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Quantum Information Processing

Erschienen in:

01.01.2016

A survey of quantum image representations

verfasst von: Fei Yan, Abdullah M. Iliyasu, Salvador E. Venegas-Andraca

Erschienen in: Quantum Information Processing | Ausgabe 1/2016

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Abstract

Quantum image processing (QIMP) is devoted to utilizing the quantum computing technologies to capture, manipulate, and recover quantum images in different formats and for different purposes. Logically, percolating this requires that representations to encode images based on the quantum mechanical composition of any potential quantum computing hardware be conjured. This paper gathers the current mainstream quantum image representations (QIRs) and discusses the advances made in the area. Some similarities, differences, and likely applications for some of the available QIRs are reviewed. We believe this compendium will provide the readership an overview of progress witnessed in the area of QIMP while also simulating further interest to pursue more advanced research in it.

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Ahmad, A., Chandler, J.: Photogrammetric capabilities of the kodak dc40, dcs420, and dcs460 digital cameras. Photogramm. Rec. 16(94), 605–615 (1999)CrossRef

Akhshani, A., Akhavan, A., Lim, S., Hassan, Z.: An image encryption scheme based on quantum logistic map. Commun. Nonlinear Sci. Numer. Simul. 17(12), 4653–4661 (2012)MathSciNetCrossRefADSMATH

Batouche, M., Meshoul, S., Hussaini, A.: Image processing using quantum computing and reverse emergence. Int. J. Nano Biomater. 2(1–2), 136–142 (2009)CrossRef

Beach, G., Lomont, C., Cohen, C.: Quantum image processing (quip). In: Proceedings of the 32nd Applied Imagery Pattern Recognition Workshop, pp. 39–44 (2003)

Benatchba, K., Koudil, M., Yacine, B., Benkhelat, N.: Image segmentation using quantum genetic algorithms. In: Conference of the IEEE Industrial Electronics Society, pp. 3556–3563 (2006)

Bhattacharyya, S., Pal, P., Bhowmick, S.: Binary image denoising using a quantum multilayer self organizing neural network. Appl. Soft Comput. 24, 717–729 (2014)CrossRef

Bi, X., Jin, G.: Image segmentation algorithm based on quantum immune programming. In: IEEE International Conference on Integration Technology, pp. 403–407 (2007)

Borkin, M., Vo, A., Bylinskii, Z., Isola, P., Sunkavalli, S., Oliva, A., Pfister, H.: What makes a visualization memorable? IEEE Trans. Visual Comput. Graphics 19(12), 2306–2315 (2013)CrossRef

Boyer, M., Brassard, G., Høyer, P., Tapp, A.: Tight bounds on quantum searching. Fortschr. Phys. 46(4–5), 493–505 (1998)CrossRef

10.

Caraiman, S., Manta, V.: Image processing using quantum computing. In: 16th International Conference on System Theory, Control and Computing (ICSTCC), pp. 1–6 (2012)

11.

Caraiman, S., Manta, V.: Quantum image filtering in the frequency domain. Adv. Electr. Comput. Eng. 13(3), 77–84 (2013)CrossRef

12.

Caraiman, S., Manta, V.: Histogram-based segmentation of quantum images. Theoret. Comput. Sci. 529, 46–60 (2014)MathSciNetCrossRefMATH

13.

Caraiman, S., Manta, V.: Image segmentation on a quantum computer. Quantum Inf. Process. 14(5), 1693–1715 (2015)MathSciNetCrossRefADS

14.

Center for Distributed Quantum Information, US Army Research Laboratory. http://www.arl.army.mil/www/default.cfm?page=2424

15.

Corp., S.: Tech specs of the Sony Cyber-shot DSC-HX90V camera. http://www.dpreview.com/products/sony/compacts/sony_dschx90v/ (2015)

16.

Deutsch, D.: Quantum theory, the church-turing principle and the universal quantum computer. Proc. R. Soc. Lond. A 400, 97–117 (1985)

17.

Dougherty, G.: Digital Image Processing for Medical Applications. Cambridge University Press, Cambridge (2009)

18.

Dubey, R., Singh, R., Jain, S., Jadon, R.: Quantum methodology for edge detection: a compelling approach to enhance edge detection in digital image processing. In: 5th International Conference-Confluence the Next Generation Information Technology Summit, pp. 631–636 (2014)

19.

Eklund, A., Dufort, P., Forsberg, D., LaConte, S.: Medical image processing on the GPu—past, present and future. Med. Image Anal. 17(8), 1073–1094 (2013)CrossRef

20.

Feynman, R.: Simulating physics with computers. Int. J. Theor. Phys. 21(6–7), 467–488 (1982)MathSciNetCrossRef

21.

Fijany, A., Williams, C.: Quantum wavelet transforms: fast algorithms and complete circuits. In: 1st NASA International Conference on Quantum Computing and Quantum Communications, pp. 10–33 (1998)

22.

García García, J., Venegas-Andraca, S.: Region-based approach for the spectral clustering nyström approximation with an application to burn depth assessment. Mach. Vis. Appl. 6(2), 353–368 (2015)CrossRef

23.

Georgescu, I., Ashhab, S., Nori, F.: Quantum simulation. Rev. Mod. Phys. 86(1), 153–185 (2014)CrossRefADS

24.

Goggin, M., Sundaram, B., Milonni, P.: Quantum logistic map. Phys. Rev. A 41, 5705–5708 (1990)MathSciNetCrossRefADS

25.

Grover, L.: A fast quantum mechanical algorithm for database search. In: Proceedings of the 28th Annual ACM Symposium on Theory of Computing, pp. 212–219 (1996)

26.

Grover, L.: Quantum mechanics helps in searching for a needle in a haystack. Phys. Rev. Lett. 79(2), 325–328 (1997)CrossRefADS

27.

Hales, L., Hallgren, S.: An improved quantum fourier transform algorithm and applications. In: 41st Annual Symposium on Foundations of Computer science, pp. 515–525 (2000)

28.

Hu, B., Huang, X., Zhou, R., Wei, Y., Wan, Q., Pang, C.: A theoretical framework for quantum image representation and data loading scheme. Sci. China Info. Sci. 57(3), 1–11 (2014)CrossRef

29.

Hu, S.: Quantum neural network for image watermarking. Adv. Neural Netw. ISNN 2004(3174), 669–674 (2004)

30.

Hua, T., Chen, J., Pei, D., Zhang, W., Zhou, N.: Quantum image encryption algorithm based on image correlation decomposition. Int. J. Theor. Phys. 54(2), 526–537 (2015)CrossRef

31.

Iliyasu, A.: Towards realising secure and efficient image and video processing applications on quantum computers. Entropy 15, 2874–2974 (2013)MathSciNetCrossRefADS

32.

Iliyasu, A., Le, P., Dong, F., Hirota, K.: A framework for quantum movie representation and production. In: Proceedings of the 2nd International Conference on Quantum Information and Technology (ICQIT 2010), pp. 17–17 (2010)

33.

Iliyasu, A., Le, P., Dong, F., Hirota, K.: A framework for representing and producing movies on quantum computers. Int. J. Quantum Info. 9(6), 1459–1497 (2011)CrossRefMATH

34.

Iliyasu, A., Le, P., Dong, F., Hirota, K.: Watermarking and authentication of quantum images based on restricted geometric transformations. Inf. Sci. 186(1), 126–149 (2012)MathSciNetCrossRefMATH

35.

Iliyasu, A., Le, P., F., D., Hirota, K.: Restricted geometric transformations and their applications for quantum image watermarking and authentication. In: Proceeding of the 10th Asian Conference on Quantum Information Sciences (AQIS 2010), pp. 96–97 (2010)

36.

Iliyasu, A., Le, P., Yan, F., Sun, B., Garcia, J., Dong, F., Hirota, K.: Insights into the viability of using available photonic quantum technologies for efficient image and video processing applications. Int. J. Unconv. Comput. 9(1–2), 125–151 (2013)

37.

Iliyasu, A., Le, P., Yan, F., Sun, B., Garcia, J., Dong, F., Hirota, K.: A two-tier scheme for greyscale quantum image watermarking and recovery. Int. J. Innovative Comput. Appl. 5(2), 85–101 (2013)CrossRef

38.

Iliyasu, A., Venegas-Andraca, S., Yan, F., Sayed, A.: Hybrid quantum-classical protocol for storage and retrieval of discrete-valued information. Entropy 16(6), 3537–3551 (2014)CrossRefADS

39.

Ireland, J., Young, A.: Solar Image Analysis and Visualization. Springer, Berlin (2009)CrossRef

40.

Jiang, N., Wang, L.: Analysis and improvement of the quantum Arnold image scrambling. Quantum Inf. Process. 13(7), 1545–1551 (2014)MathSciNetCrossRefADSMATH

41.

Jiang, N., Wang, L.: A novel strategy for quantum image steganography based on moir\(\acute{e}\) pattern. Int. J. Theor. Phys. 54(3), 1021–1032 (2015)CrossRef

42.

Jiang, N., Wang, L.: Quantum image scaling using nearest neighbor interpolation. Quantum Inf. Process. 14(5), 1559–1571 (2015)MathSciNetCrossRefADS

43.

Jiang, N., Wang, L., Wu, W.: Quantum hilbert image scrambling. Int. J. Theor. Phys. 53(7), 2463–2484 (2014)CrossRefMATH

44.

Jiang, N., Wu, W., Wang, L.: The quantum realization of arnold and fibonacci image scrambling. Quantum Inf. Process. 13(5), 1223–1236 (2014)MathSciNetCrossRefADSMATH

45.

Jiang, N., Wu, W., Wang, L., Zhao, N.: Quantum image pseudocolor coding based on the density-stratified method. Quantum Inf. Process. 14(5), 1735–1755 (2015)MathSciNetCrossRefADS

46.

Jiang, N., Zhao, N., Wang, L.: Lsb based quantum image steganography algorithm. Int. J. Theor. Phys. (2015). doi:10.1007/s10773-015-2640-0

47.

Klappenecker, A., Rotteler, M.: Discrete cosine transforms on quantum computers. In: Proceedings of the 2nd International Symposium on Image and Signal Processing and Analysis, pp. 464–468 (2001)

48.

Lanzagorta, M.: Quantum Radar. Morgan and Claypool, Los Altos, CA (2011)

49.

Latorre, J.: Image Compression and Entanglement. arXiv:quant-ph/0510031 (2005)

50.

Le, P., Dong, F., Hirota, K.: Flexible representation of quantum images and its computational complexity analysis. In: Proceedings of the 10th Symposium on Advanced Intelligent Systems (ISIS 2009), pp. 146–149 (2009)

51.

Le, P., Dong, F., Hirota, K.: A flexible representation of quantum images for polynomial preparation, image compression, and processing operations. Quantum Inf. Process. 10(1), 63–84 (2011)MathSciNetCrossRefMATH

52.

Le, P., Iliyasu, A., Dong, F., Hirota, K.: Fast geometric transformations on quantum images. IAENG Int. J. Appl. Math. 40(3), 113–123 (2010)MathSciNetMATH

53.

Le, P., Iliyasu, A., Dong, F., Hirota, K.: Efficient colour transformations on quantum image. J. Adv. Comput. Intell. Intell. Info. 15(6), 698–706 (2011)

54.

Le, P., Iliyasu, A., Dong, F., Hirota, K.: A flexible representation and invertible transformations for images on quantum computers. N. Adv. Intell. Signal Process. Stud. Comput. Intell. 372, 179–202 (2011)CrossRef

55.

Le, P., Iliyasu, A., Dong, F., Hirota, K.: Strategies for designing geometric transformations on quantum images. Theoret. Comput. Sci. 412(15), 1406–1418 (2011)MathSciNetCrossRefMATH

56.

Li, C., Han, Z.: The new evolution of image encryption techniques. Inf. Control 32(4), 339–343 (2003)

57.

Li, H., Li, M.: A new method of image compression based on quantum neural network. In: 2010 International Conference of Information Science and Management Engineering, pp. 567–570 (2010)

58.

Li, H., Zhu, Q., Lan, S., Shen, C., Zhou, R., Mo, J.: Image storage, retrieval, compression and segmentation in a quantum system. Quantum Inf. Process. 12(6), 2269–2290 (2013)MathSciNetCrossRefADSMATH

59.

Li, H., Zhu, Q., Zhou, R., Li, M., Song, L., Ian, H.: Multi-dimensional color image storage, retrieval, and compression based on quantum amplitudes and phases. Inf. Sci. 273, 212–232 (2014)CrossRef

60.

Li, H., Zhu, Q., Zhou, R., Song, L., Yang, X.: Multi-dimensional color image storage and retrieval for a normal arbitrary quantum superposition state. Quantum Inf. Process. 13(4), 991–1011 (2014)MathSciNetCrossRefADSMATH

61.

Li, Y., Feng, S., Zhang, X., Jiao, L.: Sar image segmentation based on quantum-inspired multiobjective evolutionary clustering algorithm. Info. Process. Lett. 114(6), 287–293 (2014)CrossRefMATH

62.

Li, Y., Shi, H., Jiao, L., Liu, R.: Quantum evolutionary clustering algorithm based on watershed applied to sar image segmentation. Neurocomputing 87, 90–98 (2012)CrossRef

63.

Liu, C., Sun, D.: A bayesian approach to adaptive video super resolution. In: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 209–216 (2011)

64.

Lomont, C.: Quantum Convolution and Quantum Correlation Algorithms are Physically Impossible. arXiv:quant-ph/0309070 (2003)

65.

Ma, L., Lu, J.: Construction of controlled quantum counter. Chin. J. Quantum Electron. 20(1), 47–50 (2003)MathSciNet

66.

Mastriani, M.: Quantum boolean image denoising. Quantum Inf. Process. 14(5), 1647–1673 (2015)MathSciNetCrossRefADS

67.

Nielsen, M., Chuang, I.: Quantum Computation and Quantum Information. Cambridge University Press, UK (2000)MATH

68.

Oliveira, D., Ramos, R.: Quantum bit string comparator: circuits and applications. Quantum Comput. Comput. 7(1), 17–26 (2007)MathSciNet

69.

Pagiamtzis, K., Sheikholeslami, A.: Content-addressable memory (CAM) circuits and architectures: a tutorial and survey. IEEE J. Solid-State Circuits 41(3), 712–727 (2006)CrossRef

70.

Pang, C.: Loading n-Dimensional Vector into Quantum Registers from Classical Memory with o(logn) Steps. arXiv:quant-ph/0612061v3 (2007)

71.

Pang, C., Ding, C., Hu, B.: Quantum Pattern Recognition of Classical Signal. arXiv:0707.0936v2 [quant-ph] (2007)

72.

Pang, C., Zhou, Z., Guo, G.: A Hybrid Quantum Encoding Algorithm of Vector Quantization for Image Compression. arXiv:cs/0605002v3 [cs.MM] (2006)

73.

Pang, C., Zhou, Z., Guo, G.: Quantum Discrete Cosine Transform for Image Compression. arXiv:quant-ph/0601043v2 (2006)

74.

Perdomo, A., Venegas-Andraca, S., Aspuru-Guzik, A.: A study of heuristic guesses for adiabatic quantum computation. Quantum Inf. Process. 10(1), 33–52 (2011)MathSciNetCrossRefMATH

75.

Quantum Information Sciences Program, Office of Naval Research, US Navy. http://www.onr.navy.mil/en/Science-Technology/Departments/Code-31/All-Programs/312-Electronics-Sensors/Quantum-Information-Science.aspx

76.

Seyedzadeh, S., Norouzi, B., Mosavi, M., Mirzakuchaki, S.: A novel color image encryption algorithm based on spatial permutation and quantum chaotic map. Nonlinear Dyn. 81(1–2), 511–529 (2015)MathSciNetCrossRef

77.

Shah, V.: Image processing and its military applications. Defense Sci. J. 37(4), 457–478 (1987)CrossRef

78.

Shields, A.: Semiconductor quantum light sources. Nat. Photonics 1, 215–223 (2007)CrossRefADS

79.

Shih, F.: Image processing and pattern recognition: fundamentals and techniques. Wiley-IEEE Press, New York (2010)CrossRef

80.

Shor, P.: Algorithms for quantum computation: discrete logarithms and factoring. In: Proceedings of the 35th Annual Symposium on Foundations of Computer Science, pp. 124–134 (1994)

81.

Skolnik, M.: Radar Handbook. McGraw-Hill, New York (2008)

82.

Song, X., Wang, S., Abd El-Latif, A., Niu, X.: Dynamic watermarking scheme for quantum images based on hadamard transform. Multimedia Syst. 20(4), 379–388 (2014)CrossRef

83.

Song, X., Wang, S., Abd El-Latif, A., Niu, X.: Quantum image encryption based on restricted geometric and color transformations. Quantum Inf. Process. 13(8), 1765–1787 (2014)MathSciNetCrossRefADSMATH

84.

Song, X., Wang, S., Liu, S., Abd El-Latif, A., Niu, X.: A dynamic watermarking scheme for quantum images using quantum wavelet transform. Quantum Inf. Process. 12(2), 3689–3706 (2013)MathSciNetCrossRefADSMATH

85.

Song, X., Wang, S., Niu, X.: Multi-channel quantum image representation based on phase transform and elementary transformations. J. Info. Hiding Multimedia Signal Process. 5(4), 574–585 (2014)

86.

Sun, B., Iliyasu, A., Yan, F., Dong, F., Hirota, K.: An RGB multi-channel representation for images on quantum computers. J. Adv. Comput. Intell. Intell. Info. 17(3), 404–417 (2013)

87.

Sun, B., Iliyasu, A., Yan, F., Garcia, J., Dong, F., Al-Asmari, A., Hirota, K.: Multi-channel information operations on quantum images. J. Adv. Comput. Intell. Intell. Info. 18(4) (2014)

88.

Sun, B., Le, P., Iliyasu, A., Yan, F., Garcia, J., Dong, F., Hirota, K.: A multi-channel representation for images on quantum computers using the RGB\(\alpha \) color space. In: IEEE 7th International Symposium on Intelligent Signal Processing (WISP), pp. 1–6 (2011)

89.

Szeliski, R.: Computer Vision: Algorithms and Applications. Springer, Berlin (2011)CrossRef

90.

Talbi, H., Batouche, M., Draa, A.: A quantum-inspired genetic algorithm for multi-source affine image registration. Image Anal. Recogn. 3211, 147–154 (2004)CrossRef

91.

Talbi, H., Draa, A., Batouche, M.: A genetic quantum algorithm for image registration. In: International Conference on Information and Communication Technologies: From Theory to Applications, pp. 395–396 (2004)

92.

Tseng, C., Hwang, T.: Quantum circuit design of \(8\times 8\) discrete cosine transforms using its fast computation flow graph. In: IEEE International Symposium on Circuits and Systems, pp. 828–831 (2005)

93.

Varney, N., Diskin, Y., Asari, V.: 3d object classification in uncalibrated structure from motion models. In: Proceedings of Imaging and Applied Optics 2015, session Advances for Military Imaging, OSA Technical Digest (2015)

94.

Venegas-Andraca, S.: Introductory words: special issue on quantum image processing published by quantum information processing. Quantum Inf. Process. 14(5), 1535–1537 (2015)MathSciNetCrossRefADS

95.

Venegas-Andraca, S., Ball, J.: Processing images in entangled quantum systems. Quantum Inf. Process. 9(1), 1–11 (2010)MathSciNetCrossRef

96.

Venegas-Andraca, S., Bose, S.: Storing, processing, and retrieving an image using quantum mechanics. In: Proceedings of SPIE Conference of Quantum Information and Computation, Vol. 5105, 134–147 (2003)

97.

Venegas-Andraca, S., Lanzagorta, M., Uhlmann, J.: Maritime applications of quantum computation. In: Proceedings of the 2015 Marine Technology Society and IEEE Conference Oceans’15 (2015)

98.

Vlatko, V., Adriano, B., Artur, E.: Quantum networks for elementary arithmetic operations. Phys. Rev. A 54(1), 147–153 (1996)MathSciNetCrossRefADS

99.

Wang, D., Liu, Z., Zhu, W., Li, S.: Design of quantum comparator based on extended general Toffoli gates with multiple targets. Comput. Sci. 39(9), 302–306 (2012)

100.

Wang, J., Jiang, N., Wang, L.: Quantum image translation. Quantum Inf. Process. 14(5), 1589–1604 (2015)MathSciNetCrossRefADS

101.

Wang, S., Sang, J., Song, X., Niu, X.: Least significant qubit (lsqb) information hiding algorithm for quantum images. Measurement 73, 352–359 (2015)CrossRef

102.

Wang, S., Song, X., Niu, X.: A novel encryption algorithm for quantum images based on quantum wavelet transform and diffusion. Intell. Data Anal. Appl. Vol II Adv. Intell. Syst. Comput. 298, 243–250 (2014)

103.

Wang, X., Liu, G., Li, L., Liu, Z.: A novel quantum-inspired algorithm for edge detection of sonar image. In: Proceedings of the 33rd Chinese Control Conference, pp. 4836–4841 (2014)

104.

Weinstein, Y., Pravia, M., Fortunato, E., Lloyd, S., Cory, D.: Implementation of the quantum fourier transform. Phys. Rev. Lett. 86(9), 1889–1891 (2001)CrossRefADS

105.

Yan, F.: Quantum Computation Based Image Data Searching, Image Watermarking, and Representation of Emotion Space. Ph.D Thesis, Tokyo Institute of Technology, Japan (2014)

106.

Yan, F., Iliyasu, A., Fatichah, C., Tangel, M., Betancourt, J., Dong, F., Hirota, K.: Quantum image searching based on probability distributions. J. Quantum Info. Sci. 2(3), 55–60 (2012)CrossRef

107.

Yan, F., Iliyasu, A., Jiang, Z.: Quantum computation-based image representation, processing operations and their applications. Entropy 16(10), 5290–5338 (2014)MathSciNetCrossRefADS

108.

Yan, F., Iliyasu, A., Khan, A., Yang, H.: Moving target detection in multi-channel quantum video. In: IEEE 9th International Symposium on Intelligent Signal Processing (WISP), pp. 1–5 (2015)

109.

Yan, F., Iliyasu, A., Le, P., Sun, B., Dong, F., Hirota, K.: A parallel comparison of multiple pairs of images on quantum computers. Int. J. Innov. Comput. Appl. 5(4), 199–212 (2013)CrossRef

110.

Yan, F., Iliyasu, A., Liu, Z., Salama, A., Dong, F., Hirota, K.: Bloch sphere-based representation for quantum emotion space. J. Adv. Comput. Intell. Intell. Info. 19(1), 134–142 (2015)

111.

Yan, F., Iliyasu, A., Sun, B., Venegas-Andraca, S., Dong, F., Hirota, K.: A duple watermarking strategy for multi-channel quantum images. Quantum Inf. Process. 14(5), 1675–1692 (2015)MathSciNetCrossRefADS

112.

Yan, F., Iliyasu, A., Venegas-Andraca, S., Yang, H.: Video encryption and decryption on quantum computers. Int. J. Theor. Phys. 54(8), 2893–2904 (2015)MathSciNetCrossRef

113.

Yan, F., Le, P., Iliyasu, A., Sun, B., Garcia, J., Dong, F., Hirota, K.: Assessing the similarity of quantum images based on probability measurements. In: IEEE Congress on Evolutionary Computation (CEC), pp. 1–6 (2012)

114.

Yang, Y., Jia, X., Sun, S., Pan, Q.: Quantum cryptographic algorithm for color images using quantum fourier transform and double random-phase encoding. Inf. Sci. 277, 445–457 (2014)CrossRef

115.

Yang, Y., Jia, X., Xu, P., Tian, J.: Analysis and improvement of the watermark strategy for quantum images based on quantum fourier transform. Quantum Inf. Process. 12(8), 2765–2769 (2013)MathSciNetCrossRefADSMATH

116.

Yang, Y., Xia, J., Jia, X., Zhang, H.: Novel image encryption/decryption based on quantum fourier transform and double phase encoding. Quantum Inf. Process. 12(11), 3477–3493 (2013)MathSciNetCrossRefADSMATH

117.

Yang, Y., Xu, P., Tian, J., Zhang, H.: Analysis and improvement of the dynamic watermarking scheme for quantum images using quantum wavelet transform. Quantum Inf. Process. 13(9), 1931–1936 (2014)MathSciNetCrossRefADSMATH

118.

Youssry, A., El-Rafei, A., Elramly, S.: A quantum mechanics-based framework for image processing and its application to image segmentation. Quantum Inf. Process. 14(10), 3613–3638 (2015)MathSciNetCrossRefADS

119.

Yuan, S., Mao, X., Li, T., Xue, Y., Chen, L., Xiong, Q.: Quantum morphology operations based on quantum representation model. Quantum Inf. Process. 14(5), 1625–1645 (2015)MathSciNetCrossRefADS

120.

Yuan, S., Mao, X., Xue, Y., Chen, L., Xiong, Q., Compare, A.: SQR: a simple quantum representation of infrared images. Quantum Inf. Process. 13(6), 1353–1379 (2014)MathSciNetCrossRefADSMATH

121.

Zhang, W., Gao, F., Liu, B., Jia, H.: A quantum watermark protocol. Int. J. Theor. Phys. 52(2), 504–513 (2013)MathSciNetCrossRefMATH

122.

Zhang, W., Gao, F., Liu, B., Wen, Q., Chen, H.: A watermark strategy for quantum images based on quantum fourier transform. Quantum Inf. Process. 12(2), 793–803 (2013)MathSciNetCrossRefADSMATH

123.

Zhang, X., Wang, M., Zhu, G.: Research on the new development of image encryption algorithms. Comput. Eng. Sci. 34(5), 1–6 (2012)MathSciNetMATH

124.

Zhang, Y., Lu, K., Gao, Y.: Qsobel: a novel quantum image edge extracting algorithm. Sci. China Info. Sci. 58(1), 1–13 (2015)

125.

Zhang, Y., Lu, K., Gao, Y., Wang, M.: NEQR: a novel enhanced quantum representation of digital images. Quantum Inf. Process. 12(8), 2833–2860 (2013)MathSciNetCrossRefADSMATH

126.

Zhang, Y., Lu, K., Gao, Y., Xu, K.: A novel quantum representation for log-polar images. Quantum Inf. Process. 12(9), 3103–3126 (2013)MathSciNetCrossRefADSMATH

127.

Zhang, Y., Lu, K., Xu, K., Gao, Y., Wilson, R.: Local feature point extraction for quantum images. Quantum Inf. Process. 14(5), 1573–1588 (2015)MathSciNetCrossRefADS

128.

Zhou, R., Chang, Z., Fan, P., Li, W., Huang, T.: Quantum image morphology processing based on quantum set operation. Int. J. Theor. Phys. 54(6), 1974–1986 (2015)CrossRef

129.

Zhou, R., Sun, Y.: Quantum multidimensional color images similarity comparison. Quantum Inf. Process. 14(5), 1605–1624 (2015)MathSciNetCrossRefADS

130.

Zhou, R., Sun, Y., Fan, P.: Quantum image gray-code and bit-plane scrambling. Quantum Inf. Process. 14(5), 1717–1734 (2014)MathSciNetCrossRefADS

131.

Zhou, R., Wu, Q., Zhang, M., Shen, C.: Quantum image encryption and decryption algorithms based on quantum image geometric transformations. Int. J. Theor. Phys. 52(6), 1802–1817 (2013)MathSciNetCrossRef

Titel: A survey of quantum image representations
verfasst von: Fei Yan
Abdullah M. Iliyasu
Salvador E. Venegas-Andraca
Publikationsdatum: 01.01.2016
Verlag: Springer US
Erschienen in: Quantum Information Processing / Ausgabe 1/2016
Print ISSN: 1570-0755
Elektronische ISSN: 1573-1332
DOI: https://doi.org/10.1007/s11128-015-1195-6

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