaluation studies. Our evaluations and experience
with working with patients and healthcare professionals indicate that there is currently a great need to add in-telligence to the platform. The augmentation of the platform with of a smart autonomous health- and lifestyle
coach is the current focus of our research which, we believe, will be a crucial next step towards the future of
intelligent telemedicine applications.
|Item Type:||Conference or Workshop Paper (Full Paper, Invited/Keynote Talk)|
|Research Group:||EWI-BSS: Biomedical Signals and Systems|
|Research Program:||CTIT-ASSIST: Applied Science of Services for Information Society Technologies|
|Uncontrolled Keywords:||Telemedicine, user-centred design, physical activity, lifestyle monitoring|
|Deposited On:||26 November 2012|
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