The aim of this chapter to provide an overview of the different techniques that can be used to harvest energy for portable and wearable electronic devices. These technologies rely on converting ambient energy, or energy from the body into useful electricity. We discuss each technology‘s working principles, as well as its merits for satisfying the power demands of wearable electronic devices
This article introduces the various energy harvesting mechanisms that can be used to energize sensin...
The aim of Energy Harvesting is to capture free energy, available without costs, from the environmen...
With the advent of technology miniaturization, portable electronic devices are evolving at a rapid p...
The presence of ubiquitous electronics in wearable devices carried by the user is rapidly growing, a...
The trends in technology allow the decrease in both size and power consumption of complex digital sy...
The paper presents an overview of recent and noninvasive technologies used to harvest electrical ene...
The trends in technology allow the decrease in both size and power consumption of complex digital sy...
Energy harvesting, the process of collecting low level ambient energy and converting it into electri...
Over the past few decades the use of portable and wearable electronics has grown steadily. These dev...
This paper aims to present new trends in energy-harvesting solutions pertaining to wearable sensors ...
Portable electronic systems and wearable sensor networks are offering increasing opportunities in fi...
Wearable technology represents a new technological paradigm for promoting physical activity, enablin...
This paper reviews state-of-the-art methods of energy harvesting for implantable and wearable device...
Conventional electrochemical batteries power most of the portable and wireless electronic devices th...
The purpose of this study is to analyze the state-of-art knowledge of the use of energy harvesters (...
This article introduces the various energy harvesting mechanisms that can be used to energize sensin...
The aim of Energy Harvesting is to capture free energy, available without costs, from the environmen...
With the advent of technology miniaturization, portable electronic devices are evolving at a rapid p...
The presence of ubiquitous electronics in wearable devices carried by the user is rapidly growing, a...
The trends in technology allow the decrease in both size and power consumption of complex digital sy...
The paper presents an overview of recent and noninvasive technologies used to harvest electrical ene...
The trends in technology allow the decrease in both size and power consumption of complex digital sy...
Energy harvesting, the process of collecting low level ambient energy and converting it into electri...
Over the past few decades the use of portable and wearable electronics has grown steadily. These dev...
This paper aims to present new trends in energy-harvesting solutions pertaining to wearable sensors ...
Portable electronic systems and wearable sensor networks are offering increasing opportunities in fi...
Wearable technology represents a new technological paradigm for promoting physical activity, enablin...
This paper reviews state-of-the-art methods of energy harvesting for implantable and wearable device...
Conventional electrochemical batteries power most of the portable and wireless electronic devices th...
The purpose of this study is to analyze the state-of-art knowledge of the use of energy harvesters (...
This article introduces the various energy harvesting mechanisms that can be used to energize sensin...
The aim of Energy Harvesting is to capture free energy, available without costs, from the environmen...
With the advent of technology miniaturization, portable electronic devices are evolving at a rapid p...