References

[1] M.-T. Sun and A. Reibman, eds, Compressed Video over Networks, Marcel Dekker, New York, 2001.

[2] G. Conklin,G. Greenbaum,K. Lillevold,A. Lippman, and Y. Reznik, Video Coding for Streaming Media Delivery on the Internet, IEEE Trans. Circuits and Systems for Video Technology, March 2001.

[3] D. Wu,Y. Hou,W. Zhu,Y.-Q. Zhang, and J. Peha, Streaming Video over the Internet: Approaches and Directions, IEEE Transactions on Circuits and Systems for Video Technology, March 2001.

[4] B. Girod,J. Chakareski,M. Kalman,Y. Liang,E. Setton, and R. Zhang, Advances in Network-Adaptive Video Streaming, 2002 Tyrrhenian Inter. Workshop on Digital Communications, Sept 2002.

[5] Y. Wang,J. Ostermann, and Y.-Q. Zhang, Video Processing and Communications, New Jersey, Prentice-Hall, 2002.

[6] www.realnetworks.com

[7] www.microsoft.com/windows/windowsmedia

[8] G. K. Wallace, The JPEG Still Picture Compression Standard, Communications of the ACM, April, 1991.

[9] V. Bhaskaran and K. Konstantinides, Image and Video Compression Standards: Algorithms and Architectures, Boston, Massachusetts: Kluwer Academic Publishers, 1997.

[10] J. Apostolopoulos and S. Wee, Video Compression Standards, Wiley Encyclopedia of Electrical and Electronics Engineering, John Wiley & Sons, Inc., New York, 1999.

[11] Video codec for audiovisual services at px64 kbits/s, ITU-T Recommendation H.261, Inter. Telecommunication Union, 1993.

[12] Video coding for low bit rate communication, ITU-T Rec. H.263, Inter. Telecommunication Union, version 1, 1996; version 2, 1997.

[13] ISO/IEC 11172, Coding of moving pictures and associated audio for digital storage media at up to about 1.5 Mbits/s. International Organization for Standardization (ISO), 1993.

[14] ISO/IEC 13818. Generic coding of moving pictures and associated audio information. International Organization for Standardization (ISO), 1996.

[15] ISO/IEC 14496. Coding of audio-visual objects. International Organization for Standardization (ISO), 1999.

[16] M. Gerla and L. Kleinrock, Flow Control: A Comparative Survey, IEEE Trans. Communications, Vol. 28 No. 4, April 1980, pp 553–574.

[17] V. Jacobson, Congestion Avoidance and Control, ACM SIGCOMM, August 1988.

[18] M. Mathis et al., The Macroscopic Behavior of the TCP Congestion Avoidance Algorithm, ACM Computer Communications Review, July 1997.

[19] J. Padhye et al., Modeling TCP Reno Performance: A Simple Model and its Empirical Validation, IEEE/ACM Trans. Networking, April 2000.

[20] W. Tan and A. Zakhor, Real-time Internet Video using Error-Resilient Scalable Compression and TCP-friendly Transport Protocol, IEEE Trans. on Multimedia, June 1999.

[21] S. Floyd et al., Equation-based Congestion Control for Unicast Applications, ACM SIGCOMM, August 2000.

[22] S. McCanne,V. Jacobsen, and M. Vetterli, Receiver-driven layered multicast, ACM SIGCOMM, Aug. 1996.

[23] S. Wee,J. Apostolopoulos and N. Feamster, Field-to-Frame Transcoding with Temporal and Spatial Downsampling, IEEE International Conference on Image Processing, October 1999.

[24] P. White, RSVP and Integrated Services in the Internet: A Tutorial, IEEE Communications Magazine, May 1997.

[25] M. Kalman,E. Steinbach, and B. Girod, Adaptive Media Playout for Low Delay Video Streaming over Error-Prone Channels, preprint, to appear IEEE Trans. Circuits and Systems for Video Technology.

[26] Y. Wang and Q. Zhu, Error control and concealment for video communications: A review, Proceedings of the IEEE, May 1998.

[27] N. F rber,B. Girod, and J. Villasenor, Extension of ITU-T Recommendation H.324 for error-resilient video transmission, IEEE Communications Magazine, June 1998.

[28] R. Talluri, Error-resilient video coding in the ISO MPEG-4 standard, IEEE Communications Magazine, June 1998.

[29] P. Chou and Z. Miao, Rate-distortion optimized streaming of packetized media, IEEE Trans. on Multimedia, submitted Feb. 2001.

[30] D. Clark and D. Tennenhouse, Architectural Considerations for a New Generation of Protocols, ACM SIGCOMM, September 1990.

[31] B. Girod and N. F rber, Feedback-based error control for mobile video transmission, Proceedings of the IEEE, October 1999.

[32] S. Fukunaga,T. Nakai, and H. Inoue, Error resilient video coding by dynamic replacing of reference pictures, GLOBECOM, Nov. 1996.

[33] S. Wenger, Video Redundancy Coding in H.263+, Workshop on Audio-Visual Services for Packet Networks, September 1997.

[34] V. Vaishampayan and S. John, Interframe balanced-multiple-description video compression, IEEE Inter Conf. on Image Processing, Oct. 1999.

[35] A. Reibman,H. Jafarkhani,Y. Wang,M. Orchard, and R. Puri, Multiple description coding for video using motion compensated prediction, IEEE Inter. Conf. Image Processing, October 1999.

[36] J. Apostolopoulos, Error-resilient video compression via multiple state streams, Proc. International Workshop on Very Low Bitrate Video Coding (VLBV'99), October 1999.

[37] J. Apostolopoulos and S. Wee, Unbalanced Multiple Description Video Communication Using Path Diversity, IEEE International Conference on Image Processing, October 2001.

[38] J. Apostolopoulos, Reliable Video Communication over Lossy Packet Networks using Multiple State Encoding and Path Diversity, Visual Communications and Image Processing, January 2001.

[39] N. Gogate and S. Panwar, Supporting video/image applications in a mobile multihop radio environment using route diversity, Proceedings Inter. Conference on Communications, June 1999.

[40] N. Gogate,D. Chung,S.S. Panwar, and Y. Wang, Supporting image/video applications in a mobile multihop radio environment using route diversity and multiple description coding, Preprint.

[41] A. Reibman,Y. Wang,X. Qiu,Z. Jiang, and K. Chawla, Transmission of Multiple Description and Layered Video over an (EGPRS) Wireless Network, IEEE Inter. Conf. Image Processing, September 2000.

[42] J. Apostolopoulos,W. Tan,S. Wee, and G. Wornell, Modeling Path Diversity for Multiple Description Video Communication, IEEE Inter. Conference on Acoustics, Speech, and Signal Processing, May 2002.

[43] J. Apostolopoulos,T. Wong,W. Tan, and S. Wee, On Multiple Description Streaming with Content Delivery Networks, IEEE INFOCOM, July 2002.

[44] Y. Liang,E. Setton and B. Girod, Channel-Adaptive Video Streaming Using Packet Path Diversity and Rate-Distortion Optimized Reference Picture Selection, to appear IEEE Fifth Workshop on Multimedia Signal Processing, Dec. 2002.

[45] www.3gpp.org

[46] www.isma.tv

[47] S. Cheung,M. Ammar and X. Li, On the use of Destination Set Grouping to Improve Fairness in Multicast Video Distribution, IEEE INFOCOM, March 1996.

[48] W. Tan and A. Zakhor, Video Multicast using Layered FEC and Scalable Compression, IEEE Trans. Circuits and Systems for Video Technology, March 2001.

[49] S. Wee,J. Apostolopoulos, Secure Scalable Video Streaming for Wireless Networks, IEEE International Conference on Acoustics, Speech, and Signal Processing, May 2001.

[50] S. Wee,J. Apostolopoulos, Secure Scalable Streaming Enabling Transcoding without Decryption, IEEE International Conference on Image Processing, October 2001.

[51] Z. Miao and A. Ortega, Scalable Proxy Caching of Video under Storage Constraints, IEEE Journal on Selected Areas in Communications, to appear 2002.

[52] S. Roy,B. Shen,V. Sundaram, and R. Kumar, Application Level Hand-off Support for Mobile Media Transcoding Sessions, ACM NOSSDAV, May, 2002.

[53] V. N. Padmanabhan,H. J. Wang,P. A. Chou, and K. Sripanidkulchai, Distributing streaming media content using cooperative networking, ACM NOSSDAV, May 2002.

[54] T. Nguyen and A. Zakhor, Distributed video streaming over internet SPIE Multimedia Computing and Networking 2002, January 2002.

[55] J. Byers,M. Luby, and M. Mitzenmacher, Accessing multiple mirror sites in parallel: Using tornado codes to speed up downloads, IEEE INFOCOM, 1999.