Broadband powerline communications networks [[electronic resource] ] : network design / / Halid Hrasnica, Abdelfatteh Haidine, Ralf Lehnert |
Autore | Hrasnica Halid |
Pubbl/distr/stampa | Chichester, : Wiley, c2004 |
Descrizione fisica | 1 online resource (291 p.) |
Disciplina | 621.3823 |
Altri autori (Persone) |
HaidineAbdelfatteh
LehnertR (Ralf) |
Soggetto topico |
Telecommunication lines
Broadband communication systems - Design |
ISBN |
1-280-27072-1
9786610270729 0-470-30006-X 0-470-02092-X 0-470-85742-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Broadband Powerline Communications Networks; Contents; Preface; 1 Introduction; 2 PLC in the Telecommunications Access Area; 2.1 Access Technologies; 2.1.1 Importance of the Telecommunications Access Area; 2.1.2 Building of New Access Networks; 2.1.3 Usage of the Existing Infrastructure in the Access Area; 2.2 Powerline Communications Systems; 2.2.1 Historical Overview; 2.2.2 Power Supply Networks; 2.2.3 Standards; 2.2.4 Narrowband PLC; 2.2.5 Broadband PLC; 2.3 PLC Access Networks; 2.3.1 Structure of PLC Access Networks; 2.3.2 In-home PLC Networks; 2.3.3 PLC Network Elements
2.3.4 Connection to the Core Network2.3.5 Medium-voltage PLC; 2.4 Specific PLC Performance Problems; 2.4.1 Features of PLC Transmission Channel; 2.4.2 Electromagnetic Compatibility; 2.4.3 Impact of Disturbances and Data Rate Limitation; 2.4.4 Realization of Broadband PLC Transmission Systems; 2.4.5 Performance Improvement by Efficient MAC Layer; 2.5 Summary; 3 PLC Network Characteristics; 3.1 Network Topology; 3.1.1 Topology of the Low-voltage Supply Networks; 3.1.2 Organization of PLC Access Networks; 3.1.3 Structure of In-home PLC Networks; 3.1.4 Complex PLC Access Networks 3.1.5 Logical Network Models3.2 Features of PLC Transmission Channel; 3.2.1 Channel Characterization; 3.2.2 Characteristics of PLC Transmission Cable; 3.2.3 Modeling of the PLC Channel; 3.3 Electromagnetic Compatibility of PLC Systems; 3.3.1 Different Aspects of the EMC; 3.3.2 PLC EM Disturbances Modeling; 3.3.3 EMC Standards for PLC Systems; 3.4 Disturbance Characterization; 3.4.1 Noise Description; 3.4.2 Generalized Background Noise; 3.4.3 Impulsive Noise; 3.4.4 Disturbance Modeling; 3.5 Summary; 4 Realization of PLC Access Systems; 4.1 Architecture of the PLC Systems 4.2 Modulation Techniques for PLC Systems4.2.1 Orthogonal Frequency Division Multiplexing; 4.2.2 Spread-Spectrum Modulation; 4.2.3 Choice of Modulation Scheme for PLC Systems; 4.3 Error Handling; 4.3.1 Overview; 4.3.2 Forward Error Correction; 4.3.3 Interleaving; 4.3.4 ARQ Mechanisms; 4.4 PLC Services; 4.4.1 PLC Bearer Service; 4.4.2 Telecommunications Services in PLC Access Networks; 4.4.3 Service Classification; 4.5 Summary; 5 PLC MAC Layer; 5.1 Structure of the MAC Layer; 5.1.1 MAC Layer Components; 5.1.2 Characteristics of PLC MAC Layer; 5.1.3 Requirements on the PLC MAC Layer 5.2 Multiple Access Scheme5.2.1 TDMA; 5.2.2 FDMA; 5.2.3 CDMA; 5.2.4 Logical Channel Model; 5.3 Resource-sharing Strategies; 5.3.1 Classification of MAC Protocols; 5.3.2 Contention Protocols; 5.3.3 Arbitration Protocols; 5.3.4 IEEE 802.11 MAC Protocol; 5.4 Traffic Control; 5.4.1 Duplex Mode; 5.4.2 Traffic Scheduling; 5.4.3 CAC Mechanism; 5.5 Summary; 6 Performance Evaluation of Reservation MAC Protocols; 6.1 Reservation MAC Protocols for PLC; 6.1.1 Reservation Domain; 6.1.2 Signaling Procedure; 6.1.3 Access Control; 6.1.4 Signaling MAC Protocols; 6.2 Modeling PLC MAC Layer 6.2.1 Analysis Method |
Record Nr. | UNINA-9910143748303321 |
Hrasnica Halid
![]() |
||
Chichester, : Wiley, c2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Broadband powerline communications networks [[electronic resource] ] : network design / / Halid Hrasnica, Abdelfatteh Haidine, Ralf Lehnert |
Autore | Hrasnica Halid |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Chichester, : Wiley, c2004 |
Descrizione fisica | 1 online resource (291 p.) |
Disciplina | 621.3823 |
Altri autori (Persone) |
HaidineAbdelfatteh
LehnertR (Ralf) |
Soggetto topico |
Telecommunication lines
Broadband communication systems - Design |
ISBN |
1-280-27072-1
9786610270729 0-470-30006-X 0-470-02092-X 0-470-85742-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Broadband Powerline Communications Networks; Contents; Preface; 1 Introduction; 2 PLC in the Telecommunications Access Area; 2.1 Access Technologies; 2.1.1 Importance of the Telecommunications Access Area; 2.1.2 Building of New Access Networks; 2.1.3 Usage of the Existing Infrastructure in the Access Area; 2.2 Powerline Communications Systems; 2.2.1 Historical Overview; 2.2.2 Power Supply Networks; 2.2.3 Standards; 2.2.4 Narrowband PLC; 2.2.5 Broadband PLC; 2.3 PLC Access Networks; 2.3.1 Structure of PLC Access Networks; 2.3.2 In-home PLC Networks; 2.3.3 PLC Network Elements
2.3.4 Connection to the Core Network2.3.5 Medium-voltage PLC; 2.4 Specific PLC Performance Problems; 2.4.1 Features of PLC Transmission Channel; 2.4.2 Electromagnetic Compatibility; 2.4.3 Impact of Disturbances and Data Rate Limitation; 2.4.4 Realization of Broadband PLC Transmission Systems; 2.4.5 Performance Improvement by Efficient MAC Layer; 2.5 Summary; 3 PLC Network Characteristics; 3.1 Network Topology; 3.1.1 Topology of the Low-voltage Supply Networks; 3.1.2 Organization of PLC Access Networks; 3.1.3 Structure of In-home PLC Networks; 3.1.4 Complex PLC Access Networks 3.1.5 Logical Network Models3.2 Features of PLC Transmission Channel; 3.2.1 Channel Characterization; 3.2.2 Characteristics of PLC Transmission Cable; 3.2.3 Modeling of the PLC Channel; 3.3 Electromagnetic Compatibility of PLC Systems; 3.3.1 Different Aspects of the EMC; 3.3.2 PLC EM Disturbances Modeling; 3.3.3 EMC Standards for PLC Systems; 3.4 Disturbance Characterization; 3.4.1 Noise Description; 3.4.2 Generalized Background Noise; 3.4.3 Impulsive Noise; 3.4.4 Disturbance Modeling; 3.5 Summary; 4 Realization of PLC Access Systems; 4.1 Architecture of the PLC Systems 4.2 Modulation Techniques for PLC Systems4.2.1 Orthogonal Frequency Division Multiplexing; 4.2.2 Spread-Spectrum Modulation; 4.2.3 Choice of Modulation Scheme for PLC Systems; 4.3 Error Handling; 4.3.1 Overview; 4.3.2 Forward Error Correction; 4.3.3 Interleaving; 4.3.4 ARQ Mechanisms; 4.4 PLC Services; 4.4.1 PLC Bearer Service; 4.4.2 Telecommunications Services in PLC Access Networks; 4.4.3 Service Classification; 4.5 Summary; 5 PLC MAC Layer; 5.1 Structure of the MAC Layer; 5.1.1 MAC Layer Components; 5.1.2 Characteristics of PLC MAC Layer; 5.1.3 Requirements on the PLC MAC Layer 5.2 Multiple Access Scheme5.2.1 TDMA; 5.2.2 FDMA; 5.2.3 CDMA; 5.2.4 Logical Channel Model; 5.3 Resource-sharing Strategies; 5.3.1 Classification of MAC Protocols; 5.3.2 Contention Protocols; 5.3.3 Arbitration Protocols; 5.3.4 IEEE 802.11 MAC Protocol; 5.4 Traffic Control; 5.4.1 Duplex Mode; 5.4.2 Traffic Scheduling; 5.4.3 CAC Mechanism; 5.5 Summary; 6 Performance Evaluation of Reservation MAC Protocols; 6.1 Reservation MAC Protocols for PLC; 6.1.1 Reservation Domain; 6.1.2 Signaling Procedure; 6.1.3 Access Control; 6.1.4 Signaling MAC Protocols; 6.2 Modeling PLC MAC Layer 6.2.1 Analysis Method |
Record Nr. | UNINA-9910815906803321 |
Hrasnica Halid
![]() |
||
Chichester, : Wiley, c2004 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Special design topics in digital wideband receivers / / James Tsui |
Autore | Tsui James <1935-> |
Pubbl/distr/stampa | Boston, Massachusetts ; , : Artech House, , 2010 |
Descrizione fisica | 1 online resource (439 p.) |
Disciplina | 621.38215 |
Collana | Artech House radar series |
Soggetto topico |
Broadband communication systems - Design
Computer network architectures Signal processing - Digital techniques Wireless communication systems - Design |
Soggetto genere / forma | Electronic books. |
ISBN | 1-60807-031-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Special Design Topics in Digital Wideband Receivers; Contents; Preface; Chapter 1 Introduction; 1.1 Introduction; 1.2 Purpose of This Book; 1.3 Predicated Requirements on Receiver Performance; 1.4 Overall EW Receiver System Operation; 1.5 Encoder Designs; 1.6 Approaches and References; 1.7 Criterion of the Software Approaches; 1.8 Organization of the Book; References; Chapter 2 Amplification Required in Front of the ADC; 2.1 Introduction; 2.2 Basic Design Criterion; 2.3 Inputs to the Computer Program; 2.3.1 The Inputs Related to the RF Amplifier; 2.3.2 The Inputs Related to the ADC
2.3.3 The Inputs Related to the FFT Operator2.4 Constants Generation; 2.5 Equations Derived; 2.6 Modification from the Previous Program; 2.7 An Example; 2.8 Nominal Sensitivity and Single Signal Dynamic Range; 2.9 Generate Nominal Values for ADC with Different Numbers of Bits; 2.10 Noise Floor and the Number of Bits; 2.11 Another Example; 2.12 Discussions of Results; References; Chapter 3 Dynamic Range Study Through Eigenvalue and MUSIC Methods; 3.1 Introduction; 3.2 Basic Definitions of Dynamic Range; 3.3 Prerequisite for Dynamic Range Measurements 3.4 Single Signal Receiver Dynamic Range (SDR)3.5 Dynamic Range for Receiver with Multiple Signal Capability; 3.5.1 Single-Signal Dynamic Range; 3.5.2 Two-Signal Third-Order Intermodulation Spur Free Dynamic Range; 3.5.3 The Two-Signal Instantaneous Dynamic Range (IDR); 3.6 A Brief Discussion on the Eigenvalue Decomposition and MUSIC Methods; 3.7 Define the Processing Procedure; 3.8 Eigenvalues Generated with Noise and Noise Plus Signals; 3.9 IDR Determination Through Eigenvalues; 3.10 MUSIC Method; 3.11 IDR Determined by Frequency Identification 3.12 Amplification Required in Front of the ADC3.13 Digitization Effect on Sensitivity as a Function of a Number of Bits; 3.14 Digitization Effect in the Instantaneous Dynamic Range Calculation; 3.15 Curve Fitting for the Instantaneous Dynamic Range; 3.16 IDR Calculated with 128 Data Points and Digitization; 3.17 Generating Very High IDR Using Long Data Length; 3.18 Conclusion; References; Chapter 4 Dynamic Range Study Through Fast Fourier Transform (FFT); 4.1 Introduction; 4.2 Using Simulation Approach to Find the IDR; 4.3 Local Peaks; 4.4 Simulation Procedure; 4.5 Threshold Determination 4.6 Windows and Input Frequencies4.7 IDR Results; 4.8 IDR with a Rectangular Window; 4.9 IDR with a Rectangular Window and Close Spaced Frequencies; 4.10 IDR with Hamming Window; 4.11 IDR with Blackman Window; 4.12 IDR with a Chebyshev Window; 4.13 IDR with a Park-McClellan Window; 4.14 Data Length and IDR; 4.15 Receiver Design Considerations; 4.16 Conclusion; 4.17 Remarks; References; Chapter 5 In-Phase and Quadrature Phase (IQ) Study; 5.1 Introduction; 5.2 Approach to Find the IQ Imbalance; 5.3 FFT Output Imbalance Measurement Procedure; 5.4 Results from Measuring FFT |
Record Nr. | UNINA-9910456700303321 |
Tsui James <1935->
![]() |
||
Boston, Massachusetts ; , : Artech House, , 2010 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Special design topics in digital wideband receivers / / James Tsui |
Autore | Tsui James <1935-> |
Pubbl/distr/stampa | Boston, Massachusetts ; , : Artech House, , 2010 |
Descrizione fisica | 1 online resource (439 p.) |
Disciplina | 621.38215 |
Collana | Artech House radar series |
Soggetto topico |
Broadband communication systems - Design
Computer network architectures Signal processing - Digital techniques Wireless communication systems - Design |
ISBN | 1-60807-031-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Special Design Topics in Digital Wideband Receivers; Contents; Preface; Chapter 1 Introduction; 1.1 Introduction; 1.2 Purpose of This Book; 1.3 Predicated Requirements on Receiver Performance; 1.4 Overall EW Receiver System Operation; 1.5 Encoder Designs; 1.6 Approaches and References; 1.7 Criterion of the Software Approaches; 1.8 Organization of the Book; References; Chapter 2 Amplification Required in Front of the ADC; 2.1 Introduction; 2.2 Basic Design Criterion; 2.3 Inputs to the Computer Program; 2.3.1 The Inputs Related to the RF Amplifier; 2.3.2 The Inputs Related to the ADC
2.3.3 The Inputs Related to the FFT Operator2.4 Constants Generation; 2.5 Equations Derived; 2.6 Modification from the Previous Program; 2.7 An Example; 2.8 Nominal Sensitivity and Single Signal Dynamic Range; 2.9 Generate Nominal Values for ADC with Different Numbers of Bits; 2.10 Noise Floor and the Number of Bits; 2.11 Another Example; 2.12 Discussions of Results; References; Chapter 3 Dynamic Range Study Through Eigenvalue and MUSIC Methods; 3.1 Introduction; 3.2 Basic Definitions of Dynamic Range; 3.3 Prerequisite for Dynamic Range Measurements 3.4 Single Signal Receiver Dynamic Range (SDR)3.5 Dynamic Range for Receiver with Multiple Signal Capability; 3.5.1 Single-Signal Dynamic Range; 3.5.2 Two-Signal Third-Order Intermodulation Spur Free Dynamic Range; 3.5.3 The Two-Signal Instantaneous Dynamic Range (IDR); 3.6 A Brief Discussion on the Eigenvalue Decomposition and MUSIC Methods; 3.7 Define the Processing Procedure; 3.8 Eigenvalues Generated with Noise and Noise Plus Signals; 3.9 IDR Determination Through Eigenvalues; 3.10 MUSIC Method; 3.11 IDR Determined by Frequency Identification 3.12 Amplification Required in Front of the ADC3.13 Digitization Effect on Sensitivity as a Function of a Number of Bits; 3.14 Digitization Effect in the Instantaneous Dynamic Range Calculation; 3.15 Curve Fitting for the Instantaneous Dynamic Range; 3.16 IDR Calculated with 128 Data Points and Digitization; 3.17 Generating Very High IDR Using Long Data Length; 3.18 Conclusion; References; Chapter 4 Dynamic Range Study Through Fast Fourier Transform (FFT); 4.1 Introduction; 4.2 Using Simulation Approach to Find the IDR; 4.3 Local Peaks; 4.4 Simulation Procedure; 4.5 Threshold Determination 4.6 Windows and Input Frequencies4.7 IDR Results; 4.8 IDR with a Rectangular Window; 4.9 IDR with a Rectangular Window and Close Spaced Frequencies; 4.10 IDR with Hamming Window; 4.11 IDR with Blackman Window; 4.12 IDR with a Chebyshev Window; 4.13 IDR with a Park-McClellan Window; 4.14 Data Length and IDR; 4.15 Receiver Design Considerations; 4.16 Conclusion; 4.17 Remarks; References; Chapter 5 In-Phase and Quadrature Phase (IQ) Study; 5.1 Introduction; 5.2 Approach to Find the IQ Imbalance; 5.3 FFT Output Imbalance Measurement Procedure; 5.4 Results from Measuring FFT |
Record Nr. | UNINA-9910780902103321 |
Tsui James <1935->
![]() |
||
Boston, Massachusetts ; , : Artech House, , 2010 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Special design topics in digital wideband receivers / / James Tsui |
Autore | Tsui James <1935-> |
Pubbl/distr/stampa | Boston, Massachusetts ; , : Artech House, , 2010 |
Descrizione fisica | 1 online resource (439 p.) |
Disciplina | 621.38215 |
Collana | Artech House radar series |
Soggetto topico |
Broadband communication systems - Design
Computer network architectures Signal processing - Digital techniques Wireless communication systems - Design |
ISBN | 1-60807-031-X |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Special Design Topics in Digital Wideband Receivers; Contents; Preface; Chapter 1 Introduction; 1.1 Introduction; 1.2 Purpose of This Book; 1.3 Predicated Requirements on Receiver Performance; 1.4 Overall EW Receiver System Operation; 1.5 Encoder Designs; 1.6 Approaches and References; 1.7 Criterion of the Software Approaches; 1.8 Organization of the Book; References; Chapter 2 Amplification Required in Front of the ADC; 2.1 Introduction; 2.2 Basic Design Criterion; 2.3 Inputs to the Computer Program; 2.3.1 The Inputs Related to the RF Amplifier; 2.3.2 The Inputs Related to the ADC
2.3.3 The Inputs Related to the FFT Operator2.4 Constants Generation; 2.5 Equations Derived; 2.6 Modification from the Previous Program; 2.7 An Example; 2.8 Nominal Sensitivity and Single Signal Dynamic Range; 2.9 Generate Nominal Values for ADC with Different Numbers of Bits; 2.10 Noise Floor and the Number of Bits; 2.11 Another Example; 2.12 Discussions of Results; References; Chapter 3 Dynamic Range Study Through Eigenvalue and MUSIC Methods; 3.1 Introduction; 3.2 Basic Definitions of Dynamic Range; 3.3 Prerequisite for Dynamic Range Measurements 3.4 Single Signal Receiver Dynamic Range (SDR)3.5 Dynamic Range for Receiver with Multiple Signal Capability; 3.5.1 Single-Signal Dynamic Range; 3.5.2 Two-Signal Third-Order Intermodulation Spur Free Dynamic Range; 3.5.3 The Two-Signal Instantaneous Dynamic Range (IDR); 3.6 A Brief Discussion on the Eigenvalue Decomposition and MUSIC Methods; 3.7 Define the Processing Procedure; 3.8 Eigenvalues Generated with Noise and Noise Plus Signals; 3.9 IDR Determination Through Eigenvalues; 3.10 MUSIC Method; 3.11 IDR Determined by Frequency Identification 3.12 Amplification Required in Front of the ADC3.13 Digitization Effect on Sensitivity as a Function of a Number of Bits; 3.14 Digitization Effect in the Instantaneous Dynamic Range Calculation; 3.15 Curve Fitting for the Instantaneous Dynamic Range; 3.16 IDR Calculated with 128 Data Points and Digitization; 3.17 Generating Very High IDR Using Long Data Length; 3.18 Conclusion; References; Chapter 4 Dynamic Range Study Through Fast Fourier Transform (FFT); 4.1 Introduction; 4.2 Using Simulation Approach to Find the IDR; 4.3 Local Peaks; 4.4 Simulation Procedure; 4.5 Threshold Determination 4.6 Windows and Input Frequencies4.7 IDR Results; 4.8 IDR with a Rectangular Window; 4.9 IDR with a Rectangular Window and Close Spaced Frequencies; 4.10 IDR with Hamming Window; 4.11 IDR with Blackman Window; 4.12 IDR with a Chebyshev Window; 4.13 IDR with a Park-McClellan Window; 4.14 Data Length and IDR; 4.15 Receiver Design Considerations; 4.16 Conclusion; 4.17 Remarks; References; Chapter 5 In-Phase and Quadrature Phase (IQ) Study; 5.1 Introduction; 5.2 Approach to Find the IQ Imbalance; 5.3 FFT Output Imbalance Measurement Procedure; 5.4 Results from Measuring FFT |
Record Nr. | UNINA-9910825011803321 |
Tsui James <1935->
![]() |
||
Boston, Massachusetts ; , : Artech House, , 2010 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|