Shift-encoded optically multiplexed imaging

Author(s)

Shah, Vinay N.; Rachlin, Yaron; Shepard III, R. Hamilton; Shih, Tina

Abstract

In a multiplexed image, multiple fields-of-view (FoVs) are superimposed onto a common focal plane. The attendant gain in sensor FoV provides a new degree of freedom in the design of an imaging system, allowing for performance tradeoffs not available in traditional optical designs. We explore design choices relating to a shift-encoded optically multiplexed imaging system and discuss their performance implications. Unlike in a traditional imaging system, a single multiplexed image has a fundamental ambiguity regarding the location of objects in the image. We present a system that can shift each FoV independently to break this ambiguity and compare it to other potential disambiguation techniques. We then discuss the optical, mechanical, and encoding design choices of a shift-encoding midwave infrared imaging system that multiplexes six 15×15  deg FoVs onto a single one megapixel focal plane. Using this sensor, we demonstrate a computationally demultiplexed wide FoV video.

Date issued

2017-03

URI

http://hdl.handle.net/1721.1/109975

Department

Lincoln Laboratory

Journal

Optical Engineering

Publisher

SPIE

Citation

Shah, Vinay; Rachlin, Yaron; Shepard, R. Hamilton and Shih, Tina. “Shift-Encoded Optically Multiplexed Imaging.” Optical Engineering 56, no. 4 (March 2017): 041314 © 2017 Society of Photo-Optical Instrumentation Engineers

Version: Final published version

ISSN

0091-3286