Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/19316
標題: 在具有多個網路介面的行動裝置上聚集頻寬的方法
A Bandwidth Aggregation Scheme on Multi-homed Mobile Hosts
作者: 林恆吉
Lin, Heng-Ji
關鍵字: Bandwidth Aggregation
聚集頻寬
Multi-homed Mobile Hosts
出版社: 資訊科學系所
引用: [1] H. Adiseshu, G. M. Parulkar, and G. Varghese, “A reliable and scalable striping protocol,” In Proceedings of ACM SIGCOMM, 1996. [2] CISCO SYSTEMS, ETHERCHANNEL, http://www.cisco.com/en/US/tech. [3] Thomas Davis, http://sourceforge.net/projects/bonding/. [4] J. Duncanson, “Inverse multiplexing,” In IEEE Communications Magazine, volume 32, pages 34-41, 1994. [5] C. Guo, Z. Guo, Q. Zhang, W. Zhu, “A Seamless and Proactive End-to-End Mobility Solution for Roaming Across Heterogeneous Wireless Networks,” in IEEE Journal SAC, pp. 834 - 848. [6] T. Hacker, B. Athey, and B. Nobile, “The end-to-end performance effects of parallel TCP sockets on a lossy wide-area network. In Proc, Of IPDPS, 2002. [7] H. Hsieh and R. Sivakumar, “A transport layer approach for achieving aggregate bandwidth on multi-homed mobile hosts,” In Proceedings of ACM MOBICOM, 2002. [8] IEEE 802.3ad, IEEE 802.3 CSMA/CD Access Method, IEEE, 2000. [9] Intel Corporation, Intel Link Aggregation, http://www.intel.com/network/connect ty/resource/technologies/load_balancing.htm [10] K. H. Kim, K. G. Shin, “Improving TCP performance over wireless networks with collaborative multi-homed mobile hosts,” In Proceedings of the 3rd International Conference on Mobile Systems, Applications, and Services (MobiSys 2005). [11] H.-H. Lin, C.-W. Hsueh, G.-C. Huang, “BondingPlus: real-time message channel in linux ethernet environment using reqular switching hub,” 9th International Conference, RTCSA 2003, Tainan, Taiwan, February 18-20, 2003. [12] L. Magalhaes and R. Kravets, “Transport level mechanisms for bandwidth aggregation on mobile hosts,” In Proceedings of IEEE ICNP, Riverside, CA USA, Nov. 2001. [13] H. Sivakumar, S.Bailey, and R. L. Grossman, “PSockets: the case for application- level network striping for data intensive applications using high speed wide area networks,” In Supercomputing, 2000. [14] A. Snoeren, “Adaptive inverse multiplexing for widearea wireless networks,” In Proc. Of IEEE Conference on Global Communications, 1999. [15] Sun Microsystems, Sun Trunking, http://www.sun.com/products/networking/ ethernet/suntrunking/. [16] C. B. Traw and J. Smith, “Striping within the network subsystem,” IEEE Network Magazine, 9(4):22-32, July 1995. [17] M. Zhang, J. Lai, A. Krishnamurthy, L. Peterson, R. Wang, “A transport layer approach for improving end-to-end performance and robustness using redundant paths,” USENIX Annual Technical Conference, General Track 2004: 99-112.
摘要: 隨著科技的進步,現今的行動使用者可能配置多個網路介面如802.3乙太網路、802.11無線區域網路、藍芽、無線廣域網路等等。這些網路有著不同的網路特徵如頻寬、延遲時間、不穩定感等等,而現今的網路傳輸不能支援在單一個傳輸層連線中,同時使用多個異質性網路介面。所以讓使用者可以同時使用多個網路介面來增加網路傳輸速度,是個有趣的議題。 在這篇論文當中,我們提出一個在具有多個網路介面的行動裝置上聚集頻寬的方法,能夠讓使用者可以同時利用多個網路介面進行網路傳輸,以聚集頻寬縮短網路傳輸時間。它是藉由多個網路介面來分配封包以獲得頻寬聚集的效果。但是由於不同介面間的頻寬、延遲時間、不穩定感等都不同,傳統的TCP傳輸控制協定不能達到最佳化的聚集頻寬。所以在本篇論文中,我們的方法是點對點的,不需額外的網路設備支援,也不需要應用程式做任何改變,此外它可以同時 支援UDP協定。 經由實驗知道,我們的方法確實可以同時使用多個網路介面來聚集頻寬以縮短網路傳輸時間。但在某些例子中,因為介面間的頻寬與延遲時間相差過大,聚集頻寬的效能反而不如原先的網路傳輸效能。
URI: http://hdl.handle.net/11455/19316
其他識別: U0005-0108200611515900
文章連結: http://www.airitilibrary.com/Publication/alDetailedMesh1?DocID=U0005-0108200611515900
Appears in Collections:資訊科學與工程學系所

文件中的檔案:

取得全文請前往華藝線上圖書館



Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.