Die TU Chemnitz in den Medien – Archiv

2022-04-27 | mobylak.co

Electronic skin anticipates and perceives touch from different directions for the first time — ScienceDaily

A research team from Chemnitz and Dresden has taken a major step forward in the development of sensitive electronic skin (e-skin) with integrated artificial hairs. E-skins are flexible electronic systems that try to mimic the sensitivity of their natural human skin counterparts. Applications range from skin replacement and medical sensors on the body to artificial skin for humanoid robots and androids.

2022-04-27 | news8plus.com

Electronic skin anticipates and perceives touch from different directions for the first time

A analysis group from Chemnitz and Dresden has taken a significant step ahead within the growth of delicate digital pores and skin (e-skin) with built-in synthetic hairs. E-skins are versatile digital programs that attempt to mimic the sensitivity of their pure human pores and skin counterparts. Functions vary from pores and skin alternative and medical sensors on the physique to synthetic pores and skin for humanoid robots and androids.

2022-04-27 | Newsicmedia

Electronic skin anticipates and perceives touch from different directions for the first time

Scientists have developed a new approach for miniaturization of soft ultra-compact and highly integrated sensor units for directional tactile sensitivity in e-skin systems.

2022-04-27 | techxplore.com

Electronic skin anticipates and perceives touch from different directions for the first time

A research team from Chemnitz and Dresden has taken a major step forward in the development of sensitive electronic skin (e-skin) with integrated artificial hairs. E-skins are flexible electronic systems that try to mimic the sensitivity of their natural human skin counterparts. Applications range from skin replacement and medical sensors on the body to artificial skin for humanoid robots and androids.

2022-04-27 | nationworldnews.com

Electronic skin anticipates and feels touch from different directions for the first time

A research team from Chemnitz and Dresden has taken a major step forward in the development of sensitive electronic skin (e-skin) with integrated artificial hairs. E-skins are flexible electronic systems that try to mimic the sensitivity of their natural human skin counterparts. Applications range from skin replacement and medical sensors on the body to humanoid robots and artificial skin for Android.

2022-04-27 | vervetimes.com

Electronic skin anticipates and perceives touch from different directions for the first time — ScienceDaily

A research team from Chemnitz and Dresden has taken a major step forward in the development of sensitive electronic skin (e-skin) with integrated artificial hairs. E-skins are flexible electronic systems that try to mimic the sensitivity of their natural human skin counterparts. Applications range from skin replacement and medical sensors on the body to artificial skin for humanoid robots and androids.

2022-04-27 | techilive.in

Electronic skin anticipates and perceives touch from different directions for the first time

A research team from Chemnitz and Dresden has taken a major step forward in the development of sensitive electronic skin (e-skin) with integrated artificial hairs. E-skins are flexible electronic systems that try to mimic the sensitivity of their natural human skin counterparts. Applications range from skin replacement and medical sensors on the body to artificial skin for humanoid robots and androids.

2022-04-27 | Science Daily

Electronic skin anticipates and perceives touch from different directions for the first time

Scientists have developed a new approach for miniaturization of soft ultra-compact and highly integrated sensor units for directional tactile sensitivity in e-skin systems.

2022-04-27 | EurekAlert

Electronic skin anticipates and perceives touch from different directions for the first time

Scientists from Chemnitz University of Technology and Leibniz IFW Dresden develop a new approach for miniaturization of soft ultra-compact and highly integrated sensor units for directional tactile sensitivity in e-skin systems.

2022-04-27 | guetsel.de

TU Chemnitz, mehr Entspannung und weniger Stress durch kombinierte Yoga Techniken

TU Chemnitz veröffentlicht erste zusammenfassende Studie zur Wirksamkeit kombinierter Yoga Übungen.