Abstract
In-ear devices, such as a hearing aids, electronic earplugs, and wearables, need electrical power to operate. Batteries are the current solution, but unfortunately they also create other problems. For example, several hundred million users, mostly elderly, must change their hearing aid batteries on a weekly basis, which represents not only significant financial costs but a negative environmental impact. A promising alternative involves harvesting energy by converting the dynamic jaw movements into electrical energy via the earcanal. The extent that jaw movements distort the earcanal is still unknown, making it difficult to design the appropriate energy harvesting system for the earplug. Moreover, the finite element methods are barely capable to model the behavior of the earcanal distortion because of the complexity of mechanisms that deform the earcanal. However, this paper presents an alternative method, based on analytical considerations, to understand in-ear mechanical quasi-static deformations using earcanal point clouds. This model quantifies the bending and compressive movements of the earcanal. It can therefore be used to select an appropriate deformation mode for harvesting energy from the earcanal’s dynamic motion. The value of this approach was illustrated by calculating the obtainable mechanical energy from 12 human subjects. On average, the bending energy in a human earcanal was found to be three times greater than the radial compression energy. This key finding will need to be considered in the design of future in-ear energy harvesting devices. Such an energy harvesting device has the potential to revolutionize the market for in-ear wearable devices and hearing aids by complementing or replacing battery technology.
Highlights
Hearing aids are electronic devices and need a power supply to ensure their operation
For in-ear devices, including hearing aids, electronic earplugs, and other wearables, jaw-joint movement appears to be a promising source of mechanical energy
Mechanical modeling of an earplug subjected to the earcanal distortion produced the Equations (9) and (22). These equations are used to understand the behavior of a custom earplug that is within the earcanal during jaw movement
Summary
Hearing aids are electronic devices and need a power supply to ensure their operation. One of the factors that deteriorate the user’s experience is the use of batteries and this is a major challenge for the design of in-ear devices. In addition to the inconvenience and cost, batteries represent a detrimental environmental impact. Various rechargeable battery technologies exist, but the low efficiency and power capacity of rechargeable batteries require that hearing aids be larger or recharged more frequently. Hearing aids should be self-powered, that is, able to harvest the energy they require from their environment. For in-ear devices, including hearing aids, electronic earplugs, and other wearables, jaw-joint movement appears to be a promising source of mechanical energy
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