A decision support system for classification of normal and medical renal disease using ultrasound images: A decision support system for medical renal diseases

被引：46

作者：

Sharma K. ^{[1
]}

Virmani J. ^{[1
]}

机构：

[1] Electrical and Instrumentation Engineering Department, Thapar University, Patiala

来源：

| 1600年 / IGI Global卷 / 08期

关键词：

Decision support system; GLCM features; Man machine interaction; Medical renal disease; Support vector machine; Ultrasound renal images;

D O I：

10.4018/IJACI.2017040104

中图分类号：

学科分类号：

摘要：

Early detection of medical renal disease is important as the same may lead to chronic kidney disease which is an irreversible stage. The present work proposes an efficient decision support system for detection of medical renal disease using small feature space consisting of only second order GLCM statistical features computed from raw renal ultrasound images. The GLCM mean feature vector and GLCM range feature vector are computed for inter-pixel distance d varying from 1 to 10. These texture feature vectors are combined in various ways yielding GLCM ratio feature vector, GLCM additive feature vector and GLCM concatenated feature vector. The present work explores the potential of five texture feature vectors computed using GLCM statistics exhaustively for differential diagnosis between normal and MRD images using SVM classifier. The result of the study indicates that GLCM range feature vector computed with d = 1 yields the highest overall classification accuracy of 85.7% with individual classification accuracy values of 93.3% and 77.9% for normal and MRD classes respectively. © 2017, IGI Global.

引用

页码：52 / 69

页数：17

共 57 条

[1] Araki T., Ikeda N., Dey N., Chakraborty S., Saba L., Kumar D., Laird J.R., A comparative approach of four different image registration techniques for quantitative assessment of coronary artery calcium lesions using intravascular ultrasound, Computer Methods and Programs in Biomedicine, 118, 2, pp. 158-172, (2015)
[2] Araki T., Ikeda N., Molinari F., Dey N., Acharjee S., Saba L., Suri J.S., Link between automated coronary calcium volumes from intravascular ultrasound to automated carotid IMT from B-mode ultrasound in coronary artery disease population, International Angiology: A Journal of the International Union of Angiology, 33, 4, pp. 392-403, (2014)
[3] Arevalo J., Gonzalez F.A., Ramos-Pollan R., Oliveira J.L., Lopez M.A.G., Representation learning for mammography mass lesion classification with convolutional neural networks, Computer Methods and Programs in Biomedicine, 127, pp. 248-257, (2016)
[4] Bakker J., Olree M., Kaatee R., De Lange E.E., Beek F.J., In vitro measurement of kidney size: Comparison of ultrasonography and MRI, Ultrasound in Medicine & Biology, 24, 5, pp. 683-688, (1998)
[5] Balasubramanian D., Srinivasan P., Gurupatham R., Automatic classification of focal lesions in ultrasound liver images using principal component analysis and neural networks, Proceedings of the 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society EMBS'07, pp. 2134-2137, (2007)
[6] Ben-Hur A., Weston J., A user's guide to support vector machines, Data Mining Techniques for the Life Sciences, pp. 223-239, (2010)
[7] Bhateja V., Srivastava A., Singh G., Singh J., A modified speckle suppression algorithm for breast ultrasound images using directional filters, ICT and Critical Infrastructure Proceedings of the 48th Annual Convention of Computer Society of India, 2, pp. 219-226, (2014)
[8] Chang C.C., Lin C.J., LIBSVM: A library for support vector machines.[TIST], ACM Transactions on Intelligent Systems and Technology, 2, 3, (2011)
[9] Chen X., Summers R., Yao J., FEM-based 3-D tumor growth prediction for kidney tumor, IEEE Transactions on Bio-medical Engineering, 58, 3, pp. 463-467, (2011)
[10] Cunha P., Moura D.C., Lopez M.A.G., Guerra C., Pinto D., Ramos I., Impact of ensemble learning in the assessment of skeletal maturity, Journal of Medical Systems, 38, 9, pp. 1-10, (2014)

← 1 2 3 4 5 6 →