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研究生:蔡榮燦
研究生(外文):CAI, RONG-CAN
論文名稱:基於混合V2V及4G LTE系統之封包傳送最佳化
論文名稱(外文):Packets Transmitting Optimization in VANET V2V and 4G LTE Hybrid System
指導教授:王朱福
指導教授(外文):WANG, CHU-FU
口試委員:施釗德吳庭育
口試委員(外文):SHIH, JAU-DERWU, TIN-YU
口試日期:2016-06-27
學位類別:碩士
校院名稱:國立屏東大學
系所名稱:資訊科學系碩士班
學門:工程學門
學類:電資工程學類
論文種類:學術論文
論文出版年:2016
畢業學年度:104
語文別:中文
論文頁數:24
中文關鍵詞:車載網路異質網路4G LTE
外文關鍵詞:VANETHeterogeneous network4G LTE
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在1999年美國聯邦提出5.9Ghz到75Mhz的傳輸頻道預給車載網路的DSRC協定使用,讓車載網路透過DSRC進行無線傳輸,直到2002年車載網路增加物理層IEEE802.11p傳輸規範,才有車載網路最初的雛形。現今,行動網路已經是成熟的通訊網路,而車載網路因為傳輸規範的限制,沒有進一步的新規範,造成頻寬上的限制,要突破這個限制的解決方法,只能以目前的通訊網路結構去做結合發展,讓多媒體串流所需的大頻寬,能夠在車載中可以穩定的使用,而不會發生鏈結易斷裂的情況。本學位論文針對VANET V2V系統與4G LTE系統成為一整合之異質網路,透過機率模型提出估算V2V的有效頻寬方法,而4G LTE系統則用距離平方成反比的方式來估算其有效頻寬,得知監測位置兩者之有效頻寬後,再讓當前車輛依其位置去選擇最佳傳輸路徑。
The Federal Government of the United States designated the frequency band of 5.9 GHz to 75 MHz to the dedicated short-range communication (DSRC) protocol in 1999, which enabling wireless transmission of VANET. The IEEE 802.11p transmission specifications were standardized in 2002, forming the prototype of VANETs. At present, mobile networks are mature communication networks while new regulations for VANETs have been scarce due to their transmission limitations. This has caused a considerable setback in the researches of VANET. To integrate the telecommunication networks (such as 4G LTE system) into the VANET environment is a promising approach to the limited bandwidth of VANETs. The transmitting of bandwidth-intensive multimedia streaming among vehicles will no longer being interrupted by connection failures. The considered environment of this thesis is a heterogeneous network that is interrogating by VANET V2V system and a 4G LTE system. A probability model was developed to estimate the effective bandwidth of the V2V system, and an estimate method was also proposed to estimate the effective bandwidth of the 4G LTE system. The findings were used to select the optimal transmission pathway based on between the two communication systems.
誌 謝 i
摘 要 ii
Abstract iii
目 錄 iv
圖 次 v
表 次 vi
第一章 緒論 1
第一節 研究動機與背景 1
第二節 研究目的 2
第三節 論文架構 3
第二章 文獻探討 4
第一節 LTE網路介紹 4
第二節 VANET介紹 6
第三節 4G LTE和VANET之網路差異比較 7
第四節 VANET基礎路由協定 7
第五節 利用V2V及4G LTE傳遞封包最佳化之路由方法相關研究 10
第三章 問題描述 12
第四章 研究方法 15
第五章 效能評估 18
第一節 實驗環境設定 18
第二節 模擬結果 19
第六章 結論 22
參考文獻 23


參考文獻
[1]http://www.mem.com.tw/article_content.asp?sn=1004060012, “Micro-Electronics”
[2]http://www.hirain.com/sts/142/236 , “ Hirain Technologies”
[3]郭昱賢, “LTE 架構、協定與效能”, 國立交通大學資訊工程系, 碩士論文2011.
[4]P. Guangyu, G. Mario, and T. W. Chen., “Fisheye State Routing: a routing scheme for ad hoc wireless networks.” IEEE International Conference on. Communications, (2000).
[5]C. E. Perkins, and E. M. Royer., “ad-hoc on-demand distance vector routing.” Mobile Computing Systems and Applications, Proceedings. IEEE Workshop on WMCSA '99, 1999.
[6]X. Jiang, and D.H.C. Du., “Bus-Vanet: a bus vehicular network integrated with traffic infrastructure” Intelligent IEEE Magazine on Transportation Systems,pp.47-57, 2015.
[7]J. A. Olivera, I. Cortazar, C. Pinart, A. L. Santos, and I. Lequerica., “Vanba: a simple handover mechanism for transparent, always-on v2v communications.” IEEE Conference on Vehicular Technology, 2009.
[8]J, Shucong, H. Sizhe, G. Xinyu, L. Zhang., “Analyzing and relieving the impact of fcd traffic in lte-vanet heterogeneous network.” IEEE International Conference on Telecommunications (ICT), pp.88-92, 2014.
[9]X. Jiang, and D.H.C. Du., “BUS-VANET: a bus vehicular network integrated with traffic infrastructure” Intelligent IEEE Magazine on Transportation Systems,pp.47-57, 2015.
[10]麥毅廷,“在3G與LTE的異質網路下多重無線存取技術整合之評估”, 修平科技大學資訊網路技術系,碩士論文, 2012.
[11]B. Abderrahim, T. Taleb, and R. Sivaraj. “Dynamic clustering-based adaptive mobile gateway management in integrated vanet—3g heterogeneous wireless networks.” IEEE Journal on Selected Areas in Communications, vol. 29, pp.559-570, 2011.
[12]K. Lidström, and T. Larsson, “A spatial qos requirements specification for V2V applications.” In IEEE Intelligent Vehicles Symposium University of California, pp.548-553, 2010.
[13]R. Sivaraj, A. K. Gopalakrishna, M. G. Chandra, and P. Balamuralidhar. “Qos-enabled group communication in integrated vanet-lte heterogeneous wireless networks.” In 2011 IEEE 7th International Conference on Wireless and Mobile Computing, Networking and Communications (WiMob), pp.17-24, 2011.
[14]A. A. Eltahir, R. A. Saeed, and R. A. Mokhtar, “Vehicular communication and cellular network integration: gateway selection perspective.” In Computer and Communication Engineering (ICCCE), pp.64-67, 2014.
[15]I. Rubin, Y. Y. Lin, A. Baiocchi, F. Cuomo, and P. Salvo, “Micro base station aided vehicular ad hoc networking.” Computing, Networking and Communications (ICNC), pp.231-235, 2014.
[16]B. Paul, M. Ibrahim, M. Bikas, and A. Naser, “VANET routing protocols: Pros and cons.” arXiv preprint arXiv, pp.28-34, 2012.
[17]C. S. Li, and H. C. Chao “IPv6 auto-configuration vanet cross layer design based on IEEE 1609.” IET networks, pp.199-206, 2012
[18]E. C. Eze, S. Zhang, and E. Liu, “Vehicular ad hoc networks (VANETS): Current state, challenges, potentials and way forward.” In Automation and Computing (ICAC), pp. 176-181, 2014.
[19]M. Boban, R. Meireles, J. Barros, P. Steenkiste, and O. K. Tonguz, “TVR-Tall vehicle relaying in vehicular networks.” IEEE Transactions on Mobile Computing, pp1118-1131, 2014.
[20]A. Ghosh, V. V. Paranthaman, G. Mapp, and O. Gemikonakli “Providing ubiquitous communication using handover techniques in vanet systems.” In Ad Hoc Networking Workshop (MED-HOC-NET), pp. 195-202, 2014.

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