Topics
AtmehPlace
A presentation of Performance Analysis of Triboelectric Energy Harvester Designs for Knee Implants by Mohammad Atmeh
With the development of wearable technology, much research has been undertaken in the field of flexi...
Total knee arthroplasty (TKA) is a common procedure in the United States; it has been estimated that...
This paper describes a miniaturized electromechanical generator, integrable in a human total knee pr...
A presentation of Performance Analysis of Triboelectric Energy Harvester Designs for Knee Implants ...
Triboelectric energy harvesting is a relatively new technology showing promise for biomedical applic...
Although the number of total knee replacement (TKR) surgeries is growing rapidly, functionality and ...
Instrumented implants provide the potential to measure the in vivo tibiofemoral forces that are tran...
International audienceThe goal of our paper is to quantify the electrical energy that can be harvest...
In this article, first integrated circuit (IC) implementation of parallel synchronized switching har...
The reduced power requirements of miniaturized electronics offer the opportunity to create devices w...
Human-based energy harvesters are attractive as sustainable replacements for batteries to power wear...
This paper describes an electromechanical generator, implantable in a human Total Knee Prosthesis (T...
Piezoelectric energy harvesting from human motion is challenging because of the low energy conversio...
The energy generation inside the human body represents a crucial aspect for powering implantable mea...
Monitoring the internal loads acting in a total knee prosthesis (TKP) is fundamental aspect to impro...
With the development of wearable technology, much research has been undertaken in the field of flexi...
Total knee arthroplasty (TKA) is a common procedure in the United States; it has been estimated that...
This paper describes a miniaturized electromechanical generator, integrable in a human total knee pr...
A presentation of Performance Analysis of Triboelectric Energy Harvester Designs for Knee Implants ...
Triboelectric energy harvesting is a relatively new technology showing promise for biomedical applic...
Although the number of total knee replacement (TKR) surgeries is growing rapidly, functionality and ...
Instrumented implants provide the potential to measure the in vivo tibiofemoral forces that are tran...
International audienceThe goal of our paper is to quantify the electrical energy that can be harvest...
In this article, first integrated circuit (IC) implementation of parallel synchronized switching har...
The reduced power requirements of miniaturized electronics offer the opportunity to create devices w...
Human-based energy harvesters are attractive as sustainable replacements for batteries to power wear...
This paper describes an electromechanical generator, implantable in a human Total Knee Prosthesis (T...
Piezoelectric energy harvesting from human motion is challenging because of the low energy conversio...
The energy generation inside the human body represents a crucial aspect for powering implantable mea...
Monitoring the internal loads acting in a total knee prosthesis (TKP) is fundamental aspect to impro...
With the development of wearable technology, much research has been undertaken in the field of flexi...
Total knee arthroplasty (TKA) is a common procedure in the United States; it has been estimated that...
This paper describes a miniaturized electromechanical generator, integrable in a human total knee pr...
Add to ORKG