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姓名	王熙華(Hsi-Hua Wang)  查詢紙本館藏	畢業系所	通訊工程學系
論文名稱	非同調區塊編碼正交振幅調變 (Noncoherent Block-Coded QAM)
相關論文	★ 具有快速改變載波相位之籬柵編碼MPSK 的非同調解碼 ★ 用於非同調解碼之多層次編碼調變 ★ 么正空間時間籬柵碼之解碼演算法 ★ 由多層次編碼所架構之非同調碼 ★ 用於非同調檢測之與空時區塊碼連結的區塊編碼調變 ★ 用於正交分頻多工系統具延遲處理器的空時碼 ★ 用於非同調區塊編碼MPSK之A*解碼演算法 ★ 在塊狀衰退通道上的籬柵么正空時調變 ★ 用於非同調區塊編碼MPSK之Chase演算法 ★ 使用決定回授檢測之相差空時調變的 一種趨近同調特性 ★ 具延遲處理器的空時碼之軟式輸入輸出遞迴解碼 ★ 用於非同調區塊編碼MPSK的最大可能性解碼演算法 ★ 具頻寬效益之非同調調變 ★ 非同調空時渦輪碼 ★ 循環字首及補零正交分頻多工系統經預編碼後之頻譜比較 ★ 循環字首及補零正交分頻多工系統在時序同步上之效能比較
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摘要(中)	一個新的用於非同調偵測的區塊編碼調變架構，稱作非同調區塊編碼MPSK (noncoherent block-coded MPSK)，最近被提出。此外，對於未編碼正交振幅調變 (quadrature amplitude modulation)，在2002以及2005年所提出能量控制的方式，在相同且高碼率下正交振幅調變會比MPSK有較佳的錯誤效能。 在本篇論文中，我們提出利用非同調區塊編碼MPSK去建構成非同調區塊編碼正交振幅調變(noncoherent block-coded QAM)，並且利用分析以及模擬來找出最適當的內、外圈半徑比例。非同調區塊編碼正交振幅調變較非同調區塊編碼MPSK具有大的最小非同調距離以及較佳的錯誤效能。我們也証明在2005年所提出的能量控制方法可以視為非同調區塊編碼正交振幅調變的一個特例。但在我們所提出的非同調區塊編碼正交振幅調變架構，可以對它做適當的編碼，以得到更大的最小非同調距離。
摘要(英)	A novel block coded modulation scheme for noncoherent detection, called noncoherent block-coded MPSK (NBC-MPSK) was proposed recently. Besides, uncoded quadrature amplitude modulation (QAM) with energy constraint methods have been proposed in 2002 and 2005, which have better error performance than uncoded MPSK with the same high data rate. In this thesis, we extend NBC-MPSK to noncoherent block-coded QAM (NBC-QAM). We find out the appropriate ratio of inner and outer radius by the analysis and simulations. Compared with NBC-MPSK, NBC-QAM has larger minimum noncoherent distance and therefore better error performance. We also show that QAM with the energy constraint method proposed in 2005 can be viewed as a special case of NBC-QAM. But in our NBC-QAM scheme, minimum noncoherent distance of QAM can be further enlarged by using more redundant bits.
關鍵字(中)	★ 正交振幅調變 ★ 能量控制 ★ 區塊編碼調變 ★ 頻寬效益 ★ 非同調偵測	關鍵字(英)	★ quadrature amplitude modulation ★ energy constraint ★ block-coded modulation ★ spectrally efficient ★ noncoherent detection
論文目次	1 Introduction 1 2 Reviews of NBC-MPSK, GLRT Detection, and Energy Constraint Method 4 2.1 NBC-MPSK 4 2.1.1 Noncoherent Detection 4 2.1.2 Code Construction 5 2.1.3 Multistage Decoding Algorithms 9 A. Optimal Decoding 10 B. Decoding with the Estimate of Channel Phase 10 2.2 GLRT Detection And Its Noncoherent Metric 13 2.2.1 GLRT Detection 13 2.2.2 GLRT Noncoherent Metric 15 2.3 Differential Amplitude/Phase Modulation 17 2.3.1 H-type Energy Constraint Method 20 2.3.2 16MAPSK Code Design 22 2.3.3 L-type Energy Constraint Method 24 2.4 Near-Optimal Demodulation 26 2.5 Simulation Results 28 3 Noncoherent Bolck-Coded QAM 32 3.1 Motivation 32 3.2 Definition of NBC-QAM 34 3.3 Signal Labeling 37 3.4 The Appropriate Ratio of Inner and Outer Radius 40 4 Comparison of Error Performance with Other Noncoherent Schemes 52 4.1 NBC-8QAM 52 4.2 NBC-16QAM 58 5 Conclusions 69 Reference 70
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指導教授	魏瑞益(Ruey-Yi Wei)	審核日期	2006-7-15
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