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Table of Contents
Intro; Preface; Contents; Abbreviations and Symbols; List of Figures; List of Tables; 1 Introduction; 1.1 Introduction; 1.2 Bluetooth Definition; 1.3 Bluetooth Special Interest Group (SIG); 1.4 Origin of Bluetooth Name; 1.5 Applications and Aspects of Bluetooth; 1.6 Objective of the Book; 1.7 Outline of the Book; References; 2 WPANs Technologies Beginning; 2.1 Introduction; 2.2 Bluetooth Characteristics; 2.3 Bluetooth System Architecture; 2.3.1 The Physical Layer; 2.3.2 The Baseband Layer; 2.3.3 Bluetooth Protocols; 2.4 Physical Channel; 2.5 Physical Links in Bluetooth System
2.5.1 Asynchronous Connectionless (ACL) Link2.5.2 Synchronous Connection-Oriented (SCO) Link; 2.6 Bluetooth Device Address; 2.7 Bluetooth Frame Format; 2.7.1 Access Code (AC); 2.7.2 Header of Bluetooth Frame (HD); 2.7.3 Payloads; 2.8 Bluetooth Packet Types; 2.9 Bluetooth Network Topologies; 2.9.1 Piconet; 2.9.2 Scatternet; 2.10 Bluetooth Versions Features and Specifications; 2.11 Bluetooth Security; References; 3 Error Control Schemes; 3.1 Introduction; 3.2 Channel Codes Types; 3.3 Bluetooth Frame with Channel Coding; 3.4 Payload of Bluetooth System Packets
3.5 Bluetooth Enhanced Data Rate (EDR)References; 4 WPAN-Bluetooth Simulation Scenarios Using Block Codes; 4.1 Introduction; 4.2 Analytical Studying of PEP; 4.3 Proposed Frame Format and Analytical Studying; 4.3.1 Hamming Code (7, 4); 4.3.2 BCH Code (15, 7); 4.4 Simulation Assumption; 4.5 Simulation Results; 4.5.1 Performance of Basic Bluetooth Packets; 4.5.2 Effects of Proposed Channel Codes on Bluetooth Performance; 4.5.3 Performance Comparison; 4.6 Summary; References; 5 WPAN Simulation Scenarios-2 with the Different Coding; 5.1 Introduction; 5.2 Convolutional Codes
5.3 Bluetooth Frame Format with Convolutional Codes5.3.1 Bluetooth Frame Format Modification (DMx Packets); 5.3.2 Bluetooth Frame Format Modification (DHx Packets); 5.4 General Simulation Assumption; 5.5 Simulation Results; 5.5.1 AWGN Channel; 5.5.2 Rayleigh-Flat Fading Channel; 5.6 Performance Comparison; 5.7 Complexity of Convolutional Codes; References; 6 Simulation Scenarios of Pseudo-coding Techniques; 6.1 Introduction; 6.2 Interleaving; 6.3 Chaotic Maps; 6.3.1 Two-Dimensional Baker Map; 6.3.2 Generalized Baker Map; 6.3.3 Discretized Baker Map; 6.4 Simulation Assumptions
6.5 Simulation Results6.6 Performance and Complexity; References
2.5.1 Asynchronous Connectionless (ACL) Link2.5.2 Synchronous Connection-Oriented (SCO) Link; 2.6 Bluetooth Device Address; 2.7 Bluetooth Frame Format; 2.7.1 Access Code (AC); 2.7.2 Header of Bluetooth Frame (HD); 2.7.3 Payloads; 2.8 Bluetooth Packet Types; 2.9 Bluetooth Network Topologies; 2.9.1 Piconet; 2.9.2 Scatternet; 2.10 Bluetooth Versions Features and Specifications; 2.11 Bluetooth Security; References; 3 Error Control Schemes; 3.1 Introduction; 3.2 Channel Codes Types; 3.3 Bluetooth Frame with Channel Coding; 3.4 Payload of Bluetooth System Packets
3.5 Bluetooth Enhanced Data Rate (EDR)References; 4 WPAN-Bluetooth Simulation Scenarios Using Block Codes; 4.1 Introduction; 4.2 Analytical Studying of PEP; 4.3 Proposed Frame Format and Analytical Studying; 4.3.1 Hamming Code (7, 4); 4.3.2 BCH Code (15, 7); 4.4 Simulation Assumption; 4.5 Simulation Results; 4.5.1 Performance of Basic Bluetooth Packets; 4.5.2 Effects of Proposed Channel Codes on Bluetooth Performance; 4.5.3 Performance Comparison; 4.6 Summary; References; 5 WPAN Simulation Scenarios-2 with the Different Coding; 5.1 Introduction; 5.2 Convolutional Codes
5.3 Bluetooth Frame Format with Convolutional Codes5.3.1 Bluetooth Frame Format Modification (DMx Packets); 5.3.2 Bluetooth Frame Format Modification (DHx Packets); 5.4 General Simulation Assumption; 5.5 Simulation Results; 5.5.1 AWGN Channel; 5.5.2 Rayleigh-Flat Fading Channel; 5.6 Performance Comparison; 5.7 Complexity of Convolutional Codes; References; 6 Simulation Scenarios of Pseudo-coding Techniques; 6.1 Introduction; 6.2 Interleaving; 6.3 Chaotic Maps; 6.3.1 Two-Dimensional Baker Map; 6.3.2 Generalized Baker Map; 6.3.3 Discretized Baker Map; 6.4 Simulation Assumptions
6.5 Simulation Results6.6 Performance and Complexity; References