使用廣播群播傳輸多媒體資料之媒體接取層設計與分析

Ching-Chun Chou; 周敬淳

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/51313

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	魏宏宇
dc.contributor.author	Ching-Chun Chou	en
dc.contributor.author	周敬淳	zh_TW
dc.date.accessioned	2021-06-15T13:30:13Z	-
dc.date.available	2019-02-24
dc.date.copyright	2016-02-24
dc.date.issued	2016
dc.date.submitted	2016-02-03
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[12] Aoxue Jiang; Chunyan Feng; Tiankui Zhang. Research on resource allocation in multi-cell mbms single frequency networks. In Seventh International Conference On Wireless And Optical Communications Networks (WOCN), pages 1–5, Sept 2010. [13] Yen-Wen Chen; I-Hsuan Peng; Chien-Yu Lai. Study of radio resource allocation scheme for single carrier fdma in lte network. In IEEE 75th Vehicular Technology Conference (VTC Spring), pages 1–5, May 2012. [14] Chun-Han Ko; Ching-Chun Chou; Hsiang-Yun Meng; Hung-Yu Wei. Strategy-proof resource allocation mechanism for multi-flow wireless multicast. IEEE Transactions on Wireless Communications, 14(6):3143–3156, June 2015. [15] Jin Jin; Baochun Li. Cooperative multicast scheduling with random network coding in wimax. In 17th International Workshop on Quality of Service (IWQoS) 2009, pages 1–9, July 2009. [16] Wen-Hsing Kuo; Wanjiun Liao; Tehuang Liu. Adaptive resource allocation for layerencoded iptv multicasting in ieee 802.16 wimax wireless networks. IEEE Transactions on Multimedia, 13(1):116–124, Feb 2011. [17] Lei Chen; Xiaoxiang Wang; Gaoning He. A layered-based resource allocation algorithm for multicast services in ofdma system. In 2012 IEEE International Conference on Communications (ICC), pages 5493–5497, June 2012. [18] Jongwon Yoon; Honghai Zhang; Suman Banerjee; Sampath Rangarajan. Video multicast with joint resource allocation and adaptive modulation and coding in 4g networks. IEEE/ACM Transactions on Networking, 22(5):1531–1544, Oct 2014. [19] Peilong Li; Honghai Zhang; Baohua Zhao; Sampath Rangarajan. Fast optimal resource allocation for scalable video multicast in broadband wireless networks. In IEEE International Conference on Communications (ICC), pages 1–6, May 2010. [20] Peilong Li; Honghai Zhang; Baohua Zhao; Sampath Rangarajan. Scalable video multicast with adaptive modulation and coding in broadband wireless data systems. IEEE/ACM Transactions on Networking, 20(1):57–68, Feb 2012. [21] Yong I. Choi; Jin W. Kim; Ju H. Kim; Jin S. Jeong; Wang J. Chun; Chung G. Kang. Scalable transmission control: Svc-based dynamic resource allocation for enhanced multicast and broadcast service. IEEE Communications Letters, 16(9):1436–1438, September 2012. [22] Yong I. Choi; Jin W. Kim; Ju H. Kim; Jin S. Jeong; Wang J. Chun; Chung G. Kang. A resource management framework for mobile iptv service with scalable video coding. In 2012 Fourth International Conference on Communications and Electronics (ICCE), pages 136–140, Aug 2012. [23] Hsiang-Yun Meng; Ching-Chun Chou; Rafael Kaliski; Hung-Yu Wei. An on-demand qoe resource allocation algorithm for multi-flow lte embms. In 2015 24th Wireless and Optical Communication Conference (WOCC), pages 93–97, Oct 2015. [24] 3GPP TS 23.468 V12.7.0 Group Communication System Enablers for LTE. Dec. 2015. [25] 3GPP TR 26.849 V12.710 Multimedia Broadcast/Multicast Service (MBMS) improvements; MBMS operation on demand. June 2015. [26] David Maier. The complexity of some problems on subsequences and supersequences. Journal of the ACM (JACM), 25(2):322–336, 1978. [27] S. Schwarz, J.C. Ikuno, M. Simko, M. Taranetz, Q. Wang, and M. Rupp. Pushing the limits of LTE: A survey on research enhancing the standard. IEEE Access, 1:51–62, 2013. [28] A. Detti, G. Bianchi, W. Kellerer, et al. SVEF: an open-source experimental evaluation framework. In In Proc. of IEEE MediaWIN 2009, Sousse, Tunisia, 2009. [29] 3GPP TR 36.814 V9.0.0. Further advancements for E-UTRA physical layer aspects; Evolved Universal Terrestrial Radio Access, Technical Report. March 2010. [30] 3GPP TS 36.213 V12.5.0. Physical layer procedures; Evolved Universal Terrestrial Radio Access, Technical Specification. March 2015. [31] Josep Colom Ikuno; Martin Wrulich; Markus Rupp. System level simulation of lte networks. In 2010 IEEE 71st Vehicular Technology Conference (VTC 2010-Spring), pages 1–5, May 2010. [32] Foreman yuv video. ftp://ftp.tnt.uni-hannover.de/pub/svc/testsequences/. [33] H. Schwarz, J. Vieron, T. Wiegand, M. Wien, A. Eleftheriadis, and V. Bottreau. JSVM text, software, and conformance status. Doc. VCEG-AM13, ITU-T SG16/Q6 VCEG, Kyoto, Japan, January 2010. [34] Hung-Yu Wei; Ching-Chun Chou; Cheng-Chih Chao; Guosen Yue; Xiaodong Wang; Sampath Rangarajan; Mohammad Amir Khojastepour; Chun-Yen Wang; Frank Ren. IEEE 802.16m Session 63.5, E-MBS Drafting Group Contribution C802.16m-09/1682r2, Network Coding based E-MBS Retransmission. Sept. 2009. [35] Hung-Yu Wei; Ching-Chun Chou. United States Patent Application, US20120155361 A1, WIRELESS TRANSMISSION METHOD, BASE STATION, RELAY STATION AND MOBILE STATION USING THE SAME. June 2012. [36] Chen-Yu Yang; Ching-Chun Chou; Hung-Yu Wei. Synchronous multicast and broadcast service in multi-rate ieee 802.16j wimax relay network. Wireless Networks, 17(8):1795–1807, November 2011. [37] ITRI. 3GPP TSG-RAN WG2 Meeting76 contribution, 3GPP R2-116301, Providing neighboring MBSFN information on MCCH. 2012. [38] Hung-Yu Wei; Ching-Chun Chou; Tzu-Ming Lin. United States Patent Application, US20130035129 A1, Systems and Methods for Service in Multimedia Broadcast Multicast Services. Feb. 2013. [39] Hung-Yu Wei; Ching-Chun Chou. United States Patent Application, US20150350284 A1, Method of Enhancement of Data Transmission in Multimedia Service. 12 2015.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/51313	-
dc.description.abstract	次世代行動通訊系統中，由第三代合作夥伴計劃所帶領的通訊標準佔有相當重要的地位。他們定義了多媒體廣播群播服務來傳送影音等多媒體資料。單頻網的技術也被納入其中。但是，隨著多媒體資料對頻寬的需求越來越高，需要有效的方式來減少所需要的無線資源。可適性視訊編碼允許我們把一部影片，壓縮成多個的影像層，隨著使用者所收到的層數增加，影像的品質也會提升。結合可適性視訊編碼和單頻網的調控，我們可以進一步提升使用者的滿意度，同時減少系統的資源消耗。我們提出了使用最長共同子字串的方式，來評估系統中可供單頻網傳輸所使用的頻寬；同時提出新的演算法來設置單頻網的涵蓋範圍與對應的影像層。只要有目前的可用無線網路資源及使用者的滿意度資訊，此演算可以增進系統的整體滿意度與資源利用效率。除此之外，我們也提供了一個模擬平臺，用於將影音資訊傳送到模擬系統內，同時根據所提出的演算法進行單頻網設置，最後將取得的資料傳輸結果還原成影片，用以分析其效能。	zh_TW
dc.description.abstract	Long Term Evolution (LTE), is the next-generation technology for cellular communication. Single Frequency Network (SFN) data distribution is available in the Multimedia Broadcast Multicast Service (MBMS) specification. To transmit H.264 scalable video coding (SVC) video layers in LTE MBMS, we need to consider the integration of SFN configuration and video layer distribution. We propose a model to formulate the SFN configuration among multiple cells with a common set of sub-carriers. Longest Common Subsequence (LCS) is applied to find out the maximum available resource for the SFN. Besides, we also propose an algorithm to distribute each video layers over distinguished SFN. Given the available SFN resource, we can properly adjust the number of video layers and the coverage of the corresponding SFN, enhancing the resource utility in LTE MBMS system. A simulation platform is also presented to carry out the video delivery over the aforementioned system.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T13:30:13Z (GMT). No. of bitstreams: 1 ntu-105-F95921098-1.pdf: 1673441 bytes, checksum: f1857939f2c3aa49b5db6c2c504c2579 (MD5) Previous issue date: 2016	en
dc.description.tableofcontents	口試委員會審定書 i 中文摘要ii Abstract iii Contents iv List of Figures vii List of Tables viii 1 Introduction p.1 1.1 Motivation p.1 1.2 Dissertation Outline p.2 2 Background and Related Works p.4 2.1 SFN Resource Allocation p.4 2.2 Cross-layer Design on Video Distribution p.5 2.3 3GPP MBMS Evolution p.6 3 System Introduction and Problem Formulation p.8 3.1 LTE MBMS Resource p.8 3.2 Longest Common Subsequence Formulation p.9 3.2.1 eNB Sequence Transformation p.10 3.3 The Proposed Method p.13 3.4 The Heuristic Algorithm p.15 4 Simulation Platform p.17 4.1 The Simulation platform p.17 4.2 Simulation Environment p.19 5 Performance Evaluation and Discussions p.21 5.1 Metrics for Performance Evaluation p.21 5.2 Algorithm for Comparison p.22 5.2.1 Unicast p.22 5.2.2 Single SFN for all the video layers p.22 5.3 Simulation Results and Discussions p.23 5.4 Scenario 1 p.23 5.5 Scenario 2 p.27 5.6 Future Work p.28 5.6.1 Mobility p.28 5.6.2 Dynamic SFN configuration p.30 6 Conclusions p.31 A Related Research Activities in Wireless Multicast p32 A.1 Feedback Design p.32 A.2 Extra Reliability p.34 A.3 Multicast Configuration p.34 A.4 Real-world Integration p.35 A.4.1 MBMS Service Continuity Enhancement p.36 A.4.2 Datacasting p.37 B Contribution List p.39 B.1 Papers p.39 B.2 Contributions to Standard Specifications p.40 B.3 Patents p.48 Bibliography p.50
dc.language.iso	en
dc.title	使用廣播群播傳輸多媒體資料之媒體接取層設計與分析	zh_TW
dc.title	Medium Access Layer Design and Analysis for Multimedia Broadcast Multicast	en
dc.type	Thesis
dc.date.schoolyear	104-1
dc.description.degree	博士
dc.contributor.oralexamcommittee	王志宇,林靖茹,蘇柏青,逄愛君
dc.subject.keyword	廣播,群播,長期演進計劃,第三代合作夥伴計劃,單頻網,最長子字串,可適性影音串流評估架構,維也納大學長期演進計劃模擬器,	zh_TW
dc.subject.keyword	Multicast,Long Term Evolution,LTE,3rd Generation Project Partnership,3GPP,Single Frequency Network,SFN,Longest Common Subsequence,LCS,Scalable Video-streaming Evaluation Framework,SVEF,LTE Simulator,	en
dc.relation.page	54
dc.rights.note	有償授權
dc.date.accepted	2016-02-04
dc.contributor.author-college	電機資訊學院	zh_TW
dc.contributor.author-dept	電機工程學研究所	zh_TW
顯示於系所單位：	電機工程學系

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