Harvesting ambient energy, as an alternative power source, tackles the increasing demand for future energy-efficient autonomous sensor systems, especially for applications requiring miniaturisation and distributed sensing such Wireless Sensors Network and Internet-of-Things. A functional energy harvesting system requires addressing simultaneously all the components of the system: the harvester device, the energy storage and the powering management circuits. These components are described through examples of miniaturized kinetic-based harvesting systems for low-power applications with focus on energy harvester, piezoelectric and electromagnetic, respectively
Abstract—Miniaturization of devices with higher computa-tional capacity coupled with advancement in ...
This work presents an investigation of a piezoelectric sensor based energy harvesting system, which ...
Recent developments in combining sensors, microprocessors, and radio frequency (RF)\ud communication...
Low-power is one of the key demands for wireless autonomous sensor nodes. This demand has motivated ...
Wireless micro-sensors can enjoy popularity in biomedical drug-delivery treatments and tire-pressure...
With the advent of technology miniaturization, portable electronic devices are evolving at a rapid p...
Infrastructure monitoring and maintenance needs various kinds of sensors; all these sensors are expe...
Energy harvesting technologies are receiving significant interest from industry and academia as they...
none2The ultimate goal of low-power distributed embedded systems is to develop devices which are abl...
none4Small autonomous embedded systems powered by means of energy harvesting techniques, have gained...
The Internet of Things (IoT) era has unlocked a new dimension for interconnected devices. Numerous s...
The emerging mass market for autonomous wireless sensor nodes can only be well served by using energ...
The emerging mass market for autonomous wireless sensor nodes can only be well served by using energ...
Energy harvesting has generated a lot of interest in low power devices and wireless sensing applicat...
The Internet of Things (IoT) continues its growing trend, while new “smart” objects are con-stantly ...
Abstract—Miniaturization of devices with higher computa-tional capacity coupled with advancement in ...
This work presents an investigation of a piezoelectric sensor based energy harvesting system, which ...
Recent developments in combining sensors, microprocessors, and radio frequency (RF)\ud communication...
Low-power is one of the key demands for wireless autonomous sensor nodes. This demand has motivated ...
Wireless micro-sensors can enjoy popularity in biomedical drug-delivery treatments and tire-pressure...
With the advent of technology miniaturization, portable electronic devices are evolving at a rapid p...
Infrastructure monitoring and maintenance needs various kinds of sensors; all these sensors are expe...
Energy harvesting technologies are receiving significant interest from industry and academia as they...
none2The ultimate goal of low-power distributed embedded systems is to develop devices which are abl...
none4Small autonomous embedded systems powered by means of energy harvesting techniques, have gained...
The Internet of Things (IoT) era has unlocked a new dimension for interconnected devices. Numerous s...
The emerging mass market for autonomous wireless sensor nodes can only be well served by using energ...
The emerging mass market for autonomous wireless sensor nodes can only be well served by using energ...
Energy harvesting has generated a lot of interest in low power devices and wireless sensing applicat...
The Internet of Things (IoT) continues its growing trend, while new “smart” objects are con-stantly ...
Abstract—Miniaturization of devices with higher computa-tional capacity coupled with advancement in ...
This work presents an investigation of a piezoelectric sensor based energy harvesting system, which ...
Recent developments in combining sensors, microprocessors, and radio frequency (RF)\ud communication...