Vigour is a Product Service System that enables geriatric patients, physiotherapists and family to gain more insight into the exercises and progress of a rehabilitation process. It is a knitted, long-sleeved cardigan with integrated stretch sensors made of conductive yarn and an accompanying iPad application which monitors the movements of the upper body and can give sound feedback. The garment can be worn all day and thereby gather a large amount of data.

Sound as motivation

Next to this the garment can be worn when executing rehabilitation exercises and give feedback to the wearer by making sounds on an iPad application. For example: the further a particular sensor is stretched, the higher the pitch of the piano or the increase in volume of the voice in a song. Vigour's accompanying iPad app uses this data to give direct feedback to both the sweater's wearer and the physiotherapist, helping them both visualise progress. It also allows them to customise each sensor's sound and sensitivity, providing another way to track effort in each targeted area. The project has a high social value, since it advances ways of communication between geriatric (Alzheimer's) patients and their therapists, and encourages interaction and movement.

Vigour prototype

Vigour is designed in the form of a garment that can be worn as a normal cardigan. The reason for this is that the garment is more likely to be accepted by the target group (older adults and seniors). Family and caregivers do not like the stigma of a patient that a garment with a strong medical look puts on the wearer. It is important that the person wants to wear it, first of all because it is comfortable and also fits their identity and is beautiful, and additionally has the other features you expect from a smart garment. The sensor areas themselves are directly knitted into the fabric during the knitting process. There are in total four sensors integrated into the textile of the garment: two in the lower back area, to measure back movement (bend of the back), and two stretch sensors under the arms to measure arm movement.


De Wever
Savo BV,


The work described above is part of doctoral research 'Designing Embodied Smart Textile Services' that has been carried out as part of the project 'Smart Textile Services' sponsored by the Dutch Ministry of Economic Affairs under the CRISP program.

Related publications

ten Bhömer, M. (2016). Designing embodied smart textile services: The role of prototypes for project, community and stakeholders (Doctoral dissertation). Eindhoven University of Technology, Eindhoven, The Netherlands.

ten Bhömer, M. , Tomico, O. & Wensveen, S. A. G. (2015). Designing ultra-personalized embodied smart textile services for wellbeing. In L. Van Langenhove (Ed.) Advances in smart medical textiles: Treatments and health monitoring (pp. 155-175). Cambridge, UK: Woodhead Publishing.

Wensveen, S. A. G., Tomico, O., ten Bhömer, M. & Kuusk, K. (2015).Growth plan for an inspirational test-bed of smart textile services. In Proceedings of the 2014 conference on Designing interactive systems (DIS '15), Vancouver, BC, Canada (pp. 141-150). New York, NY, USA: ACM.

Brouwer, C. E., ten Bhömer, M., Tomico, O. & Wensveen, S. A. G. (2015). Assessing smart textile services using bodily knowledge of tangibility. In R. Valkenburg, C. Dekkers & J. Sluijs (Eds.), Proceedings of the 4th Participatory Innovation Conference (PIN-C 2015), The Hague, The Netherlands (pp. 99-106). The Hague, The Netherlands: The Hague University of Applied Sciences.

ten Bhömer, M., Tomico, O. & Hummels, C. C. M. (2013). Vigour: Smart textile services to support rehabilitation. In E. Brandt, P. Ehn, T. Degn Johansson, M. Hellström Reimer, T. Markussen & A. Vallgårda (Eds.), Proceedings of the Nordic Design Research Conference (Nordes 2013), Copenhagen, Denmark (pp. 505-506). Copenhagen, Denmark: The Royal Danish Academy of Fine Arts, Schools Architecture, Design and Conservation.