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Bibliographic Details
Main Authors: Wang, Changyu, Xu, Yuan, Xu, Hong, Liu, Juan
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.08636
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author Wang, Changyu
Xu, Yuan
Xu, Hong
Liu, Juan
author_facet Wang, Changyu
Xu, Yuan
Xu, Hong
Liu, Juan
contents Near-eye display plays an important role in emerging spatial computing systems, providing a distinctive visual effect of virtual-real fusion. However, its application for all-day wear is greatly limited by the bulky structure, energy expenditure, and continuous battery heating. Here, we propose a lightweight holographic near-eye display system that takes advantage of solar energy for self-charging. To achieve the collection of solar energy and near-eye display without crosstalk, holographic optical elements (HOE) are used to diffract sunlight and signal light into a common waveguide. Then, small-area solar cells convert the collected solar energy and power the system. Compact power supply components replace heavy batteries, contributing to the lightweight design. The simple acquisition of solar energy provides the system with sustainable self-charging capability. We believe that the lightweight design and continuous energy input solution will significantly promote the popularity of near-eye display in our daily lives.
format Preprint
id arxiv_https___arxiv_org_abs_2411_08636
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Lightweight holographic near-eye display system with self-charging capability using solar energy
Wang, Changyu
Xu, Yuan
Xu, Hong
Liu, Juan
Optics
Near-eye display plays an important role in emerging spatial computing systems, providing a distinctive visual effect of virtual-real fusion. However, its application for all-day wear is greatly limited by the bulky structure, energy expenditure, and continuous battery heating. Here, we propose a lightweight holographic near-eye display system that takes advantage of solar energy for self-charging. To achieve the collection of solar energy and near-eye display without crosstalk, holographic optical elements (HOE) are used to diffract sunlight and signal light into a common waveguide. Then, small-area solar cells convert the collected solar energy and power the system. Compact power supply components replace heavy batteries, contributing to the lightweight design. The simple acquisition of solar energy provides the system with sustainable self-charging capability. We believe that the lightweight design and continuous energy input solution will significantly promote the popularity of near-eye display in our daily lives.
title Lightweight holographic near-eye display system with self-charging capability using solar energy
topic Optics
url https://arxiv.org/abs/2411.08636