Indian Journal of Engineering & Materials Sciences

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Beneficial Image Preprocessing by Contrast Enhancement Technique for SEM Images


Affiliations
1 Department of CSE, Gopalan College of Engineering and Management, Bangalore 560 048, India
2 Department of CSE, GRIET, Bachupally, Hyderabad, 500 090, India
3 Department of CSE, Institute of Aeronautical Engineering, Dundigal, Hyderabad 500 043, India
4 Department of CSE, Narsimha Reddy Engineering College, Secunderabad, Telangana 500 100, India
5 Department of Electrical and Electronics Engineering, GRIET, Bachupally, Hyderabad 500 090, India
 

In this paper a morphological filtering algorithm using an exposure thresholding and measures of central tendency has been proposed for solving the low contrast of Scanning Electron Microscopic (SEM) images of composite materials for accurate Filler Content Estimation. SEM image of a composite material comprises visible morphological structures like fillers such as silica nanoparticles. The SEM image analysis via segmentation will assist in the study of distribution of these structures. The estimation of the filler content is more accurate only when the SEM images have proper contrast for analysis if not the results lead to less accuracy. To overcome this drawback, we have proposed a preprocessing technique to increase the contrast of SEM images. So that the preprocessed image can be used for post processing namely segmentation and hence the error is less for filler content estimation. We introduced the transformations using morphological processing to extract the bright and darker features of the images. The optimum threshold value is determined by the image exposure. A detailed comparative analysis with other existing techniques has been performed to prove the superior performance of the proposed method.

Keywords

Morphological Filtering, SEM Images, Nanocomposites, Contrast Enhancement, Filler, Exposure, Image Analysis.
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  • Reynaud E, Jouen T, Gauthier C, Vigier G, & Varlet, Polym, 42 (2001) 8759.

  • Park J H, & Jana S C, Polym, 44 (2003) 2091.

  • Kundu S, Jana P, De D, & Roy M, ICECCT, (2015) 1.

  • Loddo A, Di Ruberto C, & Kocher M, Sens, 18 (2018) 513.

  • Beghdadi A, & Negrate A L, Comput Vis Graph Image Process, 46 (1989) 162.

  • Somasekar J, & Eswara Reddy B, Comput Electr Eng, 45 (2015) 336.

  • Somasekar J, & Eswara Reddy B, J Adv Micros Res, 11 (2016) 95.

  • Somasekar J, & Eswara Reddy B, J Biomedical Eng Medical Imaging, 4 (2017) 31.

  • Celik T, & Tjahjadi T, Trans Image Processing, 21 (2012) 145.

  • Wang Z, Bovik A C, Sheikh H R, & Simoncelli E P, IEEE Trans Image Processing, 13 (2004) 600.

  • Celik T, Pattern Recognit, 45 (2012) 3810.

  • Girault H H, Schiffrin O J, & Smith B D V, J Electroanal Chem interfacial Electrochem, 137 (1982) 207.

  • Rasband W S, & Bright D S, Microbeam Anal Soc, 4 (1995) 137.

  • Sheet D, Garud H, Suveer A, Chatterjee J, & Mahadevappa M, IEEE Trans, Consumer Electron, 56 (2010) 2475.

  • Zuiderveld K, Contrast Limited Adaptive Histogram Equalization. In Graphics Gems, (1994) 474.

  • Singh K, & Kapoor R, Optik, 125 (2014) 4646.

  • Singh K & Kapoor R, Pattern Recognition Letters, 36 (2014) 10.

  • Ooi C H, & Isa N A M, IEEE Trans Consumer Electron, 56 (2010) 2552.

  • Poddar S, Tewary S, Sharma D, Karar V, Ghos A & Sankar K, IET image processing, 7 (2013) 641.

  • Soong-Der C, & Abd. Rahman R, IEEE Trans Consumer Electron, 49 (2003) 1301.

  • Soonf-Der C, & Abd. Rahman R, IEEE Trans Consumer Electron, 49 (2003) 1310.


Abstract Views: 64

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  • Beneficial Image Preprocessing by Contrast Enhancement Technique for SEM Images

Abstract Views: 64  |  PDF Views: 61

Authors

J. Somasekar
Department of CSE, Gopalan College of Engineering and Management, Bangalore 560 048, India
G. Ramesh
Department of CSE, GRIET, Bachupally, Hyderabad, 500 090, India
Gandikota Ramu
Department of CSE, Institute of Aeronautical Engineering, Dundigal, Hyderabad 500 043, India
P. Dileep Kumar Reddy
Department of CSE, Narsimha Reddy Engineering College, Secunderabad, Telangana 500 100, India
Karanam Madhavi
Department of CSE, GRIET, Bachupally, Hyderabad, 500 090, India
J. Praveen
Department of Electrical and Electronics Engineering, GRIET, Bachupally, Hyderabad 500 090, India

Abstract


In this paper a morphological filtering algorithm using an exposure thresholding and measures of central tendency has been proposed for solving the low contrast of Scanning Electron Microscopic (SEM) images of composite materials for accurate Filler Content Estimation. SEM image of a composite material comprises visible morphological structures like fillers such as silica nanoparticles. The SEM image analysis via segmentation will assist in the study of distribution of these structures. The estimation of the filler content is more accurate only when the SEM images have proper contrast for analysis if not the results lead to less accuracy. To overcome this drawback, we have proposed a preprocessing technique to increase the contrast of SEM images. So that the preprocessed image can be used for post processing namely segmentation and hence the error is less for filler content estimation. We introduced the transformations using morphological processing to extract the bright and darker features of the images. The optimum threshold value is determined by the image exposure. A detailed comparative analysis with other existing techniques has been performed to prove the superior performance of the proposed method.

Keywords


Morphological Filtering, SEM Images, Nanocomposites, Contrast Enhancement, Filler, Exposure, Image Analysis.

References