Correction to: The Image Definition Assessment of Optoelectronic Tracking Equipment Based on the BRISQUE Algorithm with Gaussian Weights (Sensors, (2023), 23, 3, (1621), 10.3390/s23031621)

doi:10.3390/s23146323

CIOMP OpenIR

	Correction to: The Image Definition Assessment of Optoelectronic Tracking Equipment Based on the BRISQUE Algorithm with Gaussian Weights (Sensors, (2023), 23, 3, (1621), 10.3390/s23031621)
	N. Zhang and C. Lin
	2023
ISSN	14248220
卷号	23 期号:14
摘要	There was an error in the original publication [1]. There are some problems with the order of references cited in the original publication. Corrections need to be made. The specific order of reference changes is as follows: The original [29] becomes the current [31]: Han, L.; Lv, H.; Zhao, Y.; Liu, H.; Bi, G.; Yin, Z.; Fang, Y. Conv-Former: A Novel Network Combining Convolution and Self-Attetion for Image Quality Assessment. Sensors 2023, 23, 427. Han, L.; Lv, H.; Zhao, Y.; Liu, H.; Bi, G.; Yin, Z.; Fang, Y. Conv-Former: A Novel Network Combining Convolution and Self-Attetion for Image Quality Assessment. Sensors 2023, 23, 427. The original [30] becomes the current [29]: Mittal, A.; Soundararajan, R.; Bovik, A.C. Making a "Completely Blind" Image Quality Analyzer. IEEE Signal Process. Lett. 2013, 20, 209–212. Mittal, A.; Soundararajan, R.; Bovik, A.C. Making a "Completely Blind" Image Quality Analyzer. IEEE Signal Process. Lett. 2013, 20, 209–212. The original [31] becomes the current [30]: Li, C.; Bovik, A.C.;Wu, X. Blind Image Quality Assessment Using a General Regression Neural Network. IEEE Trans. Neural Netw. 2011, 22, 793–799. Li, C.; Bovik, A.C.;Wu, X. Blind Image Quality Assessment Using a General Regression Neural Network. IEEE Trans. Neural Netw. 2011, 22, 793–799. The original [32] becomes the current [34]: Varga, D. No-Reference Video Quality Assessment Using the Temporal Statistics of Global and Local Image Features. Sensors 2022, 22, 9696. Varga, D. No-Reference Video Quality Assessment Using the Temporal Statistics of Global and Local Image Features. Sensors 2022, 22, 9696. The original [33] becomes the current [32]: Ruderman, D.L. The Statistics of Natural Images. Netw. Comput. Neural Syst. 1994, 5, 517–548. Ruderman, D.L. The Statistics of Natural Images. Netw. Comput. Neural Syst. 1994, 5, 517–548. The original [34] becomes the current [33]: Simoncelli, E.P.; Freeman, W.T.; Adelson, E.H.; Heeger, D.J. Shiftable Multiscale Transforms. IEEE Trans. Inf. Theory 1992, 38, 587–607. Simoncelli, E.P.; Freeman, W.T.; Adelson, E.H.; Heeger, D.J. Shiftable Multiscale Transforms. IEEE Trans. Inf. Theory 1992, 38, 587–607. A correction has been made to "Order of references" Ruderman et al. found that the luminance of natural image normalization tends to follow a normal (Gaussian) distribution [32]. They posit that the distortion of an image changes the statistical characteristics of the normalization coefficient. By measuring the changes in the statistical characteristics, the distortion type can be predicted and the image visual quality can be evaluated [33]. Based on this theory, Mr. Mittal put forward the BRISQUE algorithm [28], which is based on the image spatial statistical characteristics. Ronin Institute et al. apply a broad spectrum of statistics of local and global features to characterize the variety of possible video distortions [34]. The authors state that the scientific conclusions are unaffected. This correction was approved by the Academic Editor. The original publication has also been updated. © 2023 by the authors.
DOI	10.3390/s23146323
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收录类别	ei
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文献类型	期刊论文
条目标识符	http://ir.ciomp.ac.cn/handle/181722/68191
专题	中国科学院长春光学精密机械与物理研究所
推荐引用方式 GB/T 7714	N. Zhang and C. Lin. Correction to: The Image Definition Assessment of Optoelectronic Tracking Equipment Based on the BRISQUE Algorithm with Gaussian Weights (Sensors, (2023), 23, 3, (1621), 10.3390/s23031621)[J],2023,23(14).
APA	N. Zhang and C. Lin.(2023).Correction to: The Image Definition Assessment of Optoelectronic Tracking Equipment Based on the BRISQUE Algorithm with Gaussian Weights (Sensors, (2023), 23, 3, (1621), 10.3390/s23031621).,23(14).
MLA	N. Zhang and C. Lin."Correction to: The Image Definition Assessment of Optoelectronic Tracking Equipment Based on the BRISQUE Algorithm with Gaussian Weights (Sensors, (2023), 23, 3, (1621), 10.3390/s23031621)".23.14(2023).

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