Design and fabrication of an autonomous rendezvous and docking sensor using off-the-shelf hardware
Abstract
NASA Marshall Space Flight Center (MSFC) has developed and tested an engineering model of an automated rendezvous and docking sensor system composed of a video camera ringed with laser diodes at two wavelengths and a standard remote manipulator system target that has been modified with retro-reflective tape and 830 and 780 mm optical filters. TRW has provided additional engineering analysis, design, and manufacturing support, resulting in a robust, low cost, automated rendezvous and docking sensor design. We have addressed the issue of space qualification using off-the-shelf hardware components. We have also addressed the performance problems of increased signal to noise ratio, increased range, increased frame rate, graceful degradation through component redundancy, and improved range calibration. Next year, we will build a breadboard of this sensor. The phenomenology of the background scene of a target vehicle as viewed against earth and space backgrounds under various lighting conditions will be simulated using the TRW Dynamic Scene Generator Facility (DSGF). Solar illumination angles of the target vehicle and candidate docking target ranging from eclipse to full sun will be explored. The sensor will be transportable for testing at the MSFC Flight Robotics Laboratory (EB24) using the Dynamic Overhead Telerobotic Simulator (DOTS).
- Publication:
-
Automated Rendezvous and Capture Review. Executive Summary
- Pub Date:
- 1991
- Bibcode:
- 1991arcr.nasaR....G
- Keywords:
-
- Autonomy;
- Breadboard Models;
- Fabrication;
- Orbital Rendezvous;
- Remote Manipulator System;
- Signal To Noise Ratios;
- Spacecraft Docking;
- Cameras;
- Illuminating;
- Low Cost;
- Optical Filters;
- Phenomenology;
- Spacecraft Design, Testing and Performance