Led by Professor Jae-Woong Jung from the KAIST School of Electrical Engineering (EE) and Professor Jung Kim from the KAIST Department of Mechanical Engineering (ME), the joint research team has successfully developed a stretchable and adhesive microneedle sensor capable of electrically sensing physiological signals at a high level without being affected by the user's skin condition. This technology holds great promise for improving the precision and effectiveness of rehabilitation treatments involving wearable robots.
Existing sensors have often faced challenges related to deteriorating signal quality over time and susceptibility to the wearer's skin conditions, limiting their reliability for long-term use. Additionally, their mechanical hardness has contributed to noise, as they struggle to adapt to the deformation of the skin. These limitations have hindered the widespread and dependable use of wearable robots in the field of rehabilitation.