Electronic skin (eSkin) with various types of sensors over large conformable substrates has received considerable interest in robotics. The continuous operation of large number of sensors and the readout electronics make it challenging to meet the energy requirements of eSkin. In this article, we present the first energy generating eSkin with intrinsic tactile sensing without any touch sensor. The eSkin comprises a distributed array of miniaturized solar cells and infrared light emitting diodes (IRLEDs) on soft elastomeric substrate. By innovatively reading the variations in the energy output of the solar cells and IRLEDs, the eSkin could sense multiple parameters (proximity, object location, edge detection, etc.). As a proof of concept, th...
The first stretchable energy harvesting e-skin (EHES) that is able to detect, differentiate, and har...
Tactile sensing is one important element that can enable robots to interact with an unstructured wor...
With robots starting to enter our lives in a number of ways (e.g., social, assistive, and surgery), ...
Electronic skin (eSkin) with various types of sensors over large conformable substrates has received...
Electronic skin or eSkin is critical to enhance the interactive capabilities of robots through physi...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Tactile or electronic skin is needed to provide critical haptic perception to robots and amputees, a...
There is a growing interest in the large area, lightweight, low-power electronic skin (e-Skin), cons...
Tactile or electronic skin is needed to provide critical haptic perception to robots and amputees, a...
Energy autonomy is key to the next generation portable and wearable systems for several applications...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
Electronic skins (e-skins), which can seamlessly adapt and adhere to the body to mimic the functiona...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
Electronic skin (e-Skin) with various types of sensors over flexible substrates has received conside...
The first stretchable energy harvesting e-skin (EHES) that is able to detect, differentiate, and har...
Tactile sensing is one important element that can enable robots to interact with an unstructured wor...
With robots starting to enter our lives in a number of ways (e.g., social, assistive, and surgery), ...
Electronic skin (eSkin) with various types of sensors over large conformable substrates has received...
Electronic skin or eSkin is critical to enhance the interactive capabilities of robots through physi...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Tactile or electronic skin is needed to provide critical haptic perception to robots and amputees, a...
There is a growing interest in the large area, lightweight, low-power electronic skin (e-Skin), cons...
Tactile or electronic skin is needed to provide critical haptic perception to robots and amputees, a...
Energy autonomy is key to the next generation portable and wearable systems for several applications...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
Electronic skins (e-skins), which can seamlessly adapt and adhere to the body to mimic the functiona...
Sensory feedback from touch is critical for many tasks carried out by robots and humans, such as gra...
Electronic skin (e-Skin) with various types of sensors over flexible substrates has received conside...
The first stretchable energy harvesting e-skin (EHES) that is able to detect, differentiate, and har...
Tactile sensing is one important element that can enable robots to interact with an unstructured wor...
With robots starting to enter our lives in a number of ways (e.g., social, assistive, and surgery), ...