Add to ORKGIn this work, a commercial flexible thermoelectric generator (f-TEG) was used to harvest the body thermal energy during the execution of activities of daily living (ADL). The f-TEG was placed at the level of the ankle, and the performed activities were sitting at the desk and walking. In the first stage of measurements, tests were performed to choose the value of the resistor load that maximizes the power output. Then, while performing ADL, the values of generated power were in the range from 100 to 450 µW. Moreover, while users are walking, the pattern of the output signal of f-TEG is compatible to a sine function with frequency close to that one of human gait. This preliminary result may represent a new way to study the movement of human ...
This paper explores the heat generated by the human body and the capabilities of wearable thermoelec...
This paper presents a discussion on energy scavenging for wearable devices in conjunction with human...
Society today is governed by the timeline of battery life in electronic devices. Research was done t...
In this work, a commercial flexible thermoelectric generator (f-TEG) was used to harvest the body th...
Wearable devices are commonly used to monitor human movement since motor activity is a fundamental e...
This work analyzes the results of measurements on thermal energy harvesting through a wearable Therm...
This work analyzes the results of measurements on thermal energy harvesting through a wearable Therm...
This work aims to study of possibilities of a realization a device, which will be able to harvest el...
International audienceIn this article, the authors present the energy potential associated with an e...
In this paper, two different piezoelectric transducers-a ceramic piezoelectric, lead zirconate titan...
Using thermal energy harvesting from human body has the potential to create wearable self-powered de...
In this paper, two different piezoelectric transducers—a ceramic piezoelectric, lead zirconate titan...
AbstractHuman power is defined as the use of human work for energy generation to power an electronic...
This paper presents an electromagnetic based generator which is suitable for supplying generating po...
This thesis deals with problematics of using the Energy Harvesting principles for generating power f...
This paper explores the heat generated by the human body and the capabilities of wearable thermoelec...
This paper presents a discussion on energy scavenging for wearable devices in conjunction with human...
Society today is governed by the timeline of battery life in electronic devices. Research was done t...
In this work, a commercial flexible thermoelectric generator (f-TEG) was used to harvest the body th...
Wearable devices are commonly used to monitor human movement since motor activity is a fundamental e...
This work analyzes the results of measurements on thermal energy harvesting through a wearable Therm...
This work analyzes the results of measurements on thermal energy harvesting through a wearable Therm...
This work aims to study of possibilities of a realization a device, which will be able to harvest el...
International audienceIn this article, the authors present the energy potential associated with an e...
In this paper, two different piezoelectric transducers-a ceramic piezoelectric, lead zirconate titan...
Using thermal energy harvesting from human body has the potential to create wearable self-powered de...
In this paper, two different piezoelectric transducers—a ceramic piezoelectric, lead zirconate titan...
AbstractHuman power is defined as the use of human work for energy generation to power an electronic...
This paper presents an electromagnetic based generator which is suitable for supplying generating po...
This thesis deals with problematics of using the Energy Harvesting principles for generating power f...
This paper explores the heat generated by the human body and the capabilities of wearable thermoelec...
This paper presents a discussion on energy scavenging for wearable devices in conjunction with human...
Society today is governed by the timeline of battery life in electronic devices. Research was done t...