Abstract
Cameras for imaging in short and mid-wave infrared spectra are significantly more expensive than their counterparts in visible imaging. As a result, high-resolution imaging in those spectrum remains beyond the reach of most consumers. Over the last decade, compressive sensing (CS) has emerged as a potential means to realize inexpensive short-wave infrared cameras. One approach for doing this is the single-pixel camera (SPC) where a single detector acquires coded measurements of a high-resolution image. A computational reconstruction algorithm is then used to recover the image from these coded measurements. Unfortunately, the measurement rate of a SPC is insufficient to enable imaging at high spatial and temporal resolutions. We present a focal plane array-based compressive sensing (FPA-CS) architecture that achieves high spatial and temporal resolutions. The idea is to use an array of SPCs that sense in parallel to increase the measurement rate, and consequently, the achievable spatio-temporal resolution of the camera. We develop a proof-of-concept prototype in the short-wave infrared using a sensor with 64$\times$ 64 pixels; the prototype provides a 4096$\times$ increase in the measurement rate compared to the SPC and achieves a megapixel resolution at video rate using CS techniques.
Highlights
The cost of a high-resolution sensors in the visible spectrum has fallen dramatically over the last decade
We present a focal plane array-based compressive sensing (FPA-CS) architecture that achieves high spatial and temporal resolutions
A cellphone camera module boasting a sensor with several megapixels costs little more than a few dollars.This trend is fueled by the fact that silicon is sensitive to the visible region of the electromagnetic spectrum and the scaling trends and advances made in silicon-based semiconductor fabrication directly benefit visible imaging technologies
Summary
The cost of a high-resolution sensors in the visible spectrum has fallen dramatically over the last decade. A cellphone camera module boasting a sensor with several megapixels costs little more than a few dollars.This trend is fueled by the fact that silicon is sensitive to the visible region of the electromagnetic spectrum and the scaling trends and advances made in silicon-based semiconductor fabrication directly benefit visible imaging technologies. The cost of a megapixel sensor in the SWIR regime is still greater than tens of thousands dollars Despite their immense potential, high-resolution SWIR cameras are beyond the reach of engineers and scientists in application domains that could most benefit from its use. We develop a prototype FPA-CS camera in SWIR and demonstrate capturing 1 megapixel images at video rate, far exceeding the capabilities of current methods
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