Aperture sharing between low-background infrared sensors and ladar sensors

1996 IEEE Aerospace Applications Conference. Proceedings Pub Date : 1996-02-03 DOI:10.1109/AERO.1996.499683

W. T. Roberts, P. Levan

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Abstract

The sharing of a common aperture for both ladar pulse transmission and reception; and passive sensor surveillance, acquisition, and tracking, presents many unique challenges. Performance assessments based on fielded optical systems of this type are few. Our particular application (the BMDO Advanced Sensor Technology Program-ASTP for enhanced theater missile defense capability) calls for the sharing of common optics between a MWIR and LWIR, relatively low-background passive sensor, and a ladar for which the operational wavelength has not been selected. This paper describes the advantages and technical challenges associated with our shared optics application, reviews the state of the art in this area, and derives constraints on system designs. Briefly, we find that the shared aperture approach enjoys the obvious advantages of reduced size and weight, and simplifies handover of targets from the passive sensor to the ladar sensor. These advantages must be traded against potential passive sensor performance degradation in the areas of reduced duty cycle, increased noise floor, and reduced sensitivity.

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低背景红外传感器与雷达传感器孔径共享

雷达脉冲发射和接收共用一个孔径;而无源传感器的监视、获取和跟踪，提出了许多独特的挑战。基于这种类型的野外光学系统的性能评估很少。我们的特殊应用(BMDO用于增强战区导弹防御能力的先进传感器技术计划- astp)要求在MWIR和LWIR、相对低背景无源传感器和尚未选择工作波长的雷达之间共享公共光学器件。本文描述了与我们的共享光学应用相关的优势和技术挑战，回顾了该领域的最新进展，并得出了系统设计的限制。简而言之，我们发现共享孔径方法具有明显的减小尺寸和重量的优点，并且简化了目标从无源传感器到雷达传感器的切换。这些优势必须与潜在的无源传感器性能下降进行交换，这些性能下降包括占空比降低、本底噪声增加和灵敏度降低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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1996 IEEE Aerospace Applications Conference. Proceedings

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