WhitepaperGlobal Shutter Solid State Flash LIDAR for Spacecraft Navigation and Docking Applications

Authors: Beth A. Sornsin, Bradley W. Short, Tyler N. Bourbeau, and Michael J. Dahlin
Advanced Scientific Concepts, Inc., 135 E. Ortega Street, Santa Barbara, CA, USA 93101

INTRODUCTION

Robust relative navigation systems and sensors are required to ensure successful unmanned spacecraft-to-small celestial body (asteroids, comets), manned / unmanned spacecraft-to-manned / unmanned spacecraft proximal/docking operations, and planetary body entry, decent, and landing (EDL) missions. Within the last 5 years, global shutter flash LIDAR has emerged as the sensor of choice for these relative navigation mission domains. Compared to other LIDAR modalities, global shutter flash LIDARs have superior size, weight, and power (SWaP) performance, are capable of generating real time scene depth maps and simultaneously track multiple objects. Two of the first operational space programs to use global shutter flash LIDAR relative navigational sensors designed and manufactured by Advanced Scientific Concepts LLC (ASC) are the NASA / Lockheed Martin OSRIS-Rex and NASA / Boeing’s CST-100 Starliner (Crew Space Transportation) missions.

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Advanced Scientific Concepts LLC (ASC) is a leading provider of real time, global shutter, solid-state, 3D flash LIDAR (3DFL) ranging/imaging systems. Our 3DFL technology offers superior distortion free scene range/intensity mapping capabilities required for real time mapping, guidance navigation & control, situational awareness, tracking, and augmented reality applications.

135 E. Ortega Street, Santa Barbara, CA  93101
1-805-966-3331
info@asc3d.com