Research Progress on Single-Pixel Imaging Lidar via Coherent Detection

Wenlin Gong; Jianfeng Sun; Chenjin Deng; Zhiyong Lu; Yu Zhou; Shensheng Han

doi:10.3788/LOP202158.1011003

Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 10 >Page 1011003 > Article

Laser & Optoelectronics Progress
Vol. 58, Issue 10, 1011003 (2021)

Research Progress on Single-Pixel Imaging Lidar via Coherent Detection

Wenlin Gong^1、2、*†, Jianfeng Sun^3、†, Chenjin Deng², Zhiyong Lu^3、**, Yu Zhou³, and Shensheng Han^2、***

Author Affiliations

¹School of Optoelectronic Science and Engineering, Soochow University, Suzhou, Jiangsu 215006, China

²Key Laboratory for Quantum Optics of CAS, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai, 201800, China

³Key Laboratory of Space Laser Communication and Detection Technology of CAS, Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai, 201800, China

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DOI: 10.3788/LOP202158.1011003 Cite this Article Set citation alerts

Wenlin Gong, Jianfeng Sun, Chenjin Deng, Zhiyong Lu, Yu Zhou, Shensheng Han. Research Progress on Single-Pixel Imaging Lidar via Coherent Detection[J]. Laser & Optoelectronics Progress, 2021, 58(10): 1011003 Copy Citation Text

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Fig. 1. SAIL diagram. (a) Working diagram of stripe airborne SAIL; (b) optical schematic of SAIL

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Fig. 2. Principle demonstration result of SAIL by Air Force Research Lab^[5]. (a) Scheme of experimental system; (b) target; (c) imaging result

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Fig. 3. Airborne SAIL system and experimental results by Lockheed Martin corporation of America^[23]. (a) Picture of airborne testing scene; (b) testing target; (c) imaging result

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Fig. 4. Experimental demonstration of interference SAIL by Montana State University^[45]. (a) Experimental schematic; (b) imaging result

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Fig. 5. Experimental demonstration of SAIL by SIOM^[49-50]. (a) Experimental schematic; (b) testing target; (c) imaging result

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$Experimental demonstration of SAIL based on one-way far-field diffraction in laboratory[54]. (a) Testing target; (b) imaging result$

Fig. 6. Experimental demonstration of SAIL based on one-way far-field diffraction in laboratory^[54]. (a) Testing target; (b) imaging result

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Fig. 7. Airborne down-looking SAIL image^[24]. (a) Photograph of the target; (b) two-dimensional SAIL focus image

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Fig. 8. Schematic of ghost imaging lidar via coherent detection^[20]

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Fig. 9. Simulation results of ghost imaging via coherent detection for moving targets^[20]

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Fig. 10. Simulation results of the influence of irradiation signal-to-noise ratio to ghost imaging lidar with different detection modes^[21]. (a) Narrow pulsed ghost imaging lidar; (b) heterodyne ghost imaging lidar; (c) ghost imaging lidar via coherent detection

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Fig. 11. Experimental results of ghost imaging via coherent detection in different receiving echo powers^[22]. (a) Experimental schematic of ghost imaging via coherent detection; (b) reconstruction results of ghost imaging in different receiving echo powers

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Fig. 12. Experimental results of ghost imaging for micro-vibration target^[67]. (a) Experimental schematic; (b) recovered micro-vibration of the target; (c) testing target; (d) reconstruction result

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