Single-pixel neural network object classification of sub-Nyquist ghost imaging

Jia-Ning Cao; Jia-Ning Cao; Yu-Hui Zuo; Hua-Hua Wang; Wei-Dong Feng; Zhi-Xin Yang; Jian Ma; Hao-Ran Du; Lu Gao; Ze Zhang; Ze Zhang

doi:10.1364/AO.438392

Applied Optics
Vol. 60,
Issue 29,
pp. 9180-9187
(2021)
•https://doi.org/10.1364/AO.438392

Single-pixel neural network object classification of sub-Nyquist ghost imaging

Jia-Ning Cao, Yu-Hui Zuo, Hua-Hua Wang, Wei-Dong Feng, Zhi-Xin Yang, Jian Ma, Hao-Ran Du, Lu Gao, and Ze Zhang

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Jia-Ning Cao, Yu-Hui Zuo, Hua-Hua Wang, Wei-Dong Feng, Zhi-Xin Yang, Jian Ma, Hao-Ran Du, Lu Gao, and Ze Zhang, "Single-pixel neural network object classification of sub-Nyquist ghost imaging," Appl. Opt. 60, 9180-9187 (2021)

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- Imaging Systems, Image Processing, and Displays
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About this Article
History
- Original Manuscript: July 21, 2021
- Revised Manuscript: September 13, 2021
- Manuscript Accepted: September 14, 2021
- Published: October 8, 2021

Abstract

A single-pixel neural network object classification scenario in the sub-Nyquist ghost imaging system is proposed. Based on the neural network, objects are classified directly by bucket measurements without reconstructing images. Classification accuracy can still be maintained at 94.23% even with only 16 measurements (less than the Nyquist limit of 1.56%). A parallel computing scheme is applied in data processing to reduce the object acquisition time significantly. Random patterns are used as illumination patterns to illuminate objects. The proposed method performs much better than existing methods for both binary and grayscale images in the sub-Nyquist condition, which is also robust to environment noise turbulence. Benefiting from advantages of ghost imaging, it may find applications for target recognition in the fields of remote sensing, military defense, and so on.

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12 October 2021: Corrections were made to the author affiliations.

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Data Availability

Data underlying the results presented in this paper are available in Refs. [26,27].

26. Y. LeCun, “The MNIST database of handwritten digits,” MNIST OCR Data (1998), http://yann.lecun.com/exdb/mnist/.

27. H. Xiao, K. Rasul, and R. Vollgraf, “Fashion-MNIST: a novel image dataset for benchmarking machine learning algorithms,” arXiv:1708.07747 (2017).

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M	SR (%)	MNIST (%)	Fashion (%)
128	12.5	97.75	88.95
64	6.25	97.25	87.46
32	3.13	94.50	84.48
16	1.56	82.35	79.49
8	0.78	58.17	63.50

SR (%)	Total	Digit 0	Digit 1	Digit 2	Digit 3	Digit 4	Digit 5	Digit 6	Digit 7	Digit 8	Digit 9
12.5	98.50	99.29	99.91	98.84	97.52	98.78	98.88	98.12	98.74	97.64	97.13
6.25	98.39	99.18	99.74	98.26	98.12	98.47	97.20	99.06	98.05	98.36	97.22
3.13	97.76	99.39	99.47	98.55	97.23	97.45	96.86	97.39	97.08	97.23	96.63
1.56	94.23	98.27	98.77	94.09	91.19	94.81	90.36	96.56	93.87	90.76	92.77
0.78	72.38	80.20	94.36	63.57	56.14	81.57	52.02	82.88	72.18	61.50	75.12

SR (%)	Total	T-Shirt	Trouser	Pullover	Dress	Coat	Sandal	Shirt	Sneaker	Bag	Boot
12.5	89.57	88.10	98.20	82.50	87.00	84.00	97.50	67.60	97.20	98.00	95.60
6.25	89.26	87.50	97.60	81.70	89.80	82.20	97.00	67.00	97.40	98.20	94.20
3.13	87.77	82.90	96.40	77.50	89.30	80.00	95.10	68.30	97.70	97.00	93.50
1.56	84.52	83.10	96.00	74.70	86.80	77.00	90.20	56.80	92.60	96.10	92.10
0.78	74.77	71.00	87.70	57.60	76.60	64.20	78.30	48.40	87.20	86.90	89.80

Resolutions	SR (%)	MNIST (%)	Fashion (%)
$32 \times 32$	6.25	98.39	89.26
$48 \times 48$	2.778	98.24	88.99
$64 \times 64$	1.563	98.13	88.97
$128 \times 128$	0.391	97.76	88.54
$256 \times 256$	0.097	97.57	87.78

Database	SR (%)	None	RR	GN
MNIST	12.5	98.50	97.05	95.76
	6.25	98.39	96.80	94.28
	3.13	97.76	95.99	89.52
	1.56	94.23	89.65	75.92
	0.78	72.38	65.68	53.73
Fashion	12.5	89.57	84.79	82.73
	6.25	89.26	84.70	80.62
	3.13	87.77	83.05	77.39
	1.56	84.52	79.68	72.93
	0.78	74.77	64.87	63.16

$σ^{2}$	0.2	0.4	0.6	0.8	1
MNIST	96.93	90.5	80.18	68.77	59.63
Fashion	84.85	77.78	69.32	64.59	57.05

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Applied Optics