2 August 2000 Cost-effective advanced technology telescope system for detecting near-Earth objects and space debris
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We are currently constructing a 0.5-meter and a 1-meter wide-field telescope that will operate in tandem to detect and track Near Earth Objects and space debris. The telescopes have a single flat-plane Cassegrain focus, are optimized for a specific range of wavelengths of light, a small focal ratio with a wide field of view, and hold a single multi-chip CCD camera as their only observational instrument. Because these telescopes are designed for a specific type of observation, the costs of the telescopes are greatly reduced compared to similar sized multipurpose telescopes systems. To achieve high-quality NEO/Space Debris observations, the manufacturers of the telescope systems, CCD cameras, facilities, and software work together to integrate their cutting-edge technologies into a single robust system. In this paper we discuss the strategy, design, and implementation of our manufacturing team approach to building cost-effective advanced technology telescope systems.
© (2000) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Syuzo Isobe, James E. Mulherin, Scott P. Way, Elwood C. Downey, Koichi Nishimura, Izumi Doi, Masatoshi Saotome, "Cost-effective advanced technology telescope system for detecting near-Earth objects and space debris", Proc. SPIE 4004, Telescope Structures, Enclosures, Controls, Assembly/Integration/Validation, and Commissioning, (2 August 2000); doi: 10.1117/12.393942; https://doi.org/10.1117/12.393942


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