New Horizons in Mobile and Wireless Communications, 3 : Reconfigurability.

By: Prasad, RamjeeContributor(s): Mihovska, AlbenaMaterial type: TextTextPublisher: Norwood : Artech House, 2009Copyright date: ©2009Description: 1 online resource (368 pages)Content type: text Media type: computer Carrier type: online resourceISBN: 9781607839729Subject(s): Mobile communication systems | Wireless communication systemsGenre/Form: Electronic books.Additional physical formats: Print version:: New Horizons in Mobile and Wireless Communications, 3 : ReconfigurabilityDDC classification: 621.382 | 621.384 LOC classification: TK5103.2 -- .N49 2009ebOnline resources: Click to View
Contents:
New Horizons in Mobile and Wireless Communications: Volume 3 Reconfigurability -- Contents -- Preface -- Acknowledgments -- Chapter 1 Introduction -- 1.1 From Software-Defined Radio to End-to-End Reconfigurability -- 1.1.1 Heterogeneity of RAT Standards -- 1.1.2 SDR as an Enabling Technology -- 1.2 Cognitive Radio -- 1.2.1 Basics of Cognitive Radio -- 1.2.2 Regulatory Landscape -- 1.2.3 State of the Art of CR -- 1.3 State-of-the-Art Devices -- 1.3.1 RF-BB Interface -- 1.3.2 Converters -- 1.3.3 Digital Front End (DFE) -- 1.3.4 Analog Front End (AFE) -- 1.3.5 Equipment Management for Reconfigurable Radio -- 1.4 Security Threats -- 1.5 Evolution of Radio Resource and Spectrum Management -- 1.6 Preview of the Book -- References -- Chapter 2 Enabling Technologies -- 2.1 SDR and Cognition as Building Concepts of Reconfigurable Systems -- 2.2 Design of an Optimal Transmit and Receive Architecture for a Reconfigurable Air Interface -- 2.2.1 Limits of the Single-User MIMO Channels -- 2.2.2 Precoding Schemes with Perfect and Partial CSI-T -- 2.2.3 General Framework for Air Interface Reconfigurability -- 2.2.4 Design of Multiuser Optimal TX and RX -- 2.3 Candidate PHY-Layer Techniques for Reconfigurable Air Interfaces -- 2.3.1 Downlink Scenario -- 2.3.2 Uplink Scenario -- 2.3.3 Exploiting the Diversity Gain -- 2.3.4 Exploiting the Multiplexing Gain -- 2.4 Practical Multistream Transmission Techniques -- 2.4.1 Single-Carrier Versus OFDM -- 2.4.2 Coexistence of SC-FDE and OFDM -- 2.4.3 MIMO for Single Carrier -- 2.4.4 Channel-Dependent Scheduling for SC-FDMA Uplink MIMO -- 2.4.5 SINR Distribution for SDM MIMO Schemes in DL -- 2.4.6 MIMO Mode Selection for Multiuser Scheduling -- 2.5 Air Interface Technologies for Short-Range Reconfigurability -- 2.6 Adaptive Antenna Systems and Use of Localization -- 2.7 Reconfigurable IA/MIMO Transceiver Algorithms.
2.8 Conclusions -- References -- Chapter 3 Autonomic Communications -- 3.1 Introduction -- 3.2 Capabilities of Autonomic Communications -- 3.2.1 Self-Configuration and Self-Management -- 3.2.2 Autonomic Decision Making -- 3.3 Profile Representation -- 3.3.1 User Profiles -- 3.3.2 Device Profiles -- 3.3.3 Network Models -- 3.3.4 General Concept of Profiles -- 3.4 Ontology and Context Models -- 3.4.1 Ontology -- 3.4.2 Context -- 3.4.3 Relation Between Ontology and Context -- 3.4.4 Representation for Ontology and Context -- 3.4.5 Role in Communications and System Aspects -- 3.4.6 Applications of Autonomics -- 3.5 Device Management -- 3.5.1 OMA DM Architecture and Enablers -- 3.5.2 Role of Device Management in Self-Management and Autonomic Decision Making -- 3.6 Operation Support Systems -- 3.6.1 Autonomous Next-Generation Networks -- 3.6.2 Network Evolution Toward Openness -- 3.7 Policy Framework for Opportunistic Communication -- 3.8 Unified Scenario on Autonomic Communications Systems for Seamless Experience -- 3.9 Conclusions -- References -- Chapter 4 System Capabilities -- 4.1 Introduction -- 4.2 Policy Management -- 4.3 Cognitive Service Provision and Discovery -- 4.4 Emergency Services -- 4.5 Context Interpretation -- 4.6 Self-Configuring Protocols -- 4.7 Mass Upgrade of Mobile Terminals -- 4.8 Handover -- 4.9 Formation of Network Compartments and Base Station Reconfiguration -- 4.10 Traffic Load Prediction and Balancing -- 4.11 Network Resource Management -- 4.12 RAT Discovery and Selection -- 4.13 Conclusions -- References -- Chapter 5 Principles and Analysis of Reconfigurable Architectures -- 5.1 Introduction -- 5.1.1 Multistandard Base Stations -- 5.1.2 Programmable Reconfigurable Radio -- 5.1.3 Requirements for a Reconfigurable PHY Layer -- 5.2 Reconfigurable Elements -- 5.2.1 Analog Reconfigurable Elements.
5.2.2 Digital Reconfigurable Elements -- 5.3 Physical Layer-Related Scenarios and Requirements -- 5.4 Physical Layer Architecture Principles -- 5.4.1 Partitioning Overview -- 5.4.2 High-Level View of Architecture -- 5.5 Physical Layer Architecture Analysis -- 5.5.1 RF Front End Architecture -- 5.5.2 Digital Baseband Architecture -- 5.5.3 Communication Architectures -- 5.5.4 RF Front End to Digital Baseband Interface -- 5.5.5 Transmitter Architecture for Opportunistic Radio -- 5.6 Conclusions -- References -- Chapter 6 Reconfigurable Radio Equipment and Its Management -- 6.1 Introduction -- 6.2 Reconfigurable Management -- 6.2.1 Network Perspective -- 6.2.2 Equipment Perspective -- 6.3 Reconfiguration Control -- 6.3.1 CCM Simulations and Verifications -- 6.3.2 Configuration Control for MSBSs -- 6.3.3 Functional Description Language (FDL) Interpreter -- 6.3.4 Spatial Scheduling -- 6.4 Reconfiguration Elements -- 6.4.1 CEM-HAL Implementation -- 6.4.2 CEM Implementation: SAMIRA DSP -- 6.4.3 Adaptive Execution Environment -- 6.4.4 SW Architecture for Embedded Real-Time Processors -- 6.5 Conclusions -- References -- Chapter 7 Spectrum Management and Radio Resource Allocation -- 7.1 Introduction -- 7.2 Spectrum Sensing and Cooperative Sensing -- 7.3 Cooperation Protocols for Sensing -- 7.3.1 Centralized Sensing Approach -- 7.3.2 Distributed Sensing Approach -- 7.4 Spectrum and Cooperative Sensing Algorithms -- 7.4.1 Blind Cyclostationarity-Based Detection Test -- 7.4.2 Blind and Semiblind Detection Algorithms for Spread Spectrum Signals -- 7.4.3 Algorithm to Detect UMTS FDD Signals -- 7.4.4 Wideband Spectrum Sensing for OR Using Wavelet-Based Algorithms -- 7.4.5 Energy Detection Based on Multiple-Antenna Processing -- 7.4.6 Cooperative Extension of the UMTS FDD Signal Detector -- 7.5 Spectrum Policies and Economic Consideration -- 7.6 Conclusions.
References -- Chapter 8 Reconfiguration Threats and Security Objectives -- 8.1 Introduction -- 8.2 Reconfiguration Threats -- 8.3 Security Objectives -- 8.3.1 Reconfiguration Software Download -- 8.3.2 Reconfiguration Process -- 8.3.3 Compliance of Radio Emission -- 8.4 Reconfiguration Software Authorization -- 8.4.1 Relevant Security Technology -- 8.4.2 Software Download Authorization -- 8.4.3 Software Activation Restrictions -- 8.4.4 Restricted Radio Execution Environment -- 8.4.5 Reconfiguration Software Authorization Policy Framework -- 8.5 Secure Execution Environment -- 8.5.1 Hardware Support -- 8.5.2 Software Support -- 8.5.3 Equipment-Related Prototype Providing Security Mechanisms -- 8.6 Authentication and Trust Framework -- 8.6.1 Security Infrastructures for Reconfiguration -- 8.6.2 Trust Management and Dependencies -- 8.7 Challenges in the Reconfiguration Process -- 8.8 Conclusions -- References -- Chapter 9 Prototyping and Requirements of the Reconfigurable Platform -- 9.1 Introduction -- 9.2 Equipment Prototyping -- 9.2.1 FAUST SoC -- 9.2.2 Dual Band RF and ADDAC Board -- 9.2.3 MT Local Functionalities -- 9.2.4 ADC/Digital Front End -- 9.2.5 SAMIRA DSP -- 9.2.6 FPGA Dynamic Partial Reconfiguration -- 9.2.7 Parameterization and Common Operator Approach -- 9.2.8 Hierarchical Management -- 9.2.9 Hierarchical Configuration Management Architecture -- 9.2.10 FPGA Partial Reconfiguration -- 9.2.11 Common Operator-Oriented Design for FPGA Partial Reconfiguration -- 9.2.12 Reconfiguration Concepts for the Physical Layer of an MSBS -- 9.2.13 Detection of Vacant Radio Resources -- 9.3 Network Prototyping -- 9.3.1 Reconfiguration Control and Service Provisioning Manager (RCSPM) -- 9.3.2 RCSPM User Agent -- 9.3.3 ASM/ARRM Prototyping Demonstration Framework -- 9.3.4 Real-Time Platform for Mobility and QoS and Reconfiguration Management.
9.3.5 Radio Resource Management (RRM) -- 9.4 Adaptive Applications -- 9.5 Conclusions -- References -- Chapter 10 Concluding Remarks -- About the Authors -- Index.
Summary: This book (part of a comprehensive 4-volume series) provides the latest details and covers the most impactful aspects of mobile, wireless, and broadband communications development. These books present key systems and enabling technologies in a clear and accessible manner, offering you a detailed roadmap the future evolution of next generation communications.
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New Horizons in Mobile and Wireless Communications: Volume 3 Reconfigurability -- Contents -- Preface -- Acknowledgments -- Chapter 1 Introduction -- 1.1 From Software-Defined Radio to End-to-End Reconfigurability -- 1.1.1 Heterogeneity of RAT Standards -- 1.1.2 SDR as an Enabling Technology -- 1.2 Cognitive Radio -- 1.2.1 Basics of Cognitive Radio -- 1.2.2 Regulatory Landscape -- 1.2.3 State of the Art of CR -- 1.3 State-of-the-Art Devices -- 1.3.1 RF-BB Interface -- 1.3.2 Converters -- 1.3.3 Digital Front End (DFE) -- 1.3.4 Analog Front End (AFE) -- 1.3.5 Equipment Management for Reconfigurable Radio -- 1.4 Security Threats -- 1.5 Evolution of Radio Resource and Spectrum Management -- 1.6 Preview of the Book -- References -- Chapter 2 Enabling Technologies -- 2.1 SDR and Cognition as Building Concepts of Reconfigurable Systems -- 2.2 Design of an Optimal Transmit and Receive Architecture for a Reconfigurable Air Interface -- 2.2.1 Limits of the Single-User MIMO Channels -- 2.2.2 Precoding Schemes with Perfect and Partial CSI-T -- 2.2.3 General Framework for Air Interface Reconfigurability -- 2.2.4 Design of Multiuser Optimal TX and RX -- 2.3 Candidate PHY-Layer Techniques for Reconfigurable Air Interfaces -- 2.3.1 Downlink Scenario -- 2.3.2 Uplink Scenario -- 2.3.3 Exploiting the Diversity Gain -- 2.3.4 Exploiting the Multiplexing Gain -- 2.4 Practical Multistream Transmission Techniques -- 2.4.1 Single-Carrier Versus OFDM -- 2.4.2 Coexistence of SC-FDE and OFDM -- 2.4.3 MIMO for Single Carrier -- 2.4.4 Channel-Dependent Scheduling for SC-FDMA Uplink MIMO -- 2.4.5 SINR Distribution for SDM MIMO Schemes in DL -- 2.4.6 MIMO Mode Selection for Multiuser Scheduling -- 2.5 Air Interface Technologies for Short-Range Reconfigurability -- 2.6 Adaptive Antenna Systems and Use of Localization -- 2.7 Reconfigurable IA/MIMO Transceiver Algorithms.

2.8 Conclusions -- References -- Chapter 3 Autonomic Communications -- 3.1 Introduction -- 3.2 Capabilities of Autonomic Communications -- 3.2.1 Self-Configuration and Self-Management -- 3.2.2 Autonomic Decision Making -- 3.3 Profile Representation -- 3.3.1 User Profiles -- 3.3.2 Device Profiles -- 3.3.3 Network Models -- 3.3.4 General Concept of Profiles -- 3.4 Ontology and Context Models -- 3.4.1 Ontology -- 3.4.2 Context -- 3.4.3 Relation Between Ontology and Context -- 3.4.4 Representation for Ontology and Context -- 3.4.5 Role in Communications and System Aspects -- 3.4.6 Applications of Autonomics -- 3.5 Device Management -- 3.5.1 OMA DM Architecture and Enablers -- 3.5.2 Role of Device Management in Self-Management and Autonomic Decision Making -- 3.6 Operation Support Systems -- 3.6.1 Autonomous Next-Generation Networks -- 3.6.2 Network Evolution Toward Openness -- 3.7 Policy Framework for Opportunistic Communication -- 3.8 Unified Scenario on Autonomic Communications Systems for Seamless Experience -- 3.9 Conclusions -- References -- Chapter 4 System Capabilities -- 4.1 Introduction -- 4.2 Policy Management -- 4.3 Cognitive Service Provision and Discovery -- 4.4 Emergency Services -- 4.5 Context Interpretation -- 4.6 Self-Configuring Protocols -- 4.7 Mass Upgrade of Mobile Terminals -- 4.8 Handover -- 4.9 Formation of Network Compartments and Base Station Reconfiguration -- 4.10 Traffic Load Prediction and Balancing -- 4.11 Network Resource Management -- 4.12 RAT Discovery and Selection -- 4.13 Conclusions -- References -- Chapter 5 Principles and Analysis of Reconfigurable Architectures -- 5.1 Introduction -- 5.1.1 Multistandard Base Stations -- 5.1.2 Programmable Reconfigurable Radio -- 5.1.3 Requirements for a Reconfigurable PHY Layer -- 5.2 Reconfigurable Elements -- 5.2.1 Analog Reconfigurable Elements.

5.2.2 Digital Reconfigurable Elements -- 5.3 Physical Layer-Related Scenarios and Requirements -- 5.4 Physical Layer Architecture Principles -- 5.4.1 Partitioning Overview -- 5.4.2 High-Level View of Architecture -- 5.5 Physical Layer Architecture Analysis -- 5.5.1 RF Front End Architecture -- 5.5.2 Digital Baseband Architecture -- 5.5.3 Communication Architectures -- 5.5.4 RF Front End to Digital Baseband Interface -- 5.5.5 Transmitter Architecture for Opportunistic Radio -- 5.6 Conclusions -- References -- Chapter 6 Reconfigurable Radio Equipment and Its Management -- 6.1 Introduction -- 6.2 Reconfigurable Management -- 6.2.1 Network Perspective -- 6.2.2 Equipment Perspective -- 6.3 Reconfiguration Control -- 6.3.1 CCM Simulations and Verifications -- 6.3.2 Configuration Control for MSBSs -- 6.3.3 Functional Description Language (FDL) Interpreter -- 6.3.4 Spatial Scheduling -- 6.4 Reconfiguration Elements -- 6.4.1 CEM-HAL Implementation -- 6.4.2 CEM Implementation: SAMIRA DSP -- 6.4.3 Adaptive Execution Environment -- 6.4.4 SW Architecture for Embedded Real-Time Processors -- 6.5 Conclusions -- References -- Chapter 7 Spectrum Management and Radio Resource Allocation -- 7.1 Introduction -- 7.2 Spectrum Sensing and Cooperative Sensing -- 7.3 Cooperation Protocols for Sensing -- 7.3.1 Centralized Sensing Approach -- 7.3.2 Distributed Sensing Approach -- 7.4 Spectrum and Cooperative Sensing Algorithms -- 7.4.1 Blind Cyclostationarity-Based Detection Test -- 7.4.2 Blind and Semiblind Detection Algorithms for Spread Spectrum Signals -- 7.4.3 Algorithm to Detect UMTS FDD Signals -- 7.4.4 Wideband Spectrum Sensing for OR Using Wavelet-Based Algorithms -- 7.4.5 Energy Detection Based on Multiple-Antenna Processing -- 7.4.6 Cooperative Extension of the UMTS FDD Signal Detector -- 7.5 Spectrum Policies and Economic Consideration -- 7.6 Conclusions.

References -- Chapter 8 Reconfiguration Threats and Security Objectives -- 8.1 Introduction -- 8.2 Reconfiguration Threats -- 8.3 Security Objectives -- 8.3.1 Reconfiguration Software Download -- 8.3.2 Reconfiguration Process -- 8.3.3 Compliance of Radio Emission -- 8.4 Reconfiguration Software Authorization -- 8.4.1 Relevant Security Technology -- 8.4.2 Software Download Authorization -- 8.4.3 Software Activation Restrictions -- 8.4.4 Restricted Radio Execution Environment -- 8.4.5 Reconfiguration Software Authorization Policy Framework -- 8.5 Secure Execution Environment -- 8.5.1 Hardware Support -- 8.5.2 Software Support -- 8.5.3 Equipment-Related Prototype Providing Security Mechanisms -- 8.6 Authentication and Trust Framework -- 8.6.1 Security Infrastructures for Reconfiguration -- 8.6.2 Trust Management and Dependencies -- 8.7 Challenges in the Reconfiguration Process -- 8.8 Conclusions -- References -- Chapter 9 Prototyping and Requirements of the Reconfigurable Platform -- 9.1 Introduction -- 9.2 Equipment Prototyping -- 9.2.1 FAUST SoC -- 9.2.2 Dual Band RF and ADDAC Board -- 9.2.3 MT Local Functionalities -- 9.2.4 ADC/Digital Front End -- 9.2.5 SAMIRA DSP -- 9.2.6 FPGA Dynamic Partial Reconfiguration -- 9.2.7 Parameterization and Common Operator Approach -- 9.2.8 Hierarchical Management -- 9.2.9 Hierarchical Configuration Management Architecture -- 9.2.10 FPGA Partial Reconfiguration -- 9.2.11 Common Operator-Oriented Design for FPGA Partial Reconfiguration -- 9.2.12 Reconfiguration Concepts for the Physical Layer of an MSBS -- 9.2.13 Detection of Vacant Radio Resources -- 9.3 Network Prototyping -- 9.3.1 Reconfiguration Control and Service Provisioning Manager (RCSPM) -- 9.3.2 RCSPM User Agent -- 9.3.3 ASM/ARRM Prototyping Demonstration Framework -- 9.3.4 Real-Time Platform for Mobility and QoS and Reconfiguration Management.

9.3.5 Radio Resource Management (RRM) -- 9.4 Adaptive Applications -- 9.5 Conclusions -- References -- Chapter 10 Concluding Remarks -- About the Authors -- Index.

This book (part of a comprehensive 4-volume series) provides the latest details and covers the most impactful aspects of mobile, wireless, and broadband communications development. These books present key systems and enabling technologies in a clear and accessible manner, offering you a detailed roadmap the future evolution of next generation communications.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2018. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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