An image saliency detection scheme based on quantum mechanism

Abstract

Abstract: A quantum image saliency detection scheme is proposed, which is more efficient than the traditional methods. In order to represent and store RGB images in on quantum computers and calculate the contrast between different pixels, the scheme adopts three-qubits to describe color information. The 22n×2 image matrix is encoded as a quantum superposition state. Combined with Hadamard gate and controlled rotation operator, the global color contrasts of pixels in RGB three-channels are mapped into the probability amplitude of computational basis states, and the saliency map is achieved using a finite number of projective measurementsthe saliency map is constructed. The realization of related quantum circuits and complexity analysis are presented. The contrast experiments are carried out with several traditional saliency detection algorithms. Results show that the proposed scheme has good detection effect and higher detection efficiency.

Key words: quantum computation; image saliency detection; quantum contrast; saliency map

CLC Number:

References

[1] S.E. Venegas-Andraca and S. Bose. Storing, processing and retrieving an image using quantum mechanics [C]. Proceedings of SPIE Conference of Quantum Information and Computation, 2003, Vol. 5105: 134-147, 2003. [2]J.I. LatorreImage compression and entanglement[J].Quantum Physics, 2005, 1(051003):1-4 [3] P.Q. Le, A. M. Iliyasu, F. Dong, K. Hirota. A flexible representation and invertible transformations for images on quantum computers [C]. New Advances in Intelligent Signal Processing, 2011, 372: 179-202. [4]P.Q. Le,AM. Iliyasu,F. Dong,K. Hirota. Fast geometric transformations on quantum images[J].International Journal of Applied Mathematics, 2010, 40(3):113-123 [5]P.Q. Le,AM. Iliyasu,F. Dong,K. Hirota. Efficient color transformations on quantum image[J].Journal of formatics, 2011, 15(6):698-706 [6]Simona Caraiman, Vasile I.MantaImage segmentation on a quantum computer[J].Quantum Information Processing, 2015, 14(5):1693-1715 [7] Sun Yangguang.Quantum statistical edge detection using path integral monte carlo simulation [C]. Communications in Computer and Information Science, 2014, 472: 430-434. [8] F.Yan, P. Q. Le, A. M. Iliyasu. Assessing the similarity of quantum images based on probability measurements [C]. 2012 IEEE World Congress on Computational Intelligence, 2012, Brisbane: 1-6. [9]F.Yan,AM. Iliyasu,C. Fatichah,et al.. Quantum image searching based on probability distributions[J].Journal of quantum information science, 2012, 2(3):55-60 [10]Wang Ning, Lin Song.A watermarking strategy for quantum image based on least significant bit[J].量子电子学报, 2015, 32(3):263-269 [11]Su Feng, Liu Xiang, Long Huabao et al.Sampling number of reconstruction arithmetic based on quantum correlated imaging[J].量子电子学报, 2015, 32(3):144-149 [12] A.Borji, L. Itti. State-of-the-art in visual attention modeling [C]. IEEE Transactions on Pattern Analysis and Machine Intelligence, 2013, 35(1): 185-207. [13] Yun Zhai, Mubarak Shah.Visual attention detection in video sequences using spatiotemporal cues [C]. Proceedings of the 14th Annual ACM International Conference on Multimedia, 2006: 815–824. [14]Tong Na, Lu Huchuan, Zhang Lihe.Saliency detection with multi-scale superpixels[J].IEEE Signal Processing Letters, 2014, 21(9):1035-1039 [15] Yang Chuan, Zhang Lihe, Lu, Huchuan et al.Saliency detection via graph-based manifold ranking [C]. Computer Vision and Pattern Recognition (CVPR), 2013:3166-3172. [16]Fan, Qiang, Qi, Chun.Two-stage salient region detection by exploiting multiple priors[J].Journal of Visual Communication and Image Representation, 2014, 25(8):1823-1834 [17] Zhu Wangjiang, Liang Shuang, Wei, Yichen.Saliency optimization from robust background detection[C]. IEEE Computer Society Conference on Computer Vision and Pattern Recognition, 2014:2814-2821. [18]Xie Yulin, Lu Huchuan, Yang Ming-Hsuan.Bayesian saliency via low and mid level cues[J].Image Processing, 2013, 22(5):1689-1698 [19] Jiang Bowen, Zhang Lihe, Lu, Huchuan.Saliency detection via absorbing Markov Chain[C]. IEEE International Conference on Computer Vision, 2013:1665-1672. [20] Margolin Ran, Tal Ayellet, Zelnik-Manor Lihi.What makes a patch distinct? [C]. Computer Vision and Pattern Recognition (CVPR), 2013:1139-1146. [21] Shi Keyang, Wang Keze, Lu Jiangbo et al.Pisa: Pixelwise image saliency by aggregating complementary appearance contrast measures with spatial priors[C]. Computer Vision and Pattern Recognition (CVPR), 2013:2115-2122. [22] Jiang Huaizu, Wang Jingdong, Yuan, Zejian et al.Salient object detection: A discriminative regional feature integration approach[C]. Computer Vision and Pattern Recognition (CVPR), 2013:2083--2090.