Wearable, intelligent, and unobtrusive sensor nodes that monitor the human body and the surrounding environment have the potential to create valuable data for preventive human-centric ubiquitous healthcare. To attain this vision of unobtrusiveness, the smart devices have to gather and analyze data over long periods of time without the need for battery recharging or replacement. This article presents a software-configurable kinetic energy harvesting and power management circuit that enables self-sustainable wearable devices. By exploiting the kinetic transducer as an energy source and an activity sensor simultaneously, the proposed circuit provides highly efficient context-aware control features. Its mixed-signal nano-power context awareness...
Conventional systems for motion context detection rely on batteries to provide the energy required f...
Wearable technologies play a key role in the shift of traditional healthcare services towards eHealt...
The emergence of human-motion-based energy harvesters is a reflection of the need to develop future ...
Wearable, intelligent, and unobtrusive sensor nodes that monitor the human body and the surrounding ...
Advances in energy harvesting hardware have created an opportunity to realise self-powered wearables...
Recent advancements in energy-harvesting hardware have created an opportunity for realizing batteryl...
Power supply availability is a limiting factor in wearable devices whose form factor constrains batt...
The high power consumption of inertial activity sensors limits the battery lifetime of today’s weara...
Today's wearable Internet of Things (IoT) devices, which have numerous practical applications, suffe...
Kinetic energy harvesting (KEH) may help combat battery issues in wearable devices. While the primar...
A novel trend to achieve long-lifetime or even self-sustainable wearable devices is to exploit energ...
For wearable devices, the availability of energy is one of the main limiting factors of performance ...
Wearable devices have become increasingly popular in recent years, and they offer a great opportunit...
A kinetic energy harvester for wearable wireless sensors and personal devices is proposed. The harve...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
Conventional systems for motion context detection rely on batteries to provide the energy required f...
Wearable technologies play a key role in the shift of traditional healthcare services towards eHealt...
The emergence of human-motion-based energy harvesters is a reflection of the need to develop future ...
Wearable, intelligent, and unobtrusive sensor nodes that monitor the human body and the surrounding ...
Advances in energy harvesting hardware have created an opportunity to realise self-powered wearables...
Recent advancements in energy-harvesting hardware have created an opportunity for realizing batteryl...
Power supply availability is a limiting factor in wearable devices whose form factor constrains batt...
The high power consumption of inertial activity sensors limits the battery lifetime of today’s weara...
Today's wearable Internet of Things (IoT) devices, which have numerous practical applications, suffe...
Kinetic energy harvesting (KEH) may help combat battery issues in wearable devices. While the primar...
A novel trend to achieve long-lifetime or even self-sustainable wearable devices is to exploit energ...
For wearable devices, the availability of energy is one of the main limiting factors of performance ...
Wearable devices have become increasingly popular in recent years, and they offer a great opportunit...
A kinetic energy harvester for wearable wireless sensors and personal devices is proposed. The harve...
This is the author accepted manuscript. The final version is available from Elsevier via the DOI in ...
Conventional systems for motion context detection rely on batteries to provide the energy required f...
Wearable technologies play a key role in the shift of traditional healthcare services towards eHealt...
The emergence of human-motion-based energy harvesters is a reflection of the need to develop future ...