This paper demonstrates the powering of wireless sensor nodes with the exclusive use of a novel kinetic energy harvester (KEH). This KEH is designed to operate under low accelerations which are practical to find in a typical environment where a sensor would be deployed. Four different sensor types were powered with accelerations ranging between 17-300 mg
Wireless sensor networks are becoming increasingly more common as a means to sense, measure, record ...
Sensor nodes in conventional Internet-of-Things (IoT) suffer from the limitation of finite energy st...
Abstract—Numerous energy harvesting wireless devices that will serve as building blocks for the Inte...
This paper reviews kinetic energy harvesting as a potential localised power supply for wireless appl...
Purpose – The purpose of this paper is to demonstrate the feasibility of using kinetic energy harves...
Conventional systems for motion context detection rely on batteries to provide the energy required f...
Power supply availability is a limiting factor in wearable devices whose form factor constrains batt...
Human-based energy harvesters are attractive as sustainable replacements for batteries to power wear...
A kinetic energy harvester for wearable wireless sensors and personal devices is proposed. The harve...
Traditional Internet of Things (IoT) sensors rely on batteries that need to be replaced or recharged...
This chapter focuses on the strategies and the devices used to convert energy present in the environ...
Low-power is one of the key demands for wireless autonomous sensor nodes. This demand has motivated ...
International audienceHarvesting kinetic energy is a good opportunity to power wireless sensor in a ...
International audienceThis paper reports on a method to optimize an electromagnetic energy harvester...
The use of wireless sensors for structural health monitoring offers several advantages such as small...
Wireless sensor networks are becoming increasingly more common as a means to sense, measure, record ...
Sensor nodes in conventional Internet-of-Things (IoT) suffer from the limitation of finite energy st...
Abstract—Numerous energy harvesting wireless devices that will serve as building blocks for the Inte...
This paper reviews kinetic energy harvesting as a potential localised power supply for wireless appl...
Purpose – The purpose of this paper is to demonstrate the feasibility of using kinetic energy harves...
Conventional systems for motion context detection rely on batteries to provide the energy required f...
Power supply availability is a limiting factor in wearable devices whose form factor constrains batt...
Human-based energy harvesters are attractive as sustainable replacements for batteries to power wear...
A kinetic energy harvester for wearable wireless sensors and personal devices is proposed. The harve...
Traditional Internet of Things (IoT) sensors rely on batteries that need to be replaced or recharged...
This chapter focuses on the strategies and the devices used to convert energy present in the environ...
Low-power is one of the key demands for wireless autonomous sensor nodes. This demand has motivated ...
International audienceHarvesting kinetic energy is a good opportunity to power wireless sensor in a ...
International audienceThis paper reports on a method to optimize an electromagnetic energy harvester...
The use of wireless sensors for structural health monitoring offers several advantages such as small...
Wireless sensor networks are becoming increasingly more common as a means to sense, measure, record ...
Sensor nodes in conventional Internet-of-Things (IoT) suffer from the limitation of finite energy st...
Abstract—Numerous energy harvesting wireless devices that will serve as building blocks for the Inte...