Home /Research /A planar compound eye based microsystem for high precision 3D perception
PERCEPTION

A planar compound eye based microsystem for high precision 3D perception

Li Zhang, Haiyang Zhan, Xinyuan Liu, Hongjing Cao, Fei Xing, Zheng You

Year
2024
Citations
29
Access
Open access

Abstract

Abstract Three-dimensional (3D) panoramic vision system plays a fundamental role in the biological perception of external information, and naturally becomes a key system for embodied intelligence to interact with the outside world. A binocular vision system with rotating eyeball has long baseline, large volume and weak sensitivity to motion. A compound eye system has small volume, high sensitivity to motion but poor precision. Here, a planar compound eye microsystem for high precision 3D perception is proposed by combining semiconductor manufacturing process and biological compound eye structure. Using a semiconductor planar image sensor as the sensing unit, a space-coded planar sub-eye array is designed and its sub field of view (FOV) is dynamically mapped to the image sensor. It solves the problem that a traditional vision system cannot simultaneously accommodate wide FOV with long focal length and high sensitivity to motion with high resolution. The parallax among different sub-eyes enables the system to accurately perceive and dynamically track the 3D position of the target in the range of 10 m and within the FOV of 120 ° in a single compound eye. This system is of great significance in the fields of intelligent robot and intelligent perception.

Keywords

Computer visionParallaxArtificial intelligenceCompound eyeComputer sciencePlanarMachine visionSensitivity (control systems)Field of viewProcess (computing)

Related papers

Browse all PERCEPTION papers