Audio transmission over the Internet: experiments and observations

The performance of IP telephony systems is highly dependent on the audio codecs and their reaction to packet loss and instantaneous delays. Understanding the interaction between audio encoding and the dynamic behavior of the Internet is significant for designing adaptive audio transport mechanisms. For this purpose, we conducted a large-scale audio transmission experiment over the Internet in a 12-month period using various Internet sites. As a result of this experiment, we have made a number of new observations to assess the audio quality of G.711 and G.728 codes under different loss and delay conditions. The paper also states a number of recommendations for implementing efficient adaptive FEC and playout mechanisms.

[1]  Nicholas F. Maxemchuk,et al.  Measurement and interpretation of voice traffic on the Internet , 1997, Proceedings of ICC'97 - International Conference on Communications.

[2]  Guido Henri Marguerite Petit,et al.  DELAY AND DISTORTION BOUNDS FOR PACKETIZED VOICE CALLS OF TRADITIONAL PSTN QUALITY , 2000 .

[3]  Hossam Afifi,et al.  Integrating networks measurements and speech quality subjective scores for control purposes , 2001, Proceedings IEEE INFOCOM 2001. Conference on Computer Communications. Twentieth Annual Joint Conference of the IEEE Computer and Communications Society (Cat. No.01CH37213).

[4]  Daniel A. Spielman,et al.  Practical loss-resilient codes , 1997, STOC '97.

[5]  Jean-Chrysostome Bolot,et al.  Control mechanisms for packet audio in the Internet , 1996, Proceedings of IEEE INFOCOM '96. Conference on Computer Communications.

[6]  J. J. Garcia-Luna-Aceves,et al.  Multimedia Communications: Protocols and Applications , 1997 .

[7]  M. Angela Sasse,et al.  Measuring perceived quality of speech and video in multimedia conferencing applications , 1998, MULTIMEDIA '98.

[8]  Fouad A. Tobagi,et al.  Analysis of the delay and jitter of voice traffic over the Internet , 2001, Proceedings IEEE INFOCOM 2001. Conference on Computer Communications. Twentieth Annual Joint Conference of the IEEE Computer and Communications Society (Cat. No.01CH37213).

[9]  E. Al-Shaer,et al.  On studying the impact of the Internet delays on audio transmission , 2002, IEEE Workshop on IP Operations and Management.

[10]  Jean-Chrysotome Bolot End-to-end packet delay and loss behavior in the internet , 1993, SIGCOMM 1993.

[11]  Olof Hagsand,et al.  Measuring Internet telephony quality: where are we today? , 1999, Seamless Interconnection for Universal Services. Global Telecommunications Conference. GLOBECOM'99. (Cat. No.99CH37042).

[12]  Vern Paxson,et al.  End-to-end Internet packet dynamics , 1997, SIGCOMM '97.

[13]  Michael S. Borella,et al.  Internet packet loss: measurement and implications for end-to-end QoS , 1998, Proceedings of the 1998 ICPP Workshop on Architectural and OS Support for Multimedia Applications Flexible Communication Systems. Wireless Networks and Mobile Computing (Cat. No.98EX206).

[14]  A. Mena,et al.  An empirical study of real audio traffic , 2000, Proceedings IEEE INFOCOM 2000. Conference on Computer Communications. Nineteenth Annual Joint Conference of the IEEE Computer and Communications Societies (Cat. No.00CH37064).

[15]  Masayuki Arai,et al.  Measurement and modeling of burst packet losses in Internet end-to-end communications , 1999, Proceedings 1999 Pacific Rim International Symposium on Dependable Computing.

[16]  Donald F. Towsley,et al.  Packet audio playout delay adjustment: performance bounds and algorithms , 1998, Multimedia Systems.

[17]  X. Q. Sun,et al.  Low rate speech coding for telecommunications , 1996 .