For highly demanding scenarios such as continuous bio-signal monitoring, transmitting excessive volumes of data wirelessly comprises one of the most critical challenges. This is due to the resource limitations posed by typical hardware and communication technologies. Driven by such shortcomings, this paper aims at addressing the respective deficiencies. The main axes of this work include (a) data compression, and (b) the presentation of a complete, efficient and practical hardware accelerator design able to be integrated in any Internet of Things (IoT) platform for addressing critical challenges of data compression. On one hand, the developed algorithm is presented and evaluated on software, exhibiting significant benefits compared to respe...
Technology scaling enables today the design of ultra-low power wearable biosensors for continuous vi...
Physical indicators are directly related with health and fitness of human body and translate into bi...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...
For highly demanding scenarios such as continuous bio-signal monitoring, transmitting excessive volu...
The internet of things (IoT) is an ecosystem of connected objects that are accessible and available ...
An Internet of Things (IoT) device is usually powered by a small battery, which does not last long. ...
Internet of Things (IoT) communication technology is an essential parameter in modern embedded syste...
Modern wearable Internet of Things (IoT) devices enable the monitoring of vital parameters such as h...
Abstract—This work introduces the use of compressed sensing (CS) algorithms for data compression in ...
Modern wearable IoT devices enable the monitoring of vital parameters such as heart or respiratory r...
Wireless sensor technologies can provide the leverage needed to enhance patient-caregivers collabora...
The Internet of Things (IoT) enables connections of trillions of sensors and data collection for con...
This Master’s thesis evaluates the performance of lightweight compression algorithm aimed for IoT se...
This article belongs to the Special Issue Recent Advancements in Sensor Technologies for Healthcare ...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous v...
Technology scaling enables today the design of ultra-low power wearable biosensors for continuous vi...
Physical indicators are directly related with health and fitness of human body and translate into bi...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...
For highly demanding scenarios such as continuous bio-signal monitoring, transmitting excessive volu...
The internet of things (IoT) is an ecosystem of connected objects that are accessible and available ...
An Internet of Things (IoT) device is usually powered by a small battery, which does not last long. ...
Internet of Things (IoT) communication technology is an essential parameter in modern embedded syste...
Modern wearable Internet of Things (IoT) devices enable the monitoring of vital parameters such as h...
Abstract—This work introduces the use of compressed sensing (CS) algorithms for data compression in ...
Modern wearable IoT devices enable the monitoring of vital parameters such as heart or respiratory r...
Wireless sensor technologies can provide the leverage needed to enhance patient-caregivers collabora...
The Internet of Things (IoT) enables connections of trillions of sensors and data collection for con...
This Master’s thesis evaluates the performance of lightweight compression algorithm aimed for IoT se...
This article belongs to the Special Issue Recent Advancements in Sensor Technologies for Healthcare ...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous v...
Technology scaling enables today the design of ultra-low power wearable biosensors for continuous vi...
Physical indicators are directly related with health and fitness of human body and translate into bi...
Technology scaling enables today the design of ultra-low power wearable bio-sensors for continuous ...