none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic skin" (E-skin) arrays of tactile sensors with up to 64 channels, ECG/EMG sensors up to 8 channels, inertial sensors, and a Bluetooth Low Energy 5.0 module. The platform's compute engine is a heterogeneous multi-core parallel ultra-low power (PULP) processor based on RISC-V, capable of delivering up to 2.5 GOPS, within a 55 mW power consumption envelope, which makes the platform ideal for battery-powered always-on operation. Experimental results show a peak of 38.3x energy efficiency increase (0.7 V, 85 MHz) compared to ARM-Cortex-M microcontrollers with similar power budgets.mixedEggimann M.; Mach S.; Magno M.; Benini L.Eggimann M.; Mach S.; M...
Thin-film electronics has hugely benefitted from low-cost processes, large-area processability, and ...
Ultrafast artificial skin enables unprecedented tactile internet applications in prosthetics, roboti...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic s...
Electronic-skin aiming to mimic human skin is becoming a reality and systems able to process data cl...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
none5siThe implementation of tactile data decoding on low power embedded system is crucial for the d...
In the last decade, improvements on technology scaling have enabled the design of a novel generation...
Developing wearable sensing technologies and unobtrusive devices is paving the way to the design of ...
Embedded vision systems are smart energy efficient devices that capture and process a visual signal ...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
This work presents InfiniWolf, a novel multi-sensor smartwatch that can achieve self-sustainability ...
International audienceThis work demonstrates an ultra-low power, software-defined wireless transceiv...
Photoplethysmography (PPG) sensors allow for noninvasive and comfortable heart-rate (HR) monitoring,...
Thin-film electronics has hugely benefitted from low-cost processes, large-area processability, and ...
Ultrafast artificial skin enables unprecedented tactile internet applications in prosthetics, roboti...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
none4siWe present a fully programmable ultra-low-power embedded platform that hosts an "electronic s...
Electronic-skin aiming to mimic human skin is becoming a reality and systems able to process data cl...
Electronic skin (e-skin) is playing a key role in medicine, prosthetic and robot applications. E-ski...
none5siThe implementation of tactile data decoding on low power embedded system is crucial for the d...
In the last decade, improvements on technology scaling have enabled the design of a novel generation...
Developing wearable sensing technologies and unobtrusive devices is paving the way to the design of ...
Embedded vision systems are smart energy efficient devices that capture and process a visual signal ...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
This work presents InfiniWolf, a novel multi-sensor smartwatch that can achieve self-sustainability ...
International audienceThis work demonstrates an ultra-low power, software-defined wireless transceiv...
Photoplethysmography (PPG) sensors allow for noninvasive and comfortable heart-rate (HR) monitoring,...
Thin-film electronics has hugely benefitted from low-cost processes, large-area processability, and ...
Ultrafast artificial skin enables unprecedented tactile internet applications in prosthetics, roboti...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...