Video Traces for Network Performance Evaluation

Patrick Seeling and Martin Reisslein. I. Want. Pixels. (Entering the Age of 4k), IEEE Potentials , 33(6):27-30, November/December 2014.

Patrick Seeling and Martin Reisslein. Video Traffic Characteristics of Modern Encoding Standards: H.264/AVC with SVC and MVC Extensions and H.265/HEVC, The Scientfic World Journal , Vol. 2014 (2014), Article ID 189481, pp. 1-16, 2014.

Akshay Pulipaka, Patrick Seeling, Martin Reisslein, and Lina J. Karam. Traffic and Statistical Multiplexing Characterization of 3-D Video Representation Formats, IEEE Transactions on Broadcasting , 59(2):382-389, June 2013. (Extended Version)

Akshay Pulipaka, Patrick Seeling, and Martin Reisslein. Traffic Models for H.264 Video Using Hierarchical Prediction Structures. In Proc. of IEEE Globecom, December 2012.

Patrick Seeling and Martin Reisslein. Video Transport Evaluation With H.264 Video Traces. IEEE Communications Surveys and Tutorials, 14(4):1142-1165, Fourth Quarter 2012.

Rohan Gupta, Akshay Pulipaka, Patrick Seeling, Lina J. Karam, and Martin Reisslein. H.264 Coarse Grain Scalable (CGS) and Medium Grain Scalable (MGS) Encoded Video: A Trace Based Traffic and Quality Evaluation, IEEE Transactions on Broadcasting , 58(3): 428-439, September 2012.

Shyamprasad Chikkerur, Vijay Sundaram, Martin Reisslein, and Lina J. Karam. Objective Video Quality Assessment Methods: A Classification, Review, and Performance Comparison, IEEE Transactions on Broadcasting , 57(2):165-182, June 2011.

Patrick Seeling, Frank H.P. Fitzek, Gergo Ertli, Akshay Pulipaka, and Martin Reisslein. Video network traffic and quality comparison of VP8 and H.264 SVC, Proc. of ACM Workshop on Mobile Video Delivery (MoViD), pages 33-37, October 2010.

Sudhir K. Srinivasan, Jonathan Vahabzadeh, and Martin Reisslein. The Effects of Priority Levels and Buffering on the Statistical Multiplexing of Single-Layer H.264/AVC and SVC Encoded Video Streams, IEEE Transactions on Broadcasting , 56(3): 281-287, September 2010. (Extended Version) Technical Report, Electrical, Computer, and Energy Eng., ASU, April 2010.

Geert Van der Auwera and Martin Reisslein. Implications of Smoothing on Statistical Multiplexing of H.264/AVC and SVC Video Streams, IEEE Transactions on Broadcasting , 55(3):541-558, September 2009.

Geert Van der Auwera, Prasanth T. David, Martin Reisslein, and Lina Karam. Traffic and Quality Characterization of the H.264/AVC Scalable Video Coding Extension, Advances in Multimedia , Article ID 164027, 27 pages, 2008.

Geert Van der Auwera, Prasanth T. David, and Martin Reisslein. Traffic and Quality Characterization of Single-Layer Video Streams Encoded with H.264/MPEG-4 Advanced Video Coding Standard and Scalable Video Coding Extension, IEEE Transactions on Broadcasting , 54(3):698-718, September 2008.

Geert Van der Auwera, Prasanth T. David, and Martin Reisslein. Traffic Characteristics of H.264/AVC Variable Bit Rate Video, IEEE Communications Magazine , 46(11):164-174, November 2008.

Geert Van der Auwera, Martin Reisslein, and Lina Karam. Video Texture and Motion Based Modeling of Rate Variability-Distortion (VD) Curves, IEEE Transactions on Broadcasting , 53(3):637-648, September 2007. Preliminary version as Geert Van der Auwera, Martin Reisslein and Lina J. Karam, Video Texture and Motion Based Modeling of Rate Variability-Distortion (VD) Curves of I, P, and B Frames, In Proceedings of IEEE Int. Conference on Multimedia and Expo (ICME), pages 1405-1408, Toronto, Canada, July 2006.

Osama Lotfallah, Geert Van der Auwera, and Martin Reisslein. Adaptive Bitstream Switching of Scalable Video, Signal Processing: Image Communications, 22(10):809-832, November 2007.

Patrick Seeling, Frank H.P. Fitzek, and Martin Reisslein. Video Traces for Network Performance Evaluation—A Comprehensive Overview and Guide on Video Traces and Their Utilization in Networking Research, Springer Verlag, 272 pages, ISBN 978-1-4020-5565-2, 2007.

Osama Lotfallah, Martin Reisslein, and Sethuraman Panchanathan. Adaptive Video Transmission Schemes Using MPEG-7 Motion Intensity Descriptor, IEEE Transactions on Circuits and Systems for Video Technology , 16(8):929–946, August 2006.

Osama Lotfallah, Martin Reisslein, and Sethuraman Panchanathan. A Framework for Advanced Video Traces: Evaluating Visual Quality for Video Transmission Over Lossy Networks. EURASIP Journal on Applied Signal Processing , Article ID 42083, pages 1-21, 2006.

Patrick Seeling, Martin Reisslein, and Frank H.P. Fitzek. Offset Trace-Based Video Quality Evaluation after Network Transport. Journal of Multimedia , 1(2):1-13, May 2006.
Related conference papers: P. Seeling, M. Reisslein, and F.H.P. Fitzek. Layered Video Coding Offset Distortion Traces for Trace-Based Evaluation of Video Quality after Network Transport. In Proceedings of IEEE Int. Conference on Consumer Communications and Networking (CCNC’06), pages 292-296, Las Vegas, NV, January 2006. Paper won 2nd place Best Paper Award of the conference.
Patrick Seeling and Martin Reisslein. Video Offset Distortion Descriptors for Trace-Based Video Performance Evaluation. In Proceedings of IEEE Int. Conference on Computer Communications and Networks (ICCCN’05), pages 375-380, San Diego, CA, October 2005

Patrick Seeling and Martin Reisslein. The Rate Variability-Distortion (VD) Curve of Encoded Video and its Impact on Statistical Multiplexing. IEEE Transactions on Broadcasting , 51(4):473–492, December 2005.

Patrick Seeling and Martin Reisslein. Evaluating Multimedia Networking Mechanisms Using Video Traces. IEEE Potentials , 24(4):21-25, October/November 2005.Patrick Seeling, Martin Reisslein, and Beshan Kulapala. Network Performance Evaluation with Frame Size and Quality Traces of Single-Layer and Two-Layer Video: A Tutorial. IEEE Communications Surveys and Tutorials, Vol. 6, No. 3, pages 58-78, Third Quarter 2004.

Martin Reisslein, Jeremy Lassetter, Sampath Ratnam, Osama Lotfallah, Frank Fitzek, and Sethuraman Panchanathan.
Traffic and Quality Characterization of Scalable Encoded Video: A Large-Scale Trace-Based Study,
Part 1: Overview and Definitions (first posted: June 2002, revised Dec. 2002)
Part 2: Statistical Analysis of Single-Layer Encoded Video (first posted Dec. 2002)
Part 3: Statistical Analysis of Temporal Scalable Encoded Video (first posted Dec. 2002)
Part4: Statistical Analysis of Spatial Scalable Encoded Video (first posted Dec. 2003)
Technical Report Telecommunications Research Center, Dept. of Electrical Eng. Arizona State University, June 2002.

Video traces available at:
http://trace.eas.asu.edu
http://traces.kom.aau.dk

https://faculty.engineering.asu.edu/mre/research/videometer-4/

Frank H.P. Fitzek and Martin Reisslein MPEG-4 and H.263 Video Traces for Network Performance Evaluation. IEEE Network , 15(6):40-54, November/December 2001.
see also: MPEG-4 and H.263 Video Traces for Network Performance Evaluation (extended version). Technical Report No. TKN-00-06, Technical University Berlin, Dept. of Electrical Engineering , Telecommunication Networks Group, October 2000

Old video trace website at TU Berlin

Patrick Seeling, Philippe de Cuetos, and Martin Reisslein. Fine Granularity Scalable (FGS) Video: Implications for Streaming and a Trace-Based Evaluation Methodology. IEEE Communications Magazine, 43(4):138-142, April 2005.

Philippe de Cuetos, Patrick Seeling, Martin Reisslein, and Keith W. Ross. Comparing the Streaming of FGS-Encoded Video at Different Aggregation Levels: Frame, GoP, and Scene. International Journal of Communication Systems (Wiley), 18(5):449-464, June 2005.

Philippe de Cuetos, Martin Reisslein, and Keith W. Ross. Evaluating the Streaming of FGS-Encoded Video with Rate-Distortion Traces.Technical Report Arizona State University and Institut Eurecom (RR-03-078), June 2003

Video traces are available at
http://trace.eas.asu.edu/

Frank H.P. Fitzek, Patrick Seeling, and Martin Reisslein. H.26L Pre-Standard Evaluation. Technical Report: acticom-02-002, acticom GmbH, Germany, Telecommunications Research Center, ASU, Tempe, December 2002
Video Traces are available at
http://trace.eas.asu.edu
http://www.acticom.info

Fitzek P. Seeling M.Reisslein M. Rossi M. Zorzi. Investigation of the GoP Structure for H.26L Video Streams. Technical Report acticom-02-004, December 2002

Patrick Seeling, Frank Fitzek, and Martin Reisslein. VideoMeter tool for YUV bistreams. Technical Report acticom-02-001, Telecommunications Research Center, ASU, and acticom GmbH,
Tempe, AZ and Berlin, Germany. October 2002. Summary in IEEE Network, Software Tools for Networking, Vol. 17, No. 1, page 5, January/February 2003.
Download from the VideoMeter pages:
http://www.acticom.de/videometer.html
http://dev-martin-reisslein.pantheonsite.io/videometer

F.H.P. Fitzek, P. Seeling, M. Reisslein, R.Rugin, and M. Zorzi. ViTAN: A Visualization Tool for Ad Hoc Networks. In Proceedings of Wireless Personal Multimedia Communications (WPMC), pages 161-164, Abano Terme, Italy, September 2004.

Kulapala, P. Seeling, and M.Reisslein.
Comparison of Traffic and Quality Characteristics of Rate-Controlled Wavelet and DCT Video, In Proceedings of IEEE Int. Conference on Computer Communications and Networks (ICCCN’04), pages 247-252, Chicago, IL, October 2004.
Fitzek, M. Zorzi, P. Seeling, and M.Reisslein. Video and Audio Trace Files of Pre-encoded Video Content for Network Performance Measurements.In Proceedings of IEEE Consumer Communications and Networking Conference (CCNC), pages 245–250, Las Vegas, NV, January 2004.