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政大機構典藏 > 資訊學院 > 資訊科學系 > 學位論文 > Item 140.119/128863

Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/128863

Title:	4G及後 4G通訊系統之新波形的研究 A study on new waveforms for 4G and beyond communication systems
Authors:	許宇樵 Hsu, Yu-Chiao
Contributors:	張宏慶 Jang, Hung-Chin 許宇樵 Hsu, Yu-Chiao
Keywords:	第五代行動通訊網路毫米波新傳輸波形網路切片軟體定義網路網路功能虛擬化 5G Millimeter wave New waveforms Network slicing Software-defined networking Network function virtualization
Date:	2019
Issue Date:	2020-03-02 11:14:13 (UTC+8)
Abstract:	第五代行動通訊網路(5th generation mobile network，5G)為滿足更彈性、多元化的服務需求，從超大行動寬頻(Extreme Mobile Broadband, eMBB)、巨量機器通訊(Massive Machine Type Communication, mMTC)、超可靠/低延遲通訊(Ultra-reliable Low Latency Communication, URLLC)三大使用者場景的服務需求制定相關技術標準。目前各國所制定的頻譜已不足以支援未來5G的服務，故向上尋求更高的頻段，例如與LTE-A重疊之6-10GHz，甚至是屬於極高頻的20-60GHz。4G使用正交頻多工的OFDM作為傳輸波形，在5G場景下，為因應新的頻段，ITU和3GPP都規劃採用非正交設計原理的新傳輸波形，雖然目前基於硬體設備技術及成本的限制，會採用CP-OFDM和DFT-s-OFDM為基礎來改進的波形，但在未來後5G的時代，F-OFDM、FBMC、UFMC、GFDM仍都是可能的候選波形。此外，5G時代將會有更多新增與截然不同的使用者場景。5G的整體傳輸系統為配合前後端軟體化的構想，提出以軟體主導服務的Network Slicing技術，以期更有彈性地實現不同使用需求。本研究擬以20-30GHz的mmWave為實驗頻段，同時以波形模擬器(SystemVue)測試並比較各個候選波形對應不同5G使用者場景的效能表現。最後，我們將三大場景適用之波形記錄並儲存於軟體定義網路(Software Defined Network，SDN)的交換器結點(Switch)，並結合網路功能虛擬化(Network Function Virtualization，NFV)技術，完成一個「以網路軟體化技術為基礎的類5G網路切片系統框架(Network Slicing Like System Framework based on Software Defined Networking for 5G)」。我們期望此一框架能從資料傳輸速率、延遲等方面滿足5G不同使用者場景之服務需求。 The fifth generation mobile network (5G) is designed to meet the needs of more flex-ible and diversified services such as extreme mobile broadband (eMBB), massive ma-chine type communication (mMTC), and ultra-reliable low latency communication (URLLC). The spectrum used by the upcoming 5G services is not sufficient, therefore researches are looking to higher frequency bands, such as 6-10GHz overlapping with LTE-A, or even higher 20-60GHz which belongs to extremely high frequency. 4G uses OFDM as the transmission waveform. For 5G scenarios, both ITU and 3GPP planed to use new transmission waveforms based on non-orthogonal technologies in response to the new frequency band. Currently, due to the limitation of infrastructure technic and its cost, the updated version of CP-OFDM and DFT-s-OFDM will be used for 5G. In the near future, the upcoming beyond 5G era, F-OFDM, FBMC, UFMC, GFDM are still some of the promising candidate waveforms. Besides, there will be more new and distinct user scenarios defined in 5G era. The overall 5G transmission system proposed the software-as -service network slicing technology to comply with software-based frontend and backend, in order to flexibly meet various user requirements. In this study, the target spectrum of our experiment is 20-30GHz/30-40GHz of mmWave. We plan to use the waveform simulator, SystemVue, to test and compare the performance of each candidate waveform applied to different 5G user scenes. At last, we record the most suitable waveforms for each of the three scenarios into the software-defined networking (SDN). We combine the result with the network func-tion virtualization (NFV) technology to establish a “Network Slicing Like System Framework based on Software Defined Networking for 5G”. We hope that this framework can meet the service needs of 5G different user scenarios in terms of data transmission rate and delay.
Reference:	[1] Ibrahim Afolabi, Tarik Taleb, Konstantinos Samdanis, Adlen Ksentini, and Hannu Flinck, "Network Slicing & Softwarization: A Survey on Principles & Enabling Technologies & Solutions," IEEE Communications Surveys & Tutorials, vol. 20, no. 3, pp. 2429-2453, 21 Mar 2018. [2] X. An, C. Zhou, R. Trivisonno, R. Guerzoni, A. Kaloxylos, D. Soldani, A. Hecker, "On end to end network slicing for 5G communication systems," Transactions on Emergency Telecommunications Technologies, vol. 28, no. 4, April 2017. [3] Stefano Buzzi, Carmen D‘Andrea, Tommaso Foggi, Alessandro Ugolini, Giulio Colavolpe, "Spectral efficiency of MIMO millimeter-wave links with single-carrier modulation for 5G network," 20th International ITG Workshop on Smart Antennas (WSA2016), 2016. [4] Min-Cheng Chan, Chien Chen, Jun-Xian Huang, Ted Kuo, Li-Hsing Yen, Chien-Chao Tseng, “OpenNet: A Simulator for Software-Defined Wireless Local Area Network”, in Proc. 2014 IEEE Wireless Communications snd Networking Conference (WCNC), 6-9 April 2014. [5] Hsin-Hung Cho, Chin-Feng Lai, Timothy K. Shih, Han-Chieh Chao, "Integration of SDR and SDN for 5G," IEEE Access, vol. 2, pp. 1196-1204, 11 Sep. 2014. [6] Jose Costa-Requena, Aapo Poutanen, Serdar Vural, George Kamel, Chris Clark, "SDN-Based UPF for Mobile Backhaul Network Slicing," in Proc. 2018 European Conference on Networks and Communications (EuCNC), 18-21 June 2018. [7] Xenofon Foukas, Georgios Patounas, Ahmed Elmokashfi, Mahesh K. Marina, "Network Slicing in 5G: Survey and Challenges," IEEE Communications magazine, vol. 55, no. 5, pp. 94-100, 12 May 2017. [8] Mohammad Asif Habibi, Bin Han, Hans D. Schotten, "Network Slicing in 5G Mobile Communication: Architecture, Profit Modeling, and Challenges," in Proc 14th International Symposium on Wireless Communication Systems, September 28 - October 1 2017. [9] Y. Kishiyama, "NTT Docomo outlook for 5G development," New Breeze: Quarterly of the ITU association of Japan, vol. 29, no. 2, pp. 10-15, April 2017. [10] Jose Ordonez Lucena, Pablo Ameigeiras, Diego Lopez, Juan J. Ramos-Munoz, Javier Lorca, Jesus Folgueria, "Network Slicing for 5G with SDN/NFV: Concepts, Architectures and Challenges," IEEE Communications Magazine, vol. 55, no. 5, pp. 80-87, May 2017. [11] Marco Mezzavilla, Sourjya Dutta, Menglei Zhang, Mustafa Riza Akdeniz, Sun-deep Rangan, "5G mmWave module for the ns-3 network simulator," in Proc. 18th ACM International Conference on Modeling, Analysis and Simulation of Wireless and Mobile Systems, 2-6 Nov. 2015. [12] Yong Niu, Yong Li, Depeng Jin, Li Su, Athanasios V. Vasilakos, "A survey of millimeter wave communications (mmWave) for 5G: opportunities and challenges," Springer Wireless Networks, vol. 21, no. 8, pp. 2657-2676, Nov. 2015. [13] Petar Popovski, Kasper Fløe Trillingsgaard, Osvaldo Simeone, Giuseppe Durisi, "5G Wireless Network Slicing for eMBB, URLLC, and mMTC: A Communica-tion-Theoretic View," IEEE Access, vol. 6, pp. 55765-55779, 28 Sep. 2018. [14] Bo-Jun Qiu, Yu-Sen Hsueh, Jyh-Cheng Chen, Jia-Ru Li, You-Min Lin, Ping-Fan Ho, Tze-Jie Tan, "Service Level Virtualization (SLV): A Preliminary Implementation of 3GPP Ser-vice Based Architecture (SBA)," in Proc. MobiCom`18 Proceedings of the 24th Annual International Conference on Mobile Computing and Networking, Oct. 2018. [15] T. Rappaport, S. Sun, R. Mayzus et al., "Millimeter wave mobile communications for 5G cellular: it will work!," IEEE Access, vol. 1, pp. 335-349, May 2013. [16] Mat ́ıas Richart, Javier Baliosian, Joan Serrat, Juan-Luis Gorricho, "Resource Slicing in Virtual Wireless Networks: A Survey," IEEE Transactions on Network and Service Management, vol. 13, no. 3, pp. 462-476, Sep. 2016. [17] D. Szabo, F. N ´ emeth, B. Sonkoly, A. Guly ´ as, F. H. Fitzek, "owards the 5g Revolution: A Software Defined Network Architecture Exploit-ing Network ´ Coding as a Service," in Proc. 2015 ACM Conference on Special Interest Group on Data Communication, ser. SIGCOMM ’15, 17-21 Aug. 2015. [18] Bidyalaxmi Devi Tensubam, Nongmaithem Lalleima Chanu, Sonika Singh, "Comparative analysis of FBMC and OFDM multicarrier techniques for mobile communication networks," International Journal of Computer Applications, vol. 100, no. 19, Aug. 2014. [19] Rostom Zakaria, Didier Le Ruyet, "Partial interference cancellation with maximum likelihood sequence detection in FBMC spatial multiplexing system," EURASIP Journal on Advances in Signal Processing, p. 47, 18 April 2016. [20] Haijun Zhang, Na Liu, Xiaoli Chu, Keping Long, Abdol-Hamid Aghvami, Victor C. M. Leung, "Network Slicing Based 5G and Future MobileNetworks: Mobility, Resource Management, and Challenges," IEEE Communications Magazine, vol. 55, no. 8, pp. 138-145, 09 Aug 2017. [21] Chan Zhou, Malte Schekkmann, Egon Schulz, Alexandros Kaloxylos, Huawei European Research Center, "Building versatile network upon new waveforms," ETSI Workshop on Future Radio Technologies-Air Interface, 27-28 January 2016. [22] Alex Galis, Kiran Makhijani, Delei Yu, "Autonomic Slice Networking-Requirements and Reference Model," 14 Nov. 2016. [Online]. Available: https://tools.ietf.org/pdf/draft-galis-anima-autonomic-slice-networking-01.pdf. [23] Alexandros Kostopoulos, George Agapiou, "Architecture views in 5G networks," OTE Group, 21 Jan. 2016. [Online]. Available: https://www.cosmote.gr/. [24] Keysight, "SystemVue2018," Jan. 2018. [Online]. Available: https://www.keysight.com/en/pd2913837/systemvue-2018. [25] NGMN, "NGMN 5G White Paper," 17 Feb. 2015. [Online]. Available: https://www.ngmn.org/. [26] NGMN, "NGMN 5G P1 Description of Network Slicing Concept," 13 Jan. 2016. [Online]. Available: https://www.ngmn.org/. [27] Nutaq, "Filter Bank Muticarrier (FBMC) - A potential concept for 5G?," 5 Jan 2017. [Online]. Available: https://www.nutaq.com/blog/filter-bank-multicarrier-fbmc-%E2%80%93-potential-concept-5g. [28] OpenNetworkingFundation, "Layer123 SDN & OpenFlow World Congress," 10-14 Oct 2016. [Online]. Available: https://www.opennetworking.org/. [29] O. TR-526, "Applying SDN Architecture to 5G Slicing," 2016. [30] Qualcomm, "5G waveform & multiple access techniques," 4 Nov. 2015. [Online]. Available: https://www.qualcomm.com/. [31] Jose Soler, Cosmin Caba, "Implementation of an SDN-based network virtualization mechanism," DTU Fotonik, Jan. 2017. [Online]. Available: https://www.fotonik.dtu.dk/. [32] Tanercelebi, "What are the characteristics of millimeter waves? What are the pros cons of millimeter wave transmission?," 8 Oct. 2017. [Online]. Available: https://www.millimeterwave.com. [33] U. K. Tiwari, "5G New Radio," NETMANIAS, 7 Sep. 2017. [Online]. Available: https://www.netmanias.com/en/post/blog/12649. [34] J.-M. Wu, "New Radio Access Technology for 5G," Ministry of Education, Sep. 2016. [Online]. Available: https://3gpptrend.cm.nctu.edu.tw/. [35] M. Zolanvari, "SDN for 5G," October 2015. [Online]. Available: https://www.cse.wustl.edu/~jain/cse570-15/ftp/sdnfor5g.pdf. [36] 3GPP, "3GPP TR 22.891," 3GPP, Nov. 2015. [Online]. Available: http://www.3gpp.org/ftp//Specs/archive/22_series/22.891/. [37] 3GPP, "3GPP TS 23.501," 3GPP, Dec. 2017. [Online]. Available: http://www.3gpp.com/ftp/spec/archive/23_series/23.501/. [38] 財團法人國家實驗研究院科技政策研究與資訊中心, “你知道Samsung已經開始在佈局5G Millimeter Wave了嗎？！,” 24 April 2014. [線上]. Available: http://cdnet.stpi.narl.org.tw/. [39] 徐達儒, 許鴻基, “SDN與NFV相關標準與發展趨勢,” 工研院資訊與通訊研究所, Aug. 2015. [線上]. Available: https://ictjournal.itri.org.tw.
Description:	碩士國立政治大學資訊科學系 104753036
Source URI:	http://thesis.lib.nccu.edu.tw/record/#G0104753036
Data Type:	thesis
DOI:	10.6814/NCCU202000340
Appears in Collections:	[資訊科學系] 學位論文

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