Interspacecraft Optical Communication and Navigation Using Modulating Retroreflectors
N. Glenn Creamer, G. C. Gilbreath, Timothy J. Meehan, Michael J. Vilcheck, John A. Vasquez, William S. Rabinovich, Peter G. Goetz, Rita Mahon
- Year
- 2004
- Citations
- 7
Abstract
A novel concept is described for optical interrogation, communication, and navigation between pursuer and target spacecraft platforms. The technique uses a gimbaled laser source on the pursuer spacecraft and an array of eight solid-state, multiple quantum, well modulating retroreflectors on the target spacecraft. The sensor system provides high-bandwidth optical communication, centimeter-level relative positioning, and arc-minute-level relative orientation of the target platform with minimal sacrifice in target size, weight, and power. To accomplish the relative navigation, each target retroreflected signal is modulated with a unique code sequence, allowing for individual discrimination of the returned composite signal from a single photodetector on the pursuer platform. Experimental results using a dual-platform, multi-degree-of-freedom robotics testbed provide verification and demonstration of the concept, highlighting its potential for applications such as interspacecraft rendezvous and capture, long-baseline space interferometry, and formation flying.
Keywords
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