Time-encoded single-pixel 3D imaging

TL;DR

This paper introduces a high-speed 3D imaging method using single-pixel detectors and structured infrared illumination, enabling real-time capture of dynamic events at 500,000 fps, surpassing traditional camera speed limits.

Contribution

The proposed TESP-3D method achieves ultra-high frame rate 3D imaging of fast-moving objects using single-pixel sensors and active infrared structured illumination.

Findings

Achieved 3D imaging at 500,000 fps.

Captured objects moving at up to 25 m/s.

Demonstrated potential for industrial high-speed inspection.

Abstract

Recently three-dimensional (3D) imaging achieves tremendous success in consumer and industrial manufacturing. However, current 3D imaging methods rarely observe dynamical events happening in a short time interval due to the imaging speed limitation. Here we propose a time-encoded single-pixel 3D (TESP-3D) imaging method based on active infrared imaging with high-speed structured illumination, which can acquire the 3D information of dynamic events at an ultra-high frame rate. This method uses single-pixel photodetectors instead of conventional CCD or CMOS devices as the imaging sensors to overcome the image capturing speed limitation. As a proof of concept, we perform continuous real-time 3D scanning imaging at a record 500,000 fps and acquire 3D information of objects moving at a speed of up to 25 m/s. We anticipate that this technology will have important applications in industrial on-line inspection and high throughput 3D screening.