Authors: Abdallah A. Alshennawy, Ayman A. Aly

Abstract:

The fuzzy technique is an operator introduced in order to simulate at a mathematical level the compensatory behavior in process of decision making or subjective evaluation. The following paper introduces such operators on hand of computer vision application. In this paper a novel method based on fuzzy logic reasoning strategy is proposed for edge detection in digital images without determining the threshold value. The proposed approach begins by segmenting the images into regions using floating 3x3 binary matrix. The edge pixels are mapped to a range of values distinct from each other. The robustness of the proposed method results for different captured images are compared to those obtained with the linear Sobel operator. It is gave a permanent effect in the lines smoothness and straightness for the straight lines and good roundness for the curved lines. In the same time the corners get sharper and can be defined easily.

Keywords: Fuzzy logic, Edge detection, Image processing, computer vision, Mechanical parts, Measurement.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1055463

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References:

[1] I.M. Elewa, H.H Soliman and A.A. Alshennawy. "Computer vision Methodology for measurement and Inspection: Metrology in Production area ". Mansoura Eng. First conf. Faculty of Eng. Mansoura Univ., March 28-30,1995,Pp. 473-444.
[2] A. A. Alshennawy, "Measurement and Inspection of Three Dimensional Objects Using Computer Vision System", Pd.D thesis, Mansoura University, Egypt, 2003.
[3] H. D. Hofmann, "Application of Intelligent Measurements with Metrical Image Processing for Quality Control", presented at the 5th International Conference, PEDAC' 92, Alexandria, EGYPT, December 1992.
[4] R.T. Chin., C.A. Harlow, "Automated Visual Inspection: A survey ", IEEE Trans. Pattern Anal. Machine Intell., Vol. PAMI-4, pp. 557-573, November 1982.
[5] P. Rummel, "GSS - A Fast, Model-Based Gray-Scale Sensor System for Workpiece Recognition", Proceed. of 8th International Conf. on Pattern Recognition, pp. 18-21, Paris, France, Oct. 27-31, 1986.
[6] B. G. Batchelor, D. A. Hill and D. C. Hodgson (Eds.), "Automated Visual Inspection", IFS Publications Ltd., UK, 1985.
[7] A. M. Darwish and A. K. Jain, "A Rule Based Approach for Visual Pattern Inspection ", IEEE Trans. on Pattern Analysis and Machine Intelligence, Vol. 10, No. 1, pp. 56-68, January 1988.
[8] G. Maitre, H. Hugli, F. Tieche and J. P. Amann, "Range Image Segmentation Based on Function Approximation", published at ISPRS90, Zurich, Sept. 1990.
[9] Md. Shoiab Bhuiyan, Yuiji Iwahori, and Akira Iwata., Optimal edge detection under difficult imaging conditions. Technical report, Educational Center for Information Processing and Dept. of Electrical and Computer Engineering, Nagoya Institute of Technology, Showa, Nagoya, 466-8555, JAPAN.
[10] Srinivasan,M. V., Chahl, J. S.,Weber, K., Venkatesh, S., Nagle, M. G., and Zhang, S.W.: Robot navigation inspired by principles of insect vision, Robotics Autonom. Systems 26(2/3) (1999), 203-216.
[11] Suh, I. H. and Kim, T.W.: Fuzzy membership function-based neural networks with applications to the visual servoing of robot manipulators, IEEE Trans. Fuzzy Systems 2(3) (1994), 203-220.
[12] Md. Shoaib Bhuiyan, Hiroshi Matsuo, Akira Iwata, Hideo Fujimoto, and Makoto Sato. An improved neural network based edge detection method. Technical report, Dept. of Electrical and Computer Engineering and Dept. of Mechanical Engineering, Nagoya Institute of Technology, Nagoya, JAPAN 466.
[13] I. Fourmousis, U. Burgin, M. Tonetti, and N.P. Lang, "Digital image processing I Evaluation of gray level correction methods in vitro", Clin. Oral Impl. Res., pp.1-11, Sept. 1993.
[14] H.G. Grondahl, K. Grondahl, and R.L. Webber, "A digital subtraction technique for dental radiography", Oral Surg., vol.55, number 1, pp.96- 102, Jan. 1983.
[15] P.F. van der Stelt, W.J. van der Linden, W.G.M. Geraets, C.L. Alons, "Digitized pattern recognition in the diagnosis of periodontal bone defects", Journal of Clinical Periodontology, vol. 12, p.822-827, 1985.
[16] Santiago Aja, C. Alborola, J. Ruiz, "Fuzzy anisotropic diffusion for speckle filtering", IEEE Intl. Conf. on Acoustics, Speech, and Signal Processing, Vol. 2 , 2001, pp. 1262-1264.
[17] G.I. Sanchez-Ortiz, A. Noble,"Fuzzy clustering driven anisotropic diffusion: enhancement and segmentation of cardiac MR images", Nuclear Science Symposium, Vol. 3 , 1998, pp. 1873 -1874.
[18] R.L. Webber, U.E. Ruttimann, and R.A.J. Groenhuis, "Computer correction of projective distortions in Dental Radiographs", J. Den. Res., vol. 63, No. 8, pp.1032-1036, August 1984.
[19] Song Wang, Feng Ge, Tiecheng Liu, "Evaluating Edge Detection Through Boundary Detection", Department of Computer Science and Engineering, University of South Carolina, Columbia, SC 29208, USA, 2006.
[20] Ivan Christov, " Multiscale Image Edge Detection",1.130/18.327, Spring 2004, Final Project, May 12, 2004.
[21] Nor Ashidi Mat Isa, " Automated Edge Detection Technique for Pap Smear Images Using Moving K-Means Clustering and Modified Seed Based Region Growing Algorithm", International Journal of The Computer, the Internet and Management Vol. 13.No.3 (September- December, 2005) pp 45-59.
[22] C.C. Leung, F.H.Y. Chan, K.Y. Zee, P.C.K. Kwok, "Compensation of bending errors in Intra-oral Radiographs using Block-by-Block Image Scaling", IEEE Trans. On Biomedical Engineering. (In manuscript).
[23] C.C. Leung, P.C.K. Kwok, K.Y. Zee, F.H.Y. Chan, and S.T.F. Lo, "Minimizing the bending error in Intra-oral Radiographs using Point-by- Point Interpolation with image scaling", Proceedings of the EMBEC'99, Part II, pp.1050-1051, Nov. 1999. Vienna.
[24] W.F. Chen, X.Q. Lu, J.J. Chen, and G.X. Wu, "A new algorithm of edge detection for color image: Generalized fuzzy operator", Science in China (Series A), Vol.38, No.3, pp.468-473, 1998.
[25] C.C. Leung, F.H.Y. Chan, W.F. Chen, P.C.K. Kwok and K.Y. Lam, "Thyroid Cancer Cells Boundary Location by a Fuzzy Edge Detection Method" ICPR-2000, Sept. 2000.
[26] Kuo, R. J.: A robotic die polishing system through fuzzy neural networks, Comput. Industry 32(3) (1997), 273-280.
[27] Tizhoosh H.R., "Fast fuzzy edge detection", Proceedings of Fuzzy Information Processing Society, 2002, pp. 239-242.
[28] Lin, C. T. and Lee, S. G.: Reinforcement structure/parameter learning for neural network based fuzzy logic systems, IEEE Trans. Fuzzy Systems 2(1) (1994), 46-63.
[29] Ayman A. Aly, H. Ohuchi and A. Abo-Ismail, "Fuzzy Model Reference Learning Control of 6-Axis Motion Base Manipulator", 7th IEEE International Conference on Intelligent Engineering Systems, Luxer, March, 2003.