基于SIFT和最邻近匹配的商品图像相似度算法

摘要/Abstract

摘要： 在互联网电子商务领域中，随着电商用户量的激增，各种问题不断涌现。其中，同行业的卖家抄袭复制其他店铺信息的事件也经常发生，而抄袭的图像信息相较于文字信息更难以检测出相似性，因为抄袭者往往有可能会将图像信息进行剪裁、旋转、加滤镜，或者用PS等技术进行处理，使得处理后的图像不容易检测出与原图相似。而人工比对效率低下，且成本高，这就需要一个以能快速计算出商品图像相似度的算法为基础的系统来解决这个问题。SIFT(Scale-invariant Feature Transform)描述子具有尺度不变性，能够解决传统算法对于旋转后图像相似度较低的局限性，且该描述子所描述的特征信息量大。本文在介绍传统图像哈希算法的基础上，提出使用基于SIFT描述子的近似最邻近匹配算法用于电钻商品图像相似度比较。对电钻商品原图进行剪裁、增加滤镜、增加对比度、旋转和增加水印等操作生成新的图片，将这些新的图片分别和原图进行相似度对比。实验结果表明，基于SIFT描述子的近似最邻近匹配算法与哈希算法、原始SIFT算法相比有比较好的精度，能够比较准确地识别出抄袭的图像信息。

关键词: 图像相似度, 图像哈希算法, SIFT算法, 最邻近匹配

Abstract: With the surge in the number of e-commerce users, various problems continue to emerge. Among them, the incidents of plagiarism and copying information from other stores in the same industry often occur, but plagiarized image information is more difficult to detect similarity than text information, because plagiarists often may crop, rotate or add filter to image information, in addition, they can process images with PS and other technologies, which makes it difficult to detect the similarity between the processed image and the original image. However, the manual comparison is inefficient and costly, so a system based on an algorithm that can quickly calculate the similarity of commodity images is required to solve this problem. Scale-invariant feature transform (SIFT) descriptors can solve the limitations of traditional algorithms for low similarity of rotated images. The accuracy of the algorithm SIFT is high, and it can describe rich feature information. Based on the introduction of the traditional image Hash algorithm, a similar nearest neighbor matching algorithm based on SIFT descriptor is proposed for the similarity comparison of electric drill product images. The original image is cropped, added filter, added contrast, rotated, added watermarks etc, respectively, and these processed images are all compared with the original images about similarity. The experimental results show that the similar nearest neighbor matching algorithm has better accuracy than Hash algorithm and SIFT algorithm, and it can identify plagiarized image information more accurately.

Key words: image similarity, image Hash algorithm, SIFT algorithm, nearest neighbor matching

吴迎. 基于SIFT和最邻近匹配的商品图像相似度算法[J]. 计算机与现代化, 2020, 0(10): 69-75.

WU Ying. Product Image Similarity Algorithm Based on SIFT and Nearest Neighbor Matching[J]. Computer and Modernization, 2020, 0(10): 69-75.

参考文献

［1］赖名芳. 国家版权局提醒电商平台加强版权管理［J］. 城市党报研究, 2018(11):67.
［2］ ROBBY G A, TANDRA A, SUSANTO I, et al. Implementation of optical character recognition using Tesseract with the Javanese script target in Android application［J］. Procedia Computer Science, 2019,157:499-505.
［3］张婷婷,马明栋,王得玉. OCR文字识别技术的研究［J/OL］. 计算机技术与发展, 2020,30(4):85-88. (2019-12-05)［2019-12-20］. https://kns.cnki.net/kcms/detail/61.1450.TP.20191205.1113.040.html.
［4］ DU L, HO A T S, CONG R M. Perceptual hashing for image authentication: A survey［J］. Signal Processing: Image Communication, 2020,81, DOI: 10.1016/j.image.2019.115713.
［5］ BISWAS R, GONZALEZ-CASTRO V, FIDALGO E, et al. Perceptual image hashing based on frequency dominant neighborhood structure applied to Tor domains recognition［J］. Neurocomputing, 2020,383:24-38. DOI: 10.1016/j.neucom.2019.11.065.
［6］ RAN Y Y, XU X B. Point cloud registration method based on SIFT and geometry feature［J］. Optik, 2020,203, DOI: 10.1016/j.ijleo.2019.163902.
［7］ ZALESKY A, SARWAR T, RAMAMOHANARAO K. A cautionary note on the use of SIFT in pathological connectomes［J］. Magnetic Resonance in Medicine, 2020,83(3):791-794. DOI: 10.1002/mrm.28037.
［8］董锦涛,陈水忠,徐恺,等. 基于SIFT的图像匹配实时性改进［J/OL］. 电光与控制, 2020,27(3):80-83. (2019-11-22)［2019-12-20］. https://kns.cnki.net/kcms/detail/41.1227.TN.20191122.1401.010.html.
［9］张春美,龚志辉,孙雷. 改进SIFT特征在图像匹配中的应用［J］. 计算机工程与应用, 2008,44(2):95-97.
［10］疏斌,陈隆耀. 以图搜图技术的发展及应用探究［J］. 江苏通信, 2017,33(6):52-53.
［11］LOWE D G. Distinctive image features from scale-invariant keypoints［J］. International Journal of Computer Vision, 2004,60(2):91-110.
［12］张俞晴,何宁,魏润辰. 基于卷积神经网络融合SIFT特征的人脸表情识别［J］. 计算机应用与软件, 2019,36(11):161-167.
［13］张闯,杨咸兆,徐齐全,等. 基于SIFT特征的哈希快速检索与图像匹配［J］. 现代电子技术, 2019,42(12):127-131.
［14］LI J, WANG H H, ZHANG L B, et al. The research of random sample consensus matching algorithm in PCA-SIFT stereo matching method［C］// Proceedings of the 2019 Chinese Control and Decision Conference (CCDC). 2019:3338-3341.
［15］FEI M J, JU Z J, ZHEN X T, et al. Real-time visual tracking based on improved perceptual hashing［J］. Multimedia Tools and Applications, 2017,76(3):4617-4634.
［16］李亚成. 高斯模糊图像复原与匹配算法研究［D］. 武汉:华中科技大学, 2019.
［17］田宝中. 基于高斯差分算子的图像盲去卷积去模糊［J］. 智能机器人, 2017(3):58-61.
［18］RAFIEE M, ABBASI M. Pruned KD-tree: A memory-efficient algorithm for multi-field packet classification［J］. SN Applied Sciences, 2019,1(12): Article No. 1537, DOI: 10.1007/s42452-019-1592-z.
［19］NASRULLAH N, SANG J, MATEEN M, et al. Reversible data hiding in compressed and encrypted images by using KD-tree［J］. Multimedia Tools and Applications, 2019,78(13):17535-17554.
［20］万家山,陈蕾,吴锦华,等. 基于KD-tree聚类的社交用户画像建模［J］. 计算机科学, 2019,46(S1):442-445.
［21］RICHTER D L, BANKHEAD C P, WASCHER D C, et al. Knee dislocation (KD) IV injuries of the knee: Presentation, treatment, and outcomes［J］. Clinics in Sports Medicine, 2019,38(2):247-260.
［22］李礁,钟乐海. 基于KD树和KNN的高校学生异常状态预警算法研究［J］. 信息技术与信息化, 2019(5):132-133.
［23］KRYZHANOVSKIY V M, MALSAGOV M Y. Increase of the speed of operation of scalar neural network tree when solving the nearest neighbor search problem in binary space of large dimension［J］. Optical Memory and Neural Networks, 2016,25(2):59-71.
［24］ZHANG H B, SUN G Y. Optimal selection of reference set for the nearest neighbor classification by Tabu search［J］. Journal of Computer Science and Technology, 2001,16(2):126-136.
［25］CHENG D Y, TERRELL T J, VARLEY M. Artificial neural networks for the nearest neighbor search problem［C］// Proceedings of the 1993 IEEE Region 10 International Conference on Computers, Communications and Automation. 1993,2:782-786.

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