none4Small autonomous embedded systems powered by means of energy harvesting techniques, have gained momentum in industry and research. This paper presents a simple, yet effective and complete energy harvesting solution which permits the exploitation of an arbitrary number of ambient energy sources. The proposed modular architecture collects energy from each of the connected harvesting subsystems in a concurrent and independent way. The possibility of connecting a lithium-ion or nickel-metal hydride rechargeable battery protects the system against long periods of ambient energy shortage and improves its overall dependability. The simple, fully analogue design of the power management and battery monitoring circuits minimizes the component co...
The Internet-of-Things (IoT) paradigm is under constant development and is being enabled by the late...
Information and Communication Technology (ICT) is changing the way we live and has become an essenti...
In this work, we present a novel multisensory electronic architecture that can work with very low vo...
none6Energy harvesting allows low-power embedded devices to be powered from naturally-ocurring or un...
The increasing attention on energy autonomous sensing and computing systems which can operate unatte...
Low-power is one of the key demands for wireless autonomous sensor nodes. This demand has motivated ...
Small-scale, low-mass embedded systems have received significant interest in a variety of applicatio...
This article deals with energy harvesting field, which is a method of collecting energy from the env...
Energy harvesting enables the realisation of innovative applications where the autarkic operation of...
Internet of Things and growing popularity of connected devices are increasing the demand for wearabl...
Abstract—Miniaturization of devices with higher computa-tional capacity coupled with advancement in ...
International audienceWireless sensor networks are constrained by their energy supply. In order to r...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
none4noEnergy availability and long term operation are key challenges for wireless sensor networks a...
Harvesting ambient energy, as an alternative power source, tackles the increasing demand for future ...
The Internet-of-Things (IoT) paradigm is under constant development and is being enabled by the late...
Information and Communication Technology (ICT) is changing the way we live and has become an essenti...
In this work, we present a novel multisensory electronic architecture that can work with very low vo...
none6Energy harvesting allows low-power embedded devices to be powered from naturally-ocurring or un...
The increasing attention on energy autonomous sensing and computing systems which can operate unatte...
Low-power is one of the key demands for wireless autonomous sensor nodes. This demand has motivated ...
Small-scale, low-mass embedded systems have received significant interest in a variety of applicatio...
This article deals with energy harvesting field, which is a method of collecting energy from the env...
Energy harvesting enables the realisation of innovative applications where the autarkic operation of...
Internet of Things and growing popularity of connected devices are increasing the demand for wearabl...
Abstract—Miniaturization of devices with higher computa-tional capacity coupled with advancement in ...
International audienceWireless sensor networks are constrained by their energy supply. In order to r...
Thesis: M. Eng., Massachusetts Institute of Technology, Department of Electrical Engineering and Com...
none4noEnergy availability and long term operation are key challenges for wireless sensor networks a...
Harvesting ambient energy, as an alternative power source, tackles the increasing demand for future ...
The Internet-of-Things (IoT) paradigm is under constant development and is being enabled by the late...
Information and Communication Technology (ICT) is changing the way we live and has become an essenti...
In this work, we present a novel multisensory electronic architecture that can work with very low vo...