An adaptive congestion control scheme for real-time packet video transport

In this paper we show that modulating the source rate of a video encoder based on feedback information from the network results in graceful degradation in picture quality during periods of congestion. Such source rate modulation techniques have been used in the past in designing video encoders used to generate data at a fixed rate. In such constant bit rate encoders, the source rate modulation is done using feedback information about the occupancy of a local buffer. Since the buffer is local, the feedback information is available instantaneously to the encoder. In the proposed scheme, the feedback information is delayed because it comes from within a packet-switching network. The feedback provides information about the traffic at switches along the path of the video connection. We show that the proposed scheme performs well, even though the information is delayed for relatively large intervals of time. We believe that the use of such schemes will simplify the architecture used for supporting real-time services in future nationwide gigabit networks.

[1]  Amy R. Reibman,et al.  Traffic descriptors for VBR video teleconferencing over ATM networks , 1995, TNET.

[2]  P. Pancha,et al.  MPEG coding for variable bit rate video transmission , 1994, IEEE Communications Magazine.

[3]  Wilson Kwok,et al.  Rate control for VBR MPEG video on local area networks , 1994, Electronic Imaging.

[4]  Dipankar Raychaudhuri,et al.  Variable Bit Rate Mpeg Video: Characteristics, Modeling and Multiplexing , 1994 .

[5]  V. Jacobson,et al.  The synchronization of periodic routing messages , 1993, SIGCOMM '93.

[6]  P. Pancha,et al.  Prioritized transmission of variable bit rate MPEG video , 1992, [Conference Record] GLOBECOM '92 - Communications for Global Users: IEEE.

[7]  Duan-Shin Lee,et al.  TES Modeling for Analysis of a Video Multiplexer , 1992, Perform. Evaluation.

[8]  Partho Pratim Mishra,et al.  A hop by hop rate-based congestion control scheme , 1992, SIGCOMM '92.

[9]  Ernst W. Biersack,et al.  Performance evaluation of Forward Error Correction in ATM networks , 1992, SIGCOMM '92.

[10]  Scott Shenker,et al.  Supporting real-time applications in an Integrated Services Packet Network: architecture and mechanism , 1992, SIGCOMM '92.

[11]  T. V. Lakshman,et al.  Statistical analysis and simulation study of video teleconference traffic in ATM networks , 1991, IEEE Global Telecommunications Conference GLOBECOM '91: Countdown to the New Millennium. Conference Record.

[12]  Riccardo Gusella,et al.  Motion video coding for packet-switching networks: an integrated approach , 1991, Other Conferences.

[13]  S. Jamaloddin Golestani,et al.  A Framing Strategy for Congestion Management , 1991, IEEE J. Sel. Areas Commun..

[14]  Erwin P. Rathgeb Modeling and Performance Comparison of Policing Mechanisms for ATM Networks , 1991, IEEE J. Sel. Areas Commun..

[15]  Didier Le Gall,et al.  MPEG: a video compression standard for multimedia applications , 1991, CACM.

[16]  Srinivasan Keshav,et al.  Rate controlled servers for very high-speed networks , 1990, [Proceedings] GLOBECOM '90: IEEE Global Telecommunications Conference and Exhibition.

[17]  Dinesh C. Verma,et al.  A Scheme for Real-Time Channel Establishment in Wide-Area Networks , 1990, IEEE J. Sel. Areas Commun..

[18]  Gunnar Karlsson,et al.  Performance models of statistical multiplexing in packet video communications , 1988, IEEE Trans. Commun..

[19]  Graham C. Goodwin,et al.  Adaptive filtering prediction and control , 1984 .