UBR: User-Centric QoE-Based Rate Adaptation for Dynamic Network Conditions
Authors: 
Wangyu Choi, Jongwon YoonAuthors Info & Claims
Article No.: 149, Pages 1 - 3
Abstract
The prevalence of video streaming applications has led to an escalation in users' demands for high-quality services. Numerous endeavors have been undertaken in the realm of quality-of-experience (QoE) models and adaptive bitrate (ABR) algorithms to fulfill this demand. Nevertheless, the existing QoE models exhibit a significant gap with users' actual experience. ABR algorithms are vulnerable in dynamic network environments. We present an integrated system with an accurate QoE model and an environment-robust adaptation algorithm to ensure high user satisfaction in dynamic network conditions. We define a QoE model that accurately estimates the user's QoE by considering the viewing environment and video content. We then design a meta-reinforcement learning-based adaptation algorithm that adapts to dynamic network conditions. We systematically integrate them, allowing it to update its policy with QoE feedback within a few shots.
References
[1]
Z. Duanmu, W. Liu, D. Chen, Z. Li, Z. Wang, Y. Wang, and W. Gao. 2019. A Knowledge-Driven Quality-of-Experience Model for Adaptive Streaming Videos. (Nov. 2019). arXiv:1911.07944 [cs.MM]
[2]
N. Eswara, S. Ashique, A. Panchbhai, S. Chakraborty, H. P. Sethuram, K. Kuchi, A. Kumar, and S. S. Channappayya. 2020. Streaming Video QoE Modeling and Prediction: A Long Short-Term Memory Approach. IEEE Trans. Circuits Syst. Video Technol. 30, 3 (March 2020), 661--673.
[3]
C. Finn, P. Abbeel, and S. Levine. 2017. Model-Agnostic Meta-Learning for Fast Adaptation of Deep Networks. arXiv:1703.03400 [cs.LG]
[4]
F. Y. Yan and H. Ayers, C. Zhu, and S. Fouladi, J. Hong, K. Zhang, P. Levis, and K. Winstein. 2020. Learning in situ: a randomized experiment in video streaming. In Proceedings of NSDI.
[5]
T-Y. Huang, R. Johari, N. McKeown, M. Trunnell, and M. Watson. 2014. A Buffer-Based Approach to Rate Adaptation: Evidence from a Large Video Streaming Service. In Proceedings of SIGCOMM. 187--198.
[6]
H. Mao, R. Netravali, and M. Alizadeh. 2017. Neural Adaptive Video Streaming with Pensieve. In Proceedings of SIGCOMM. 197--210.
[7]
W. Robitza, M-N. Garcia, and A. Raake. 2017. A Modular HTTP Adaptive Streaming QoE Model - Candidate for ITU-T P.1203 ("P.NATS"). In Proceedings of QoMEX. 1--6.
[8]
J. Schulman, F. Wolski, P. Dhariwal, A. Radford, and O. Klimov. 2017. Proximal Policy Optimization Algorithms. arXiv:1707.06347 [cs.LG]
[9]
X. Yin, A. Jindal, V. Sekar, and B. Sinopoli. 2015. A Control-Theoretic Approach for Dynamic Adaptive Video Streaming over HTTP. In Proceedings of SIGCOMM. 325--338.
Index Terms
- UBR: User-Centric QoE-Based Rate Adaptation for Dynamic Network Conditions
Index terms have been assigned to the content through auto-classification.
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Information
Published In
October 2023
1605 pages
ISBN:9781450399906
DOI:10.1145/3570361
- Chairs:
- Xavier Costa,
- Joerg Widmer,
- Co-chairs:
- Diego Perino,
- Domenico Giustiniano,
- Program Chair:
- Haitham Al Hassanieh,
- Program Co-chairs:
- Arash Asadi,
- Landon Cox
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Association for Computing Machinery
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Publication History
Published: 02 October 2023
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- Short-paper
Funding Sources
- This work was supported by Basic Science Research Program through the National Research Foundation of South Korea (NRF) funded by the Ministry of Education NRF-2022R1A2C1008743.
- MSIT, Korea, under the Grand Information Technology Research Center support program(IITP- 2023-2020-0-01741) supervised by the IITP
Conference
ACM MobiCom '23
Sponsor:
ACM MobiCom '23: 29th Annual International Conference on Mobile Computing and Networking
October 2 - 6, 2023
Madrid, Spain
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