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姓名	王銓(Chuan Wang)  查詢紙本館藏	畢業系所	電機工程學系
論文名稱	適用於 3GPP-LTE/LTE-A多輸入輸出系統之預編碼 選擇方案 (MIMO Precoder Selection for 3GPP-LTE/LTE-A Systems)
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摘要(中)	本篇論文主題為適用3GPP-LTE/LTE-A 的架構下的預編碼碼簿的選擇，長期演進技術 /長期演進技術昇級版(3GPP-LTE/LTE-A)為4G 技術之一，除了提供更高的吞吐量也同時支 援動態傳輸的不同工作模式的選擇，本篇論文即利用動態傳輸中閉環路(close-loop)傳輸 的概念。 閉環路傳輸利用接收端回傳給傳送端的通道資訊，來得到更好的傳輸品質， 接收端根據碼簿的選擇方法做出選擇，再將所選的碼簿資訊回傳給傳送端，為整體預編 碼傳輸的概念。 本篇論文選擇的為 K-Best 的球型解碼器，球型解碼器在解碼的效果上比傳統的 MMSE 與ZF 演算法來的更精準，但同時也需要付出較高的硬體複雜度，在此利用的是 略為減低其複雜度的K-Best 球型解碼器，並利用所提出的Trace criterion 來將經過QR 分 解的R 矩陣取得各層的平衡，最後我們將不同排序種類的QR 分解與我們所提出的Trace Criterion 作結合，以達到更好的效果。本篇論文在模擬的部分選擇適用於3GPP-LTE 底下 的碼簿進行模擬，在最後的模擬結果也可見，所提出的方法確實有不錯的增益。 另外考慮到LTE 時頻域衰退通道的影響與降低運算量的需求，我們選擇使用分群作 為方法，這邊提出的分群方法，可以有效避免大量的效能衰退，也具有相當大的運算量 降低功能。 在硬體實作方面則使用所提出的預編碼系統下的關鍵性模組—高吞吐量之8×8 Sorted QR 分解—進行設計，最大特色為同時運算3 個4×4 Sorted QR 分解，並且提供不 同層數的排序功能以搭配前述的預編碼選擇機制。
摘要(英)	Precoder Selection Under MIMO Detection for 3GPP-LTE/LTE-A Systems Abstract Precoding by using a finite-set codebook at transmitters is an effective approach to improve the performance of multiple-input multiple-output (MIMO) systems with reduced feedback overhead. K-Best sphere decoders are popular for high-throughput spatially-multiplexed MIMO signal detection at receivers. In this paper, we propose a precoding-matrix-index (PMI) selection criterion suitable for K-best MIMO detectors by minimizing the trace of the upper triangular matrix after QR decomposition (QRD). To further improve the system performance, fully-sorted QRD, per-layer sorted QRD and partially-sorted QRD are also proposed to be incorporated in the minimum-trace PMI selection criterion. Simulation results based on the MIMO codebooks of 3GPP-LTE/LTE-A systems show the improvements of the proposed scheme compared to the non-precoding MIMO schemes and the precoding schemes using the conventional PMI selection criterions. Considering the fading channel in time/frequency domain of LTE system, we propose a group solution, which not only provide much lower computation, but also avoid more degradating. As to the hardware implementation, we use a scalable design of high throughput 8×8 Sorted QRD. It can compute three sets of 4×4 Sorted QRD simultaneously. Various numbers of sorting layers are supported for our proposed precoding criterion.
關鍵字(中)	★ 第三代合作夥伴計劃 ★ 4G ★ 預編碼 ★ 分群	關鍵字(英)	★ 3GPP ★ 4G ★ Precoding ★ Group
論文目次	目錄 ................................................................................................................................... iv 圖示目錄 ...................................................................................................................................vii 表格目錄 .................................................................................................................................... x 第一章 緒論 ............................................................................................................................ 1 1.1 簡介 ............................................................................................................................. 1 1.2 研究動機 ..................................................................................................................... 1 1.3 論文組織 ..................................................................................................................... 2 第二章 多輸入多輸出(MIMO)系統 ......................................................................................... 3 2.1 介紹 ............................................................................................................................. 3 2.2 傳統的接收機 ............................................................................................................. 5 2.2.1 強制歸零(Zero-Forcing, ZF) ............................................................................. 5 2.2.2 最小均方誤差(Minimum Mean Square Error, MMSE) .................................... 6 2.2.3 最大相似度(Maximum Likelihood, ML) .......................................................... 6 2.2.4 球面解碼(Sphere Decoder) ............................................................................. 7 2.3 多輸入多輸出預編碼(MIMO Precoding) .................................................................. 11 2.4 實數系統(Real Value System) .................................................................................... 11 第三章 碼本搜尋機制(Codebook Searching Mechanism) .................................................. 13 3.1 介紹 ........................................................................................................................... 13 3.2 碼本(Codebook)的設計 ............................................................................................ 16 3.3 現有的方法 ............................................................................................................... 21 3.3.1 Mean Squared Error Selection Criterion, MSE-SC ........................................... 21 3.3.2 Singular Value Decomposition Selection Criterion, SVD-SC ............................ 22 3.3.3 Capacity-based Selection Criterion ................................................................. 22 v 3.3.4 QR Decomposition based selection ................................................................ 23 3.4 所提出的碼本搜尋機制 ............................................................................................ 23 3.4.1 Trace Criterion ................................................................................................. 25 3.5 搭配Sorted QR 的能量分配機制 ............................................................................. 26 3.5.1 不同排序(Sort)方法的統計特性 .................................................................... 26 3.5.2 最佳的Sorting 方案 ....................................................................................... 27 3.6 增強型搜索方案(Enhanced or fully-sorted) ............................................................. 28 3.7 模擬與比較 ............................................................................................................... 30 第四章 時頻域衰退下通道之LTE 系統碼簿選擇 ................................................................. 33 4.1 介紹 ............................................................................................................................ 33 4.2 LTE 時頻域衰退通道模型 .......................................................................................... 34 4.2.1 LTE 下多輸入多輸出通道空間模型 ............................................................... 35 4.2.2 通道模型參數 ................................................................................................. 38 4.3.1 時頻域衰退通道模擬結果 ............................................................................. 41 4.3 基於時頻域衰退下的碼本選取 ................................................................................ 44 4.3.1 頻域評估 ......................................................................................................... 45 4.3.2 時域評估 ......................................................................................................... 50 4.4 複雜度分析 ................................................................................................................ 54 第五章 硬體實現 .................................................................................................................... 56 5.1 硬體設計 ................................................................................................................... 56 5.2 硬體時脈 ................................................................................................................... 58 5.3 8×8 Sorted QRD 硬體介紹 ......................................................................................... 59 5.3.1 4×4 Sorted QRD 硬體介紹 .............................................................................. 59 5.3.2 8x8 Sorted QR 設計 ......................................................................................... 63 5.3.3 CORDIC 之硬體 ............................................................................................... 66 vi 5.3.4 Processing element, PE ................................................................................... 69 5.3.5 Norm 值之計算單元 ....................................................................................... 71 5.3.6 計算剩餘向量Norm 之值單元 ..................................................................... 72 5.4 字元長度 ................................................................................................................... 74 5.5 實現結果 ................................................................................................................. 76 5.6 硬體實現之模擬 ....................................................................................................... 78 第六章 結論 ............................................................................................................................ 81 參考文獻 .................................................................................................................................. 82
參考文獻	參考文獻 [1] 3GPP TS 36.101: User Equipment (UE) Radio Transmission and Reception. [2] 3GPP TS 36.211: Physical Channels and Modulation [3] 3GPP TS 36.212: Multiplexing and Channel Coding [4] 3GPP TS 36.213: Physical Layer Procedures [5] Lu Wu; Jinhui Chen; Hongwei Yang; Di Lu, "Codebook Design for LTE-A Downlink System," Vehicular Technology Conference (VTC Fall), 2011 IEEE , vol., no., pp.1,5, 5-8 Sept. 2011 [6] C. C. Lee, and et al., "Design of 4 × 4 MIMO-OFDMA receiver with precode codebook search for 3GPP-LTE," IEEE International Symposium on Circuits and Systems, May 2010, pp.3957-3960. [7] 3GPP, R1-101219, NTT DOCOMO,, "Views on Codebook Design for Downlink 8Tx MIMO,” Feb. 2010 [8] Jin Wang; Muqing Wu; Feng Zheng, "The Codebook Design for MIMO Precoding Systems in LTE and LTE-A," Wireless Communications Networking and Mobile Computing (WiCOM), 2010 6th International Conference on , vol., no., pp.1,4, 23-25 Sept. 2010Y. [9] 3GPP TS 25.814: Evolved Universal Terrestrial Radio Access (E-UTRA) Physical Channel and Modulation [10] C. T. Lin, W. R. Wu, "QRD-based precoder selection for maximum-likelihood MIMO detection," Personal Indoor and 2010 IEEE International Symposium on Mobile Radio Communications, Sep. 2010, pp.455-460. [11] R. W. Heath, Jr, and A. Paulraj, "Antenna selection for spatial multiplexing systems based on minimum error rate, ", IEEE International Conference on Communications, vol.7, 2001, pp.2276-2280. [12] D. J. Love, and R. W. Health, "Limited feedback unitary precoding for spatial multiplexing, 84 " IEEE Transacation Information Theory, vol. 51, no. 8, pp. 2967-2976, Aug. 2005. [13] Shah, M.A.; Mennenga, B.; Fettweis, G., "Iterative Soft-In Soft-Out Sphere Detection for 3GPP LTE," Vehicular Technology Conference (VTC 2010-Spring), 2010 IEEE 71st , vol., no., pp.1,5, 16-19 May 2010 doi: 10.1109/VETECS.2010.5493717Shah, M.A.; Mennenga, B.; Fettweis, G., "Iterative Soft-In Soft-Out Sphere Detection for 3GPP LTE," Vehicular Technology Conference (VTC 2010-Spring), 2010 IEEE 71st , vol., no., pp.1,5, 16-19 May 2010 [14] Jiang, W. Hager, and J. Li, "The geometric mean decomposition," Linear Algebra and Its Applications, vol. 396, pp. 373-384, Feb. 2005. [15] S. Lin, W. L. Ho, and Y. C. Liang, "Block-Diagonal Geometric Mean Decomposition (BD-GMD) for Multiuser MIMO Broadcast Channels," IEEE 17th International Symposium in Personal, Indoor and Mobile Radio Communications, 2006, pp. 1-5. [16] C. C. Lee, and et al., "Design of 4 × 4 MIMO-OFDMA receiver with precode codebook search for 3GPP-LTE," IEEE International Symposium on Circuits and Systems, May 2010, pp.3957-3960. [17] P. Y. Tsai, and et al., “Baseband Receiver Design for 3GPP Long Term Evolution Downlink OFDMA Systems under Fast-Fading Channels,” Asian Pacific Conference on Circuits and Systems, Dec. 2010, pp. 1207-1210. [18] 3GPP TS 25.996: Spatial channel model for Multiple Input Multiple Output (MIMO) simulations [19] P. Dent, G. E. Bottomley, and T. Croft, " Jakes Fading Model Revisited,“ IEEE Electronic Letters, Jun. 1993. [20] Z. Y. Huang, "High-Throughput QR Decomposition for MIMO Detection in OFDM Systems," master thesis, National Central University, Dec. 2010. [21] C. H. Lin, "Design of MU-MIMO Precoding Algorithm and Essential Module," master thesis, National Central University, Dec. 2012.
指導教授	蔡佩芸(Pei-Yun Tsai)	審核日期	2013-8-6
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