PROJECTS

PROJECTS

Wearable Tactile Display

 

Sensing Body Positions and Movements Using Stitched Textile Sensors

Ambulatory health monitoring has been demonstrated to provide significant benefits to patients in a number of studies. The biggest promise for improved results for patients lies in the long-term, ambulatory monitoring of patients with chronic illnesses to help doctors and patients identify health issues before they reach a crisis stage. This project pursues the design of garments for ambulatory health monitoring that have the look and feel of every day clothing, together with an approach to monitoring that removes some of the barriers to patient compliance by automatically annotating physiological data with activities and motions, collecting data only during specific conditions, and having minimal impact on daily routine. The intellectual merits lie in the algorithms, design methodologies, and evaluation methodologies that enable wear-and-forget garments for ambulatory health monitoring. The approach developed by this project uses a computationally intensive pose estimation algorithm that automatically adapts a more computationally efficient algorithm for activity classification. This project addresses the challenges of providing garments that look and feel like everyday clothing by developing design and evaluation methodologies for incorporating fiber-based sensors into garments. These have significant advantages over discrete sensors by being woven or sewn into the fabric, covering much larger areas of a garment, and draping naturally. The broader impacts of the research lie in the potential to remove barriers that prevent the effective use of ambulatory health monitoring to improve the quality of life for patients and their families.

 

Related Publications

Detecting Bends and Fabric Folds Using Stitched Sensors

Sensing Lower Body Lifting Posture Through Disposable Sensing Coveralls

Overlock-Stitched Stretch Sensors: Characterization and Effect of Fabric Property

Patent: Stitched Stretch Sensor

Lower-Limb Goniometry Using Stitched Sensors: Effects of Manufacturing and Wear

Garment-Integrated Bend Sensor

Washability of E-Textile Stretch Sensors and Sensor Insulation

Coarse Sensing of Upper Arm Position Using Body-Garment Interactions

Evaluating the Impact of Garment Structure on Wearable Sensor Performance

Optical Bend Sensing for Wearable Gonometry: Exploring the Comfort/Accuracy Tradeoff

 

Funded by National Science Foundation (grant #IIS-1116719)

Wearable Technology Lab

1985 Buford Circle

240 McNeal Hall (directions and maps)
1985 Buford Avenue

P: 612.624.9700