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| DC 欄位 | 值 | 語言 |
|---|---|---|
| dc.contributor.advisor | 周承復(Cheng-Fu Chou) | |
| dc.contributor.author | Wei-Cheng Xiao | en |
| dc.contributor.author | 蕭偉成 | zh_TW |
| dc.date.accessioned | 2021-06-13T04:13:18Z | - |
| dc.date.available | 2006-07-31 | |
| dc.date.copyright | 2006-07-31 | |
| dc.date.issued | 2006 | |
| dc.date.submitted | 2006-07-25 | |
| dc.identifier.citation | [1] Helen J. Wang, Randy H. Katz, and Jochen Giese. Policy-Enabled Handoffs across Heterogeneous Wireless Networks. WMCSA 1999
[2] Ben Liang, Ahmed H. Zahran, and Aladdin O.M. Saleh. Application Signal Threshold Adaptation for Vertical Handoff in Heterogeneous Wireless Networks. Networking 2005. [3] J. Mäkelä, M. Ylianttila, and K. Pahlavan. Handoff Decision in Multi-Service Networks. 2000 [4] M. Buddhikot, G. Chandranmenon, S. Han, Y. W. Lee, S. Miler, and L. Salgarelli. Design and Implementation of a WLAN / CDMA2000 Interworking Architecture. IEEE Comm. Mag. 2003 [5] Hyosoon Park, Soonhoon Yoon, Taehyoun Kim, Jungshin Park, Misun Do, and Jaiyong Lee. Vertical Handoff Procedure and Algorithm between IEEE802.11 WLAN and CDMA Cellular Network. CIC 2003 [6] Fang Zhu and Janise McNair. Optimization for Vertical Handoff Decision Algorithms. WCNC 2004 [7] M. Ylianttila, M. Pande, J. Mäkelä, and P. Mähönen. Optimization Scheme for Mobile Users Performing Vertical Handoffs between IEEE 802.11 and GPRS/EDGE Networks. Globecom 2001. [8] Srikant Sharma, Inho Baek, Yuvrajsinh Dodia, and Tzi-cker Chiueh. OmniCon: A Mobile IP-based Vertical Handoff System for Wireless LAN and GPRS Links. IWNDA 2004 [9] Michael Angermann and Jens Kammann. Cost Metrics for Decision Problems in Wireless Ad Hoc Networking. 2002 [10] L. J. Chen, Tony Sun, Benny Chen, Venkatesh Rajendran, and Mario Gerla. A Smart Decision Model for Vertical Handoff. ANWIRE 2004 [11] L. J. Chen, Tony Sun, and Mario Gerla. USHA: A Practical Vertical Handoff Solution. MSAN 2005 [12] Mark Stemm. Vertical Handoffs in Wireless Overlay Networks. ACM Mobile Networking (MONET). 1998 [13] Jian Zhang, Liang Cheng, and Ivan Marsic. Models for Non-Intrusive Estimation of Wireless Link Bandwidth. PWC 2003 [14] Mohammad Hossein Manshaei, Thierry Turletti, and Marwan Krunz. A Media-Oriented Transmission Mode Selection in 802.11 Wireless LANs. WCNC 2004 [15] Qi Fang, Weijia Jia, and Jie Wu. Available Bandwidth Detection with Improved Transport Control Algorithm for Heterogeneous Networks. ICDCSW 2005. [16] Enrique Stevens-Navarro and Vincent W.S. Wong. Comparison between Vertical Handoff Decision Algorithms for Heterogeneous Wireless Networks. IEEE VTC 2006. [17] http://www.grid.unina.it/software/ITG [18] http://www.ethereal.com [19] A. Matsumoto, M. Kozuka, K. Fujikawa, and Y. Okabe. TCP Multi-Home Options. IETF Internet Draft. Oct. 2003. [20] R. Stewart et al. Stream Control Transmission Protocol. RFC 2960, IETF. Oct. 2000. | |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/32675 | - |
| dc.description.abstract | 近年來,如WLAN、GPRS、3G等的網路技術越來越普及。這些網路的信號範圍彼此互相覆蓋的機率相當高。對於漫遊在這些網路之間的用戶而言,他們希望不管漫遊到哪個網路中,都能夠隨時隨地連接上線。因此,垂直無縫交遞成為一個重要的問題。
為實現高性能,使用者會希望能選擇最好的網路來連接。 然而,如信號複蓋範圍,最大資料傳輸率,價格,耗電量等特性,在不同的網路之間,會有很大的差異。此外,各種不同類型的服務,需要這些特性的不同組合。 雖然大多數對於垂直交遞是基於單一政策來優化服務,並未考慮不同服務間的差異。因此,我們提出了一個以服務差異為主的交遞決策模式。通過這樣的決策模式,使用者可以基於所使用服務的不同來調整估價函數中各個參數的比重。因此我們可以更恰當的方式來選擇所要用的網路。 在最近的研究中,大部分都是用mobile-IP來實現垂直交遞。然而,在mobile-IP裡,需要透過自家網路的代理伺服器與外界網路代理伺服器的幫助,才能實現垂直交遞,而這樣的模式會造成代理伺服器負荷過重的情況。而在我們的垂直交遞計畫裡,只需要靠使用者自己的移動裝置,就能實現垂直交遞,因此簡化了整個垂直交遞所需的步驟。此外,我們透過實作讓我們的垂直交遞能在比mobile-IP更短的時間內完成。 | zh_TW |
| dc.description.abstract | In recent years, network technologies such as WLAN, GPRS, and 3G are getting more and more popular. There is high probability that signal coverage of these coexisting networks overlaps with each other. For a user roaming among these networks, it is desirable that his or her mobile device can have anytime connectivity, and therefore vertical handoff becomes an important issue.
To achieve high performance, a user may want to choose the best network to connect to. However, properties such as signal coverage area, maximum data rate, monetary cost, and power consumption on end devices vary largely among these networks. Moreover, different types of services require various combinations of these properties. While most vertical handoff schemes are based on single optimization policy in which service difference is not taken into consideration, we propose a service-based handoff decision model. Through this decision model, weight of the parameters in the cost function is adjustable based on the type of service in use, and therefore we can make a more appropriate decision on network selecting. In recent research, mobile IP is a generally used handoff scheme. However, to facilitate vertical handoff, help from a home agent and a foreign agent is required in the mobile IP scheme, which induces overloading on the agents themselves. In our handoff scheme, only with mobile host itself can handoff be realized, hence the overall handoff scheme is simplified. Moreover, through our implementation, handoff latency can probably be even shorter than that in the mobile IP scheme. | en |
| dc.description.provenance | Made available in DSpace on 2021-06-13T04:13:18Z (GMT). No. of bitstreams: 1 ntu-95-R93922022-1.pdf: 879692 bytes, checksum: fbc6d7ee54b6a4c7bae87d2b566b818b (MD5) Previous issue date: 2006 | en |
| dc.description.tableofcontents | ABSTRACT 1
TABLE OF CONTENTS 4 LIST OF FIGURES 6 CHAPTER 1 INTRODUCTION 7 1.1 VERTICAL HANDOFF 7 1.2 RESEARCH ISSUES 8 1.3 OUR APPROACH 9 1.4 THESIS ORGANIZATION 10 CHAPTER 2 RELATED WORK 11 2.1 RELATED WORK OF VERTICAL HANDOFF 11 2.1.1 Network Layer Solutions 11 2.1.2 Transport Layer Solutions 12 2.1.3 Upper Layer Solutions 12 2.2 RELATED WORK OF HANDOFF DECISION 13 2.3 RELATED WORK OF NETWORK MONITORING 15 CHAPTER 3 SEAMLESS VERTICAL HANDOFF 16 3.1 BASIC CONCEPT 16 3.2 IMPLEMENTATION DETAIL 18 CHAPTER 4 INTELLIGENT DECISION MODEL 21 4.1 COST FUNCTION 21 4.1.1 Throughput Estimation 24 4.2 VERTICAL HANDOFF POLICY 25 4.2.1 Stability Period and Emergency Handoff 27 CHAPTER 5 PERFORMANCE EVALUATION 28 5.1 HANDOFF LATENCY 28 5.1.1 Experimental Environment 28 5.1.2 Experimental Result 31 5.2 AVERAGE THROUGHPUT 32 5.2.1 Experimental Environment 34 5.2.2 Experimental Result 34 CHAPTER 6 CONCLUSIONS AND FUTURE WORK 37 6.1 CONCLUSIONS 37 6.2 FUTURE WORK 38 BIBLIOGRAPHY 39 | |
| dc.language.iso | zh-TW | |
| dc.title | 一種在異質網路中對於垂直無縫交遞的聰明決策模組 | zh_TW |
| dc.title | An Intelligent Decision Model for Seamless Vertical Handoff across Heterogeneous Networks | en |
| dc.type | Thesis | |
| dc.date.schoolyear | 94-2 | |
| dc.description.degree | 碩士 | |
| dc.contributor.oralexamcommittee | 陳伶志(Ling-Jyh Chen),吳曉光(Hsiao-Kuang Wu),朱浩華(Hao-Hua Chu) | |
| dc.subject.keyword | 無縫,垂直交遞,異質網路, | zh_TW |
| dc.subject.keyword | seamless,vertical handoff,heterogeneous network, | en |
| dc.relation.page | 40 | |
| dc.rights.note | 有償授權 | |
| dc.date.accepted | 2006-07-25 | |
| dc.contributor.author-college | 電機資訊學院 | zh_TW |
| dc.contributor.author-dept | 資訊工程學研究所 | zh_TW |
| 顯示於系所單位: | 資訊工程學系 | |
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