%0 Book Section %B Biomedical Engineering Systems and Technologies: 7th International Joint Conference, BIOSTEC 2014, Angers, France, March 3-6, 2014, Revised Selected Papers %D 2016 %T A Full Body Sensing System for Monitoring Stroke Patients in a Home Environment %A Klaassen, B. %A van Beijnum, B.J.F. %A Weusthof, M. H. H. %A D. Hofs %A van Meulen, F.B. %A E. Droog %A H. Luinge %A S. Laurens %A A. Tognetti %A F. Lorussi %A R. Paradiso %A Held, J. %A Luft, A. R. L. %A Reenalda, J. %A Nikamp, C. D. M. %A Buurke, J. H. %A Hermens, HJ %A Veltink, P. %K Bioengineering %B Biomedical Engineering Systems and Technologies: 7th International Joint Conference, BIOSTEC 2014, Angers, France, March 3-6, 2014, Revised Selected Papers %I Springer International Publishing %P 378 - 393 %@ 978-3-319-26128-7 %G eng %R 10.1007/978-3-319-26129-4_25 %0 Journal Article %J FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY %D 2016 %T Wearable Textile Platform for Assessing Stroke Patient Treatment in Daily Life Conditions %A F. Lorussi %A N. Carbonaro %A D. De Rossi %A R. Paradiso %A Veltink, P. %A A. Tognetti %K ambulatory monitoring %K data fusion %K gait %K Grasping %K reaching %K stroke rehabilitation %K wearable sensors %B FRONTIERS IN BIOENGINEERING AND BIOTECHNOLOGY %V 4 %P 1–28 %G eng %R 10.3389/fbioe.2016.00028 %0 Conference Paper %D 2014 %T Daily-Life Monitoring of Stroke Survivors Motor Performance: The INTERACTION Sensing System %A A. Tognetti %A F. Lorussi %A N. Carbonaro %A D. De Rossi %A De Toma, G. %A Mancuso, C. %A Paradiso, R. %A Luinge, H. %A Reenalda, J. %A Droog, E. %A Veltink, P. %X

The objective of the INTERACTION Eu project is to develop and validate an unobtrusive and modular system for monitoring daily life activities, physical interactions with the environment and for training upper and lower extremity motor function in stroke subjects. This paper describes the development and preliminary testing of the project sensing platform made of sensing shirt, trousers, gloves and shoes. Modular prototypes were designed and built considering the minimal set of inertial, force and textile sensors that may enable an efficient monitoring of stroke patients. The single sensing elements are described and the results of their preliminary lab-level testing are reported.