In the last decade, improvements on technology scaling have enabled the design of a novel generation of wearable bio-sensing monitors. These smart Wireless Body Sensor Nodes (WBSNs) are able to acquire and process biological signals, such as electrocardiograms, for periods of time extending from hours to days. The energy required for the on-node digital signal processing (DSP) is a crucial limiting factor in the conception of these devices. To address this design challenge, we introduce a domain-specific ultra-low power (ULP) architecture dedicated to bio-signal processing. The platform features a light-weight strategy to support different operating modes and synchronization among cores. Our approach effectively reduces the power consumptio...
none5This study presents a single-core and a multi-core processor architecture for health monitoring...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...
In the last decade, improvements on technology scaling have enabled the design of a novel generation...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
A multi-core architecture with ultra-low power consumption is needed for a wide variety of applicati...
In this study, the authors explore sequential and parallel processing architectures, utilising a cus...
This paper presents a system design study for wearable sensor devices intended for healthcare and li...
This paper presents a system design study for wearable sensor devices intended for healthcare and li...
This paper introduces a novel computing architecture devoted to the ultra-low power analysis of mult...
This study presents a single-core and a multi-core processor architecture for health monitoring syst...
Abstract — As the study of the wireless body area sensor network (BASN) keeps growing, corresponding...
none5This study presents a single-core and a multi-core processor architecture for health monitoring...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...
In the last decade, improvements on technology scaling have enabled the design of a novel generation...
Technology scaling enables today the design of sensor-based ultra-low cost chips well suited for eme...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
\u3cp\u3eThis paper presents a voltage-scalable digital signal processing system designed for the us...
In the last years, remote health monitoring is becoming an essential branch of health care with the ...
A multi-core architecture with ultra-low power consumption is needed for a wide variety of applicati...
In this study, the authors explore sequential and parallel processing architectures, utilising a cus...
This paper presents a system design study for wearable sensor devices intended for healthcare and li...
This paper presents a system design study for wearable sensor devices intended for healthcare and li...
This paper introduces a novel computing architecture devoted to the ultra-low power analysis of mult...
This study presents a single-core and a multi-core processor architecture for health monitoring syst...
Abstract — As the study of the wireless body area sensor network (BASN) keeps growing, corresponding...
none5This study presents a single-core and a multi-core processor architecture for health monitoring...
Biological signal sensing and processing has greatly improved our understanding about the body. With...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...