Electronic-skin aiming to mimic human skin is becoming a reality and systems able to process data close to the sensors are required to reduce latency and power consumption. This paper presents the design and implementation of an energy efficient smart system for tactile sensing based on a RISC-V parallel ultra-low power platform (PULP). The PULP processor, called Mr. Wolf, performs the on-board classification of different touch modalities. This demonstrates the promising use of on-board classification for emerging robot and prosthetic applications. Experimental results demonstrate the effectiveness of the platform on improving the energy efficiency of the online classification. In our experiments, Mr. Wolf runs 3.6 times faster than an ARM ...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Driving toward the goal of gaining a high level of intelligence and agility that mimics or surpasses...
Touch is a complex sensing modality owing to large number of receptors (mechano, thermal, pain) nonu...
The implementation of tactile data decoding on low power embedded system is crucial for the developm...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic s...
Ultrafast artificial skin enables unprecedented tactile internet applications in prosthetics, roboti...
Despite significant advances in computational algorithms and development of tactile sensors, artific...
This paper presents a wearable electromyographic gesture recognition system based on the hyperdimens...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
AbstractThe effort to develop an electronic skin is highly motivated by many application domains nam...
Electronic skin (eSkin) with various types of sensors over large conformable substrates has received...
This work presents a wearable EMG gesture recognition system based on the hyperdimensional (HD) comp...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
This paper presents a portable, low power electronic system for tactile sensory feedback for prosthe...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Driving toward the goal of gaining a high level of intelligence and agility that mimics or surpasses...
Touch is a complex sensing modality owing to large number of receptors (mechano, thermal, pain) nonu...
The implementation of tactile data decoding on low power embedded system is crucial for the developm...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic s...
Ultrafast artificial skin enables unprecedented tactile internet applications in prosthetics, roboti...
Despite significant advances in computational algorithms and development of tactile sensors, artific...
This paper presents a wearable electromyographic gesture recognition system based on the hyperdimens...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
AbstractThe effort to develop an electronic skin is highly motivated by many application domains nam...
Electronic skin (eSkin) with various types of sensors over large conformable substrates has received...
This work presents a wearable EMG gesture recognition system based on the hyperdimensional (HD) comp...
Enabling touch-sensing capability would help appliances understand interaction behaviors with their ...
This paper presents a portable, low power electronic system for tactile sensory feedback for prosthe...
Inspired by biology, significant advances have been made in the field of electronic skin (eSkin) or ...
Driving toward the goal of gaining a high level of intelligence and agility that mimics or surpasses...
Touch is a complex sensing modality owing to large number of receptors (mechano, thermal, pain) nonu...