Please use this identifier to cite or link to this item: http://hdl.handle.net/11455/5972
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dc.contributor.advisor楊谷章zh_TW
dc.contributor.advisorGuu-Chang Yangen_US
dc.contributor.author張呈源zh_TW
dc.contributor.authorChang, Cheng-Yuanen_US
dc.date2002zh_TW
dc.date.accessioned2014-06-06T06:36:52Z-
dc.date.available2014-06-06T06:36:52Z-
dc.identifier.urihttp://hdl.handle.net/11455/5972-
dc.description.abstract在本論文中,首先對所提出的無線區域網路之基頻處理器的基本架構,分為傳送端與接收端兩大部分作完整詳細的介紹與說明。並且針對接收端的互補碼解調變器,提出了一個採用兩階段相關性運算的新解調變架構,以達到降低硬體複雜度與節省功率消耗的目的。 同時,藉由互補碼的正交特性,利用MFSK正交信號檢測的觀念配合應用於同調檢測系統中信號間距離、信號能量與錯誤率的關係,對互補碼解調變系統在AWGN環境下的效益進行理論值的分析。最後,在欲達到降低雜訊放大效應與硬體複雜度的雙重考量下,採用了使用最小均方根(Least Mean Square;LMS)演算法的決策回授等化器(Decision Feedback Equalizer;DFE)以補償在高傳輸速率下由通道所造成的符號間干擾(Intersymbol Interference;ISI)的現象。 本論文所提出的兩階段相關性運算的新解調變架構,在性能的表現上逼近於傳統的解調變架構,同時在硬體上約可降低50%複雜度與平均節省約25%的功率消耗。至於,在硬體複雜度的考量下所採用的LMS演算法的DFE,經模擬證明在室內無線網路的環境下仍有不錯的表現。zh_TW
dc.description.abstractIn this thesis, the architecture of wireless LAN on transmitter and receiver are introduced respectively. A new bi-stage correlation calculation demodulation structure which can achieve the purposes of decreasing the complexity of hardware and reducing the power consumption is proposed. In addition, we utilize the notion of noncoherent detection of MFSK orthogonal system and relation among the symbol energy and distance between the signal points to analyze the performance of CCK modulation in AWGN environment. Finally, in order to reduce the noise enhancement and complexity of hardware, a decision feedback equalizer (DFE) used the least-mean-square (LMS) algorithm is adopted in receiver to compensate the effect of interference (ISI) caused by channel. The proposed new bi-stage correlation calculation demodulation structure in this thesis yields the performance to approach the traditional demodulation structure, and the hardware complexity and power consumption of demodulation structure are reduced. The DFE based on LMS algorithm is performed better under the wireless network environment.en_US
dc.description.tableofcontents1Introduction……………………………………………………1 1.1Background……………………………………………………1 1.2The Standard of the Technique of WLAN………………4 1.3Organization…………………………………………………9 2System Architecture of WLAN………………………………10 2.1Overview……………………………………………………10 2.2Transmitter………………………………………………11 2.2.1The Format of the Transmitter Packet……………11 2.2.2Function Descriptions of Transmitter……………13 2.3Receiver……………………………………………………22 2.3.1Acquisition Stage……………………………………24 2.3.2Data Stage………………………………………………25 2.3.3Function Descriptions of Receiver…………………26 3Bi-Stage Correlation Calculation CCK Demodulation Structure.…36 3.1Complementary Code Keying Modulation………………36 3.1.1The Structure of 11 Mbps CCK Modulation…………38 3.1.2The Structure of 5.5 Mbps CCK Modulation………39 3.2Complementary Code Keying Demodulation……………40 3.2.1The Structure of 11 Mbps CCK Demodulation………40 3.2.2The Structure of 5.5 Mbps CCK Demodulation……42 3.2.3Function Description of Fast Walsh Transform Block…42 3.3New CCK Demodulation Structure — Bi-Stage Correlation Calculation Demodulation Structure………………………45 3.3.1Assigning Numbers to CCK Codewords………………45 3.3.2Orthogonality of the CCK Codewords………………46 3.3.3New Proposed Bi-Stage Correlation Calculation Structure- Modified FWT Structure………………………………………47 3.4Simulation and Summary…………………………………52 4The Performance Analysis of CCK Modulation on WLAN……55 4.1Noncoherent Detection of Orthogonal MFSK……………56 4.2Two Essential Notions of Theoretical Derivation of CCK Performance…62 4.2.1The Relation among the Symbol Energy and Distance between the Symbols…………………………………………………62 4.2.2Modify the Formula of Error Probability of Orthogonal FSK…………66 4.3The Theoretical Derivation of CCK Performance in AWGN Environment…70 5The Techniques of Channel Equalization…………………83 5.1Introduction…………………………………………………83 5.2Channel Model…………………………………………………84 5.3Equalization Techniques……………………………………86 5.3.1Raised Cosine Spectrum Technique………………………86 5.3.2Correlative-Level Coding Technique……………………88 5.3.3Equalizer Technique………………………………………90 5.4Adaptive Equalizer……………………………………………90 5.4.1Types of the Equalizer……………………………………91 5.4.2Criterion……………………………………………………94 5.4.3Algorithm……………………………………………………96 5.5Simulation and Summary……………………………………100 6Conclusion………………………………………………………105 Bibliography……………………………………………………107zh_TW
dc.language.isoen_USzh_TW
dc.publisher電機工程學系zh_TW
dc.subjectWLANen_US
dc.subject無線區域網路zh_TW
dc.subjectCCK Modulationen_US
dc.subjectDecision Feedback Equalizeren_US
dc.subjectLMS Algorithmen_US
dc.subject互補碼調變zh_TW
dc.subject決策回授等化器zh_TW
dc.subject最小均方根演算法zh_TW
dc.title無線區域網路互補碼調變之架構與效益分析zh_TW
dc.titleArchitecture and Performance Analysis on Wireless Local Area Networks with CCK Modulationen_US
dc.typeThesis and Dissertationzh_TW
item.fulltextno fulltext-
item.languageiso639-1en_US-
item.openairetypeThesis and Dissertation-
item.cerifentitytypePublications-
item.openairecristypehttp://purl.org/coar/resource_type/c_18cf-
item.grantfulltextnone-
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