博碩士論文 975202020 詳細資訊




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姓名 林昱宏(Yu-hong Lin)  查詢紙本館藏   畢業系所 資訊工程學系
論文名稱 應用於長期演進技術之毫微微蜂巢式基地台服務範圍之自動調整機制
(An Adaptive Coverage Adjustment Mechanism for LTE Femtocells)
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摘要(中) 毫微微蜂巢式基地台(femtocell)具有較小的功率及服務範圍,使用者可自行購置以解決室內收訊死角的問題,並可增加通訊容量。但由於佈建自由度高,容易有使用相同頻率的基地台服務範圍重疊,導致發生干擾、通訊品質不佳的問題。本論文提出一個應用於長期演進技術(Long-Term Evolution, LTE)的毫微微蜂巢式基地台服務範圍調整機制。
本論文之機制首先統計各基地台在不同範圍時各使用者裝置的服務狀況,包含是否能被服務、訊號強度、以及使用者基地台的偏好,並藉由基地台互相協調的結果,可得到各使用者裝置不受干擾的限制條件。根據所蒐集的服務資訊,透過本論文之調整機制便可依照干擾發生的狀況自動調整各基地台的服務範圍,以達到服務最多使用者、干擾狀況最少的通訊環境。此外,本論文之機制能依據不同的服務需求,如以較多使用者人數或以較佳訊號品質為導向等,使用不同的調整模型來求得較適當的傳輸的功率及範圍。
模擬的結果顯示,在不同的使用者和基地台分佈狀況下,經由本論文所提出的方法調整傳輸功率後,可有效降低干擾的使用者比例,同時提高使用者的訊號品質。並藉由套用不同的調整模型,來達到不同服務取向所需要達到的效果。
摘要(英) Femtocells provide smaller scope of services with less power. Users can get and set femtocells in their premises to solve indoor recipient or increase communication capacity. However, the feature causes unplanned development of femtocells. Thereof, there might be co-channel interference due to there are UEs or femtocell locate in the overlapped region and work on the same channel. The interference causes poor communication quality and bad user experience.
This paper proposed a mechanism of femtocell coverage adjustment for Long-Term Evolution (LTE). Though the negotiation algorithm between femtocells, the mechanism can determine and adaptive adjust an appropriate serving coverage based on signal quality and interference.
The simulation results show that the proposed mechanism can effectively mitigate co-channel interference between femtocells and the average signal quality of UEs in different femtocell deployment density. The proposed mechanism also provides different service model to meet different service requirement.
關鍵字(中) ★ femtocell
★ 傳輸功率調整
★ 干擾
★ LTE
關鍵字(英) ★ LTE
★ coverage adjustment
★ femtocell
★ interference
論文目次 Chapter 1. Introduction 1
1.1 Overview 1
1.2 Motivations and Goals 2
1.3 Organization 3
Chapter 2. Background and Related Work 4
2.1 Overview of Femtocell 4
2.2 3GPP Long Term Evolution(LTE) 5
2.3 Femtocell in 3GPP Long Term Evolution 7
2.4 Issues of Wireless Network Interference 8
2.5 Issues of Femtocell Interference 10
Chapter 3. Proposed Adaptive Coverage Adjustment Mechanism 14
3.1 Assumptions 14
3.2 Femtocell initialization 15
3.3 Neighboring Femtocell List 16
3.4 Femtocell Clustering 18
3.5 Coverage Level Table 21
3.6 Negotiation Algorithm 25
Chapter 4. Performance Evaluation and Discussions 34
4.1 Simulation Environment 34
4.2 Simulation Results 35
4.2.1 Impact of Femtocell Density to ACAM 35
4.2.2 Impact of Different SINR Model to ACAM 38
4.2.3 Impact of User Preference to ACAM 42
Chapter 5. Conclusions and Future Works 47
5.1 Conclusions 47
5.2 Future Works 48
References 50
參考文獻 [1] G. Mansfield, “Femtocells in the US Market -Business Drivers and Consumer Propositions,” FemtoCells Europe, ATT, London, U.K., June 2008.
[2] Femtocell forum, http://www.femtoforum.org/femto
[3] Knisely, D.; Yoshizawa, T.; Favichia, F., "Standardization of femtocells in 3GPP," Communications Magazine, IEEE , vol.47, no.9, pp.68-75, September 2009
[4] Broadband forum TR-196 Femto Access Point Service Data Model, http://www.broadband-forum.org/technical/download/TR-196.pdf
[5] Broadband forum TR-069 Amendment 2 CPE WAN Management Protocol v1.1, http://www.broadband-forum.org/technical/download/TR-069.pdf
[6] H.L- Hu; J.- Zhang; X.Y. Zheng; Y. Yang; P. Wu; , "Self-configuration and self-optimization for LTE networks," Communications Magazine, IEEE , vol.48, no.2, pp.94-100, February 2010
[7] NCC將定基地台管理專法http://nccwatch.org.tw/news/20100710/68210
[8] V. Chandrasekhar, J. Andrews, A. Gatherer, “Femtocell networks: a survey,” Communications Magazine, IEEE 46, no. 9 (2008): 59-67.
[9] de la Roche, G.; Valcarce, A.; Lopez-Perez, D.; Jie Zhang, "Access control mechanisms for femtocells," Communications Magazine, IEEE , vol.48, no.1, pp.33-39, January 2010
[10] Chowdhury, M.Z.; Won Ryu; Eunjun Rhee; Yeong Min Jang; , "Handover between macrocell and femtocell for UMTS based networks," Advanced Communication Technology, 2009. ICACT 2009. 11th International Conference on , vol.01, no., pp.237-241, 15-18 Feb. 2009
[11] Kliazovich, D.; Granelli, F.; Redana, S.; Riato, N.; , "Cross-Layer Error Control Optimization in 3G LTE," Global Telecommunications Conference, 2007. GLOBECOM '07. IEEE , vol., no., pp.2525-2529, 26-30 Nov. 2007
[12] 3GPP-LTE, http://www.3gpp.org/About-3GPP
[13] 3GPP-World first femtocell standard published by 3GPP, http://www.3gpp.org/World-s-first-femtocell-standard
[14] 3GPP TR 22.220, “Service requirements for Home NodeBs and Home eNodeBs”
[15] 3GPP TR 25.967, “Home Node B Radio Frequency (RF) Requirements (FDD)”
[16] 3GPP 36.902, “E-UTRAN Self-configuring and self-optimizing network use cases and solutions”
[17] Kawade, S.; Hodgkinson, T.G.; Abhayawardhana, V.; , "Interference Analysis of 802.11b and 802.11g Wireless Systems," Vehicular Technology Conference, 2007. VTC-2007 Fall. 2007 IEEE 66th , vol., no., pp.787-791, Sept. 30 2007-Oct. 3 2007
[18] Y.-K Yoon; , "Effective method of interference mitigation for UWB cooperation with WiMAX," Advanced Communication Technology (ICACT), 2010 The 12th International Conference on , vol.1, no., pp.329-332, 7-10 Feb. 2010
[19] Abusubaih, M.; Rathke, B.; Wolisz, A.; , "A framework for interference mitigation in multi-BSS 802.11 wireless LANs," World of Wireless, Mobile and Multimedia Networks & Workshops, 2009. WoWMoM 2009. IEEE International Symposium on a , vol., no., pp.1-11, 15-19 June 2009
[20] Jeng, S.S.; Tsung, C.W.; Chang, F.P.; , "WLAN smart antenna with Bluetooth interference reduction," Communications, IET , vol.2, no.8, pp.1098-1107, September 2008
[21] Femto Forum, “Interference Management in UMTS Femtocells,” http://www.femtoforum.org/femto/Files/File/FF_UMTS-Interference_Management.pdf
[22] D. López-Pérez, A. Valcarce, G. de la Roche, and J. Zhang, ”OFDMA Femtocells: A Roadmap on Interference Avoidance,” IEEE Communications Magazine, vol. 47, pp. 41-48, Sep. 2009
[23] M. Castaneda, T. I. Michel, A. N. Josef , I. Viering, and A. Klein,“On Downlink Intercell Interference in a Cellular System,” In Proceeding of the IEEE International Symposium no Personal, Indoor and Mobile Radio Communications (PIMRC), pp.3-7, Sep. 2007.
[24] Claussen, H.; Ho, L.T.W.; Samuel, L.G. , "Self-optimization of coverage for femtocell deployments," Wireless Telecommunications Symposium, 2008. WTS 2008 , vol., no., pp.278-285, 24-26 April 2008
[25] Ho, L.T.W.; Ashraf, I.; Claussen, H.; , "Evolving femtocell coverage optimization algorithms using genetic programming," Personal, Indoor and Mobile Radio Communications, 2009 IEEE 20th International Symposium on , vol., no., pp.2132-2136, 13-16 Sept. 2009
[26] 3GPP TS 25.967 “Home Node B Radio Frequency (RF) Requirements (FDD)”
[27] P. Skillermark, M. Almgren, D. Astély, M. Lundevall, and M. Olsson, “Simplified Interference Modeling in Multi-Cell Multi-Antenna Radio Network Simulations,” in Proceedings of the IEEE Vehicular Technology Conference (VTC), pp. 1886 -1890, Apr. 2008.
[28] X. Li, L. Qian, and D. Kataria, “Downlink Power Control in Co-Channel Macrocell Femtocell Overlay,” in Proceedings of the Conference on Information Sciences and Systems(CISS), pp.383-388, Mar. 2009.
[29] Arulselvan, N.; Ramachandran, V.; Kalyanasundaram, S.; Guang Han; , "Distributed Power Control Mechanisms for HSDPA Femtocells," Vehicular Technology Conference, 2009. VTC Spring 2009. IEEE 69th , vol., no., pp.1-5, 26-29 April 2009.
[30] H.-S. Jo, C. Mun, J. Moon, and J. -G. Yook, ”Self-optimized Coverage Coordination and Coverage Analysis in Femtocell Networks,” CoRR abs/0910.2168, Oct. 2009
[31] Poongup Lee; Taeyoung Lee; Jangkeun Jeong; Jitae Shin; , "Interference management in LTE femtocell systems using Fractional Frequency Reuse," Advanced Communication Technology (ICACT), 2010 The 12th International Conference on , vol.2, no., pp.1047-1051, 7-10 Feb. 2010
[32] Lee, H.-C.; Oh, D.-C.; Lee, Y.-H.; , "Mitigation of Inter-Femtocell Interference with Adaptive Fractional Frequency Reuse," Communications (ICC), 2010 IEEE International Conference on , vol., no., pp.1-5, 23-27 May 2010
[33] Y. Jin Sang; H.G. Hwang; Kwang S. Kim; , "A Self-Organized Femtocell for IEEE 802.16e System," Global Telecommunications Conference, 2009. GLOBECOM 2009. IEEE , vol., no., pp.1-5, Nov. 30 2009-Dec. 4 2009
[34] J. Kim, D. Cho, ”A Joint Power and Subchannel Allocation Scheme Maximizing System Capacity in Dense Femtocell Downlink Systems,” in Proceedings of the IEEE International Symposium on Personal, Indoor and Mobile Radio Communications(PIMRC), 2009
[35] Yavuz, M.; Meshkati, F.; Nanda, S.; Pokhariyal, A.; Johnson, N.; Raghothaman, B.; Richardson, A.; , "Interference management and performance analysis of UMTS/HSPA+ femtocells," Communications Magazine, IEEE , vol.47, no.9, pp.102-109, September 2009
[36] 3GPP TS 36.300“E-UTRAN Overall Description.”
[37] 3GPP TS 36.331 "Evolved Universal Terrestrial Radio Access (E-UTRA); Radio Resource Control (RRC) protocol specification".
[38] Nirmala, K.; Ramachandra Rao, A. The number of cut vertices in a regular graph. (English), Cah. Cent. Étud. Rech. Opér. 17, 295-299 (1975).
[39] NCTU-NS Manual, available at http://nsl10.csie.nctu.edu.tw/
[40] S. Sesia, I. Toufik, M. Baker,LTE, the UMTS long term evolution: from theory to practice, John Wiley and Sons, 2009
指導教授 陳瑞明、周立德
(Jui-ming Chen、Li-Der chou)
審核日期 2010-7-28
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