Low-cost compact ladar sensor for ground robots

Barry L. Stann; John F. Dammann; Mark M. Giza; Richard R. Gregory; Pey-Schuan Jian; William B. Lawler

doi:10.1117/12.818135

2 May 2009 Low-cost compact ladar sensor for ground robots

Barry L. Stann, John F. Dammann, Mark M. Giza, Richard R. Gregory, Pey-Schuan Jian, William B. Lawler

Proceedings Volume 7323, Laser Radar Technology and Applications XIV; 73230X (2009) https://doi.org/10.1117/12.818135
Event: SPIE Defense, Security, and Sensing, 2009, Orlando, Florida, United States

Abstract

The Army Research Laboratory (ARL) is researching a short-range ladar imager for small unmanned ground vehicles for navigation, obstacle/collision avoidance, and target detection and identification. To date, commercial ladars for this application have been flawed by one or more factors including, low pixelization, insufficient range or range resolution, image artifacts, no daylight operation, large size, high power consumption, and high cost. The ARL conceived a scanned ladar design based on a newly developed but commercial MEMS mirror and a pulsed Erbium fiber laser. The desired performance includes a 6 Hz frame rate, an image size of 256 (h) × 128 (v) pixels, a 60° × 30° field of regard, 20 m range, eyesafe operation, and 40 cm range resolution (with provisions for super-resolution or accuracy). The ladar will be integrated on an iRobot PackBot. To date, we have built and tested the transceiver when mounted in the PackBot armmounted sensor head. All other electronics including the data acquisition and signal processing board, the power distribution board, and other smaller ancillary boards are built and operating. We are now operating the ladar and working on software development. This paper will describe the ladar design and progress in its development and performance.

Citation Download Citation

Barry L. Stann, John F. Dammann, Mark M. Giza, Richard R. Gregory, Pey-Schuan Jian, and William B. Lawler "Low-cost compact ladar sensor for ground robots", Proc. SPIE 7323, Laser Radar Technology and Applications XIV, 73230X (2 May 2009); https://doi.org/10.1117/12.818135

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