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Comparative Transmission of JPEG2000 and MPEG-4 Patient Images using the Error Resilient Tools over CDMA 1xEVDO Network  

Cho, Jin-Ho (연세대학 의학공학교실 신호처리연구센터)
Lee, Tong-Heon (연세대학 의학공학교실 개인식별연구소)
Yoo, Sun-Kook (연세대학 의학공학교실.이동형 응급의료정보 시스템 개발 센터)
Publication Information
The Transactions of the Korean Institute of Electrical Engineers D / v.55, no.6, 2006 , pp. 296-301 More about this Journal
Abstract
Even though the emergency telecommunication make possible that specialist offers medical care over emergency cases in moving vehicle, we still have many problems in transmitting the image or video of patient over several wireless networks. To alleviate the effect of channel errors on compressed video bit-stream, this paper analyzed the error resilient features of JPEG2000 standard and measured the quality of transmission over noisy wireless channel, CDMA2000 1xEV-DO networks, compared to the features of error resilient tool of MPEG-4. We also proposed the optimum solution of transmitting images over real 3G network using JPEG2000 error resilient tool.
Keywords
CDMA 1xEVDO Network; MPEG-4; JPEG2000; Error-Resilient; Emergency Telemedicine;
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1 TH. Lee, Sun K. Yoo, 'DMA2000 1xEV-DO망에서 UDP를 사용한 MPEG-4 환자 영상의 에러에 강인한 전송', 대한전기학회 54D권510-516, 2005. 8
2 Iole Moccagatta, Salma Soudagar, Jie Liang, Homer Chen, 'Error-resilient coding in jPEG2000 and MPEG-4', IEEE journal of selected areas in communication, vol 18, No 6, June 2000   DOI   ScienceOn
3 Liang, R. Talluri, 'Tools for robust image and video coding in JPEG2000 and MPEG-4 Standard', in Proc. SPIE Visual communications and image processing Conf. (VCIP), San Jose, CA, Jan 1999   DOI
4 S. Pavlopoulos, E. Kyriacou, A. Berler, S. Dembeyiotis, and D. Koutsouris, 'A novel emergency telemedicine system based on wireless communication technology ambulance,' IEEE Trans. Inform. Tech. Biomed., vol. 2, pp. 261-267, Dec. 1998   DOI   ScienceOn
5 G.K. Wallace, 'The JPEG still picture compression standard', IEEE Trans. Electronics, vol 38, No 1, Feb 1992   DOI   ScienceOn
6 E. Kyriacou, S. Pavlopoulos, A. Berler, M. Neophytou, A. Bourka, A. Georgoulas, A. Anagnostaki, D. Karayiannis, C. Schizas, C. Pattichis, A. Andreou, and D. Koutsouris, 'Multi-purpose healthCare telemedicine systems with mobile communication link support,' Biomed. Eng. Online, vol. 2, no. 7, 2003   DOI
7 Jose Ramon Gallego, Angela Hernandez-Solana, Maria Canales, Javier Lafuente, Antonio Valdovinos, and Julian Fernandez-Navajas,'Performance Analysis of multiplexed medical data transmission for mobile emergency care over the UMTS channel', IEEE Trans. Inform. Tech. Biomed., vol. 9, no. 1, March 2005   DOI   ScienceOn
8 B. Sklar, 'Raleigh fading channels in mobile digital communication systems, Part I: Characterization', IEEE communications magazine, vol. 35, pp.90-100, Sept.1997   DOI   ScienceOn
9 T. Ebrahimi, D. Santa Cruz, J Askelof, M. Larsson, C. Christopoulos, JPEG 2000 still image coding versus other standards, in Proceedings of SPIE, San Diego, CA, USA July/August 2000, vol. 4115, pp.446-454   DOI
10 Majid Rabbani, Rajan Joshi, 'An overview of the JPEG 2000 still image compression standard', Signal processing: Image communication 17 (2002) 3-48   DOI   ScienceOn
11 J. Cullen, W. Gaasch, D. Gagliano, J. Goins, and R. Gunawardane, 'Wireless mobile telemedicine: En-route transmission with dynamic quality-of-service management,' TRW Inc., University of Maryland school of medicine, 2001
12 Charilaos Christopous, Athanassios Skodras, Touradj Ebrahimi, 'The JPEG2000 still image coding system: An overview', IEEE Transactions on consumer electronics, vol 46, No 4, Nov 2002   DOI   ScienceOn
13 B.E. Usevitch, 'A tutorial on modem lossy wavelet image compression: Foundations of JPEG2000', IEEE signal processing mag., vol 18 pp22-35, Sept.2001   DOI   ScienceOn
14 M. Gormish, D. Lee, M.W. Marcellin, JPEG2000: overview, architecture, and applications, in Proceedings of the IEEE international conference on Image processing, Vancouver, CA, Sep. 2000   DOI
15 Yuechun Chu and Aura Ganz, 'A Mobile Teletrauma System Using 3G Networks', IEEE Trans. Inform. Tech. Biomed., vol. 8, no. 4, Dec. 2004   DOI   ScienceOn
16 D. M. Gagliano, 'Final report: Mobile telemedicine testbed health applications for the national information infrastructure,' National library of medicine, project N0-1-LM-6-3541, 1998