Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-skin tries to sense the world like the human skin does, exploiting arrays of sensors that produce a huge amount of data to be processed. Processing tactile data close to the e-skin imposes big challenges in terms of energy efficiency and real-time functionality. Energy efficient is particularly important for wearable and prosthetic applications where e-skin is mainly used as a wearable device supplied by battery. The major challenges it to find a sweet spot between power consumption and performance as tactile data decoding implementation requires high amount of computational power. This paper presents the hardware-software implementation of a co...
none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic s...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Despite significant advances in computational algorithms and development of tactile sensors, artific...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
The implementation of tactile data decoding on low power embedded system is crucial for the developm...
Electronic-skin aiming to mimic human skin is becoming a reality and systems able to process data cl...
AbstractThe effort to develop an electronic skin is highly motivated by many application domains nam...
The effort to develop an electronic skin is highly motivated by many application domains namely robo...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Endowing appliances with the capability of sensing and processing touch enables tactile interaction ...
Ultrafast artificial skin enables unprecedented tactile internet applications in prosthetics, roboti...
Energy autonomy is key to the next generation portable and wearable systems for several applications...
Electronic skins (e-skins), which can seamlessly adapt and adhere to the body to mimic the functiona...
Due to its very peculiar features, the development of e-skin can be effectively tackled using a holi...
none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic s...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Despite significant advances in computational algorithms and development of tactile sensors, artific...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
The implementation of tactile data decoding on low power embedded system is crucial for the developm...
Electronic-skin aiming to mimic human skin is becoming a reality and systems able to process data cl...
AbstractThe effort to develop an electronic skin is highly motivated by many application domains nam...
The effort to develop an electronic skin is highly motivated by many application domains namely robo...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
Endowing appliances with the capability of sensing and processing touch enables tactile interaction ...
Ultrafast artificial skin enables unprecedented tactile internet applications in prosthetics, roboti...
Energy autonomy is key to the next generation portable and wearable systems for several applications...
Electronic skins (e-skins), which can seamlessly adapt and adhere to the body to mimic the functiona...
Due to its very peculiar features, the development of e-skin can be effectively tackled using a holi...
none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic s...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Despite significant advances in computational algorithms and development of tactile sensors, artific...