Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications
Wireless video chat is a power-consuming and bitrate-intensive application. Unlike video streaming, which is one-way traffic, video chat features distributed two-way traffic relayed via base stations, where resource allocation of a client affects the video quality seen by its communicating partner....
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sg-ntu-dr.10356-819282020-03-07T13:57:24Z Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications Chuah, Seong-Ping Tan, Yap Peng Chen, Zhenzhong School of Electrical and Electronic Engineering Pricing mechanism Joint rate and power allocation Wireless video chat is a power-consuming and bitrate-intensive application. Unlike video streaming, which is one-way traffic, video chat features distributed two-way traffic relayed via base stations, where resource allocation of a client affects the video quality seen by its communicating partner. In this paper, we study the mechanism design of this application via dynamic pricing, and seek efficiency and fairness of resource utilization. Specifically, we assume that the base station relays video bitstreams and charges a service price on the clients based on the transmission power consumption. Based on the price and a given power budget, the clients allocate bitrate and power for video coding and transmission such that the service price and the distortion seen by their partners are minimized. We study such network dynamics in Stackelberg game-theoretic framework. To solve the problem, we propose a complexity-scalable video encoding method and a power-rate-distortion (PRD) model for video chat. The model is more accurate in describing the PRD characteristics, yet of lower complexity in online updates of its coefficients. Based on the PRD model, we derive the distributed rate and power allocations for the clients. We show that a simple pricing update in the base stations is sufficient for optimal pricing. The proposed algorithms are optimal and converge to the Stackelberg equilibrium. Existing SNR- and power-based pricing schemes could not ensure fairness and efficiency simultaneously. We propose a hybrid pricing scheme that balances these conflicting criteria. Extensive simulations demonstrate superior performance of the proposed methods and solutions. ASTAR (Agency for Sci., Tech. and Research, S’pore) 2016-08-04T09:25:47Z 2019-12-06T14:43:16Z 2016-08-04T09:25:47Z 2019-12-06T14:43:16Z 2015 Journal Article Chuah, S.-P., Tan, Y.-P., & Chen, Z. (2015). Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications. IEEE Transactions on Multimedia, 17(5), 687-699. https://hdl.handle.net/10356/81928 http://hdl.handle.net/10220/41071 10.1109/TMM.2015.2413354 en IEEE Transactions on Multimedia © 2015 IEEE. 13 p. |
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Pricing mechanism Joint rate and power allocation |
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Pricing mechanism Joint rate and power allocation Chuah, Seong-Ping Tan, Yap Peng Chen, Zhenzhong Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications |
| description |
Wireless video chat is a power-consuming and bitrate-intensive application. Unlike video streaming, which is one-way traffic, video chat features distributed two-way traffic relayed via base stations, where resource allocation of a client affects the video quality seen by its communicating partner. In this paper, we study the mechanism design of this application via dynamic pricing, and seek efficiency and fairness of resource utilization. Specifically, we assume that the base station relays video bitstreams and charges a service price on the clients based on the transmission power consumption. Based on the price and a given power budget, the clients allocate bitrate and power for video coding and transmission such that the service price and the distortion seen by their partners are minimized. We study such network dynamics in Stackelberg game-theoretic framework. To solve the problem, we propose a complexity-scalable video encoding method and a power-rate-distortion (PRD) model for video chat. The model is more accurate in describing the PRD characteristics, yet of lower complexity in online updates of its coefficients. Based on the PRD model, we derive the distributed rate and power allocations for the clients. We show that a simple pricing update in the base stations is sufficient for optimal pricing. The proposed algorithms are optimal and converge to the Stackelberg equilibrium. Existing SNR- and power-based pricing schemes could not ensure fairness and efficiency simultaneously. We propose a hybrid pricing scheme that balances these conflicting criteria. Extensive simulations demonstrate superior performance of the proposed methods and solutions. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Chuah, Seong-Ping Tan, Yap Peng Chen, Zhenzhong |
| format |
Article |
| author |
Chuah, Seong-Ping Tan, Yap Peng Chen, Zhenzhong |
| author_sort |
Chuah, Seong-Ping |
| title |
Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications |
| title_short |
Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications |
| title_full |
Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications |
| title_fullStr |
Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications |
| title_full_unstemmed |
Rate and Power Allocation for Joint Coding and Transmission in Wireless Video Chat Applications |
| title_sort |
rate and power allocation for joint coding and transmission in wireless video chat applications |
| publishDate |
2016 |
| url |
https://hdl.handle.net/10356/81928 http://hdl.handle.net/10220/41071 |
| _version_ |
1681046018544631808 |