Abstract
There are seemingly an endless number of possible applications of information technology to health service management. The area of e-health is very broad, covers topics such as telemedicine, healthcare score cards, audits and information systems etc. In this paper, the focus is on identifying liver diseases at non invasive & low cost ultrasound modality. Our ultimate goal is to improve gray scale ultrasound images by removing speckles present in it. A new speckle noise reduction and image enhancement method, i.e. Laplacian pyramid nonlinear diffusion with Gaussian filter (Modified LPND), is proposed for medical ultrasound imaging. In the proposed Modified LPND, a coupled modified diffusivity function and gradient threshold is applied in laplacian pyramid domain of an image, to remove speckle and retains subtle features simultaneously. The performance of the modified LPND method is evaluated by both CNR and PSNR on a real ultrasound image dataset. In this work, we obtained an accuracy 95% and 12.34 in contrast-to-noise ratio and 13.32 in PSNR for liver cyst compared to the speckle reducing anisotropic diffusion (SRAD), nonlinear diffusion (ND) and LPND respectively. Also the proposed modified LPND showed clearer boundaries on both focal and diffuse ultrasound liver dataset. These preliminary results indicate that the proposed modified LPND can effectively reduce speckle noise while enhancing image edges for retaining subtle features like cyst and lesions.
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References
Karaman, M., Kutay, M.A., Bozdagi, G.: An adaptive speckle suppression filter for medical ultrasonic imaging. IEEE Transactions on Medical Imaging 1(2) (1995)
Hwang, K.H., Lee, H., Choi, D.: Medical image retrieval: Past and present. Healthcare Research Information 18(1), 3–9 (2012)
Perona, P., Malik, J.: Scale-space and edge detection using anisotropic diffusion. IEEE Trans. Pattern Anal. Mach. Intell. 12(7), 629–639 (1990)
Dutt, V., Greenleaf, J.F.: Adaptive speckle reduction filter for log compressed B-scan images. IEEE Trans. Med. Imag. 14(6), 802–813 (1996)
Sattar, F., Floreby, L., Salomonsson, G., Lovstrom, B.: Image enhancement based on a nonlinear multiscale method. IEEE Trans. Image Process. 6(6), 888–895 (1997)
Aiazzi, B., Alparone, L., Baronti, S., Lotti, F.: Multiresolution local statistics speckle filtering based on a ratio Laplacian pyramid. IEEE Trans. Geosci. Remote Sens. 36(5), 1466–1476 (1998)
Kuan, D.T., Sawchuk, A.A., Strand, T.C., Chavel, P.: Adaptive noise smoothing filter for images with signal dependent noise. IEEE Trans. Pattern Anal. Mach. Intell. 7(2), 165–177 (1985)
Yu, Y.J., Acton, S.T.: Speckle reducing anisotropic diffusion. IEEE Transaction on Image Processing 11(11), 1260–1270 (2002)
Abd-Elmoniem, K.Z., Youssef, A.M., Kadah, Y.M.: Real-time speckle reduction and coherence enhancement in ultrasound imaging via nonlinear anisotropic diffusion. IEEE Transaction on Biomedical Engineering 49(9), 997–1014 (2002)
Zhang, F., Yoo, Y.M., Koh, L.M., Kim, Y.: Nonlinear diffusion in laplacian pyramid domain for ultrasonic speckle reduction. IEEE Transaction on Medical Imaging 26(2) (2007)
Assy, N., Nasser, G., Djibre, A., Beniashvili, Z., Elias, S., Zidan, J.: Characteristics of common solid liver lesions and recommendations for diagnostic workup. World Journal of Gastroenterology 15(26), 3217–3227 (2009)
Burt, P.J., Adelson, E.A.: The Laplacian pyramid as a compact image code. IEEE Trans. Commun. 31(4), 532–540 (1983)
Jin, J.S., Wang, Y., Hiler, J.: An adaptive nonlinear diffusion algorithm for filtering medical images. IEEE Trans. Inf. Tech. Biomed. 4(4), 298–305 (2000)
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Ramamoorthy, S., Siva Subramanian, R., Gandhi, D. (2014). An Efficient Method for Speckle Reduction in Ultrasound Liver Images for e-Health Applications. In: Natarajan, R. (eds) Distributed Computing and Internet Technology. ICDCIT 2014. Lecture Notes in Computer Science, vol 8337. Springer, Cham. https://doi.org/10.1007/978-3-319-04483-5_32
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DOI: https://doi.org/10.1007/978-3-319-04483-5_32
Publisher Name: Springer, Cham
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