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IEEE Std 1900.5.2-2017 : IEEE Standard for Method for Modeling Spectrum Consumption / / Institute of Electrical and Electronics Engineers
| IEEE Std 1900.5.2-2017 : IEEE Standard for Method for Modeling Spectrum Consumption / / Institute of Electrical and Electronics Engineers |
| Pubbl/distr/stampa | New York, New York : , : IEEE, , 2018 |
| Descrizione fisica | 1 online resource (152 pages) |
| Disciplina | 384.5452 |
| Soggetto topico |
Radio frequency allocation - Management
Radio wave propagation |
| ISBN | 1-5044-4813-8 |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Altri titoli varianti | IEEE Std 1900.5.2-2017 |
| Record Nr. | UNINA-9910280888003321 |
| New York, New York : , : IEEE, , 2018 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
IEEE Std 1900.5.2-2017 : IEEE Standard for Method for Modeling Spectrum Consumption / / Institute of Electrical and Electronics Engineers
| IEEE Std 1900.5.2-2017 : IEEE Standard for Method for Modeling Spectrum Consumption / / Institute of Electrical and Electronics Engineers |
| Pubbl/distr/stampa | New York, New York : , : IEEE, , 2018 |
| Descrizione fisica | 1 online resource (152 pages) |
| Disciplina | 384.5452 |
| Soggetto topico |
Radio frequency allocation - Management
Radio wave propagation |
| ISBN | 1-5044-4813-8 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Altri titoli varianti | IEEE Std 1900.5.2-2017 |
| Record Nr. | UNISA-996279605503316 |
| New York, New York : , : IEEE, , 2018 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. di Salerno | ||
| ||
Interference analysis : modelling radio systems for spectrum management / / John A. Pahl
| Interference analysis : modelling radio systems for spectrum management / / John A. Pahl |
| Autore | Pahl John A. |
| Pubbl/distr/stampa | Chichester, UK ; ; Hoboken, NJ : , : Wiley, , 2016 |
| Descrizione fisica | 1 online resource (750 p.) |
| Disciplina | 621.382/24 |
| Soggetto topico |
Radio - Interference - Mathematical models
Radio - Transmitters and transmission - Mathematical models Electromagnetic waves - Transmission - Mathematical models Radio frequency allocation - Management |
| ISBN |
1-119-06529-1
1-119-06532-1 1-119-06531-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- Foreword xiii -- Preface xv -- 1 Introduction 1 -- 1.1 Motivations and Target Audience 2 -- 1.2 Book Structure 2 -- 1.3 Chapter Structure and Additional Resources 3 -- 1.4 Case Study: How to Observe Interference 3 -- 2 Motivations 6 -- 2.1 Why Undertake Interference Analysis? 6 -- 2.2 Drivers of Change 7 -- 2.3 The Regulatory Framework 8 -- 2.4 International Regulations 10 -- 2.4.1 History and Structure 10 -- 2.4.2 The Radiocommunication Sector 13 -- 2.4.3 Radio Regulations 15 -- 2.4.4 World Radiocommunication Conference 23 -- 2.4.5 Study Groups and Working Parties 24 -- 2.4.6 Recommendations and Reports 25 -- 2.5 Updating the Radio Regulations and Recommendations 27 -- 2.6 Meetings and Presenting Results 29 -- 2.7 National Regulators 34 -- 2.8 Regional and Industry Organisations 35 -- 2.9 Frequency Assignment and Planning 37 -- 2.10 Coordination 40 -- 2.11 Types of Interference Analysis 42 -- 2.12 Further Reading and Next Steps 42 -- 3 Fundamental Concepts 43 -- 3.1 Radiocommunication Systems 43 -- 3.2 Radio Waves and Decibels 46 -- 3.3 The Power Calculation 49 -- 3.4 Carrier Types and Modulation 52 -- 3.4.1 Overview 52 -- 3.4.2 Analogue Modulation 53 -- 3.4.3 Digital Modulation 55 -- 3.4.4 Frequency Hopping and OFDM 60 -- 3.4.5 Digital Modulation Selection 62 -- 3.4.6 Pulse Modulation and UWB 64 -- 3.4.7 Filtering 64 -- 3.5 Multiple Access Methods 66 -- 3.5.1 Overview 66 -- 3.5.2 Collision Sensing Multiple Access 68 -- 3.5.3 Frequency Division Multiple Access 69 -- 3.5.4 Time Division Multiple Access 70 -- 3.5.5 Code Division Multiple Access 71 -- 3.5.6 Orthogonal Frequency Division Multiple Access 75 -- 3.6 Noise Temperature and Reference Points 75 -- 3.7 Antennas 82 -- 3.7.1 Basic Concepts 82 -- 3.7.2 Beams and Beamwidths 85 -- 3.7.3 Common Gain Pattern Types 85 -- 3.7.4 Isotropic Gain Pattern 88 -- 3.7.5 Parabolic Dish Antennas 88 -- 3.7.6 Elliptical Patterns 92 -- 3.7.7 Phased Array Antennas 95 -- 3.7.8 Azimuth Dependent Antennas 96 -- 3.7.9 Elevation Dependent Antennas 98.
3.7.10 Azimuth and Elevation Slices 99 -- 3.7.11 3D Gain Tables 100 -- 3.7.12 Antenna Pointing Methods 101 -- 3.8 Geometry and Dynamics 101 -- 3.8.1 Geometric Frameworks 101 -- 3.8.2 Flat Earth Vectors 103 -- 3.8.3 Earth Spherical Coordinates 105 -- 3.8.4 ECI Vector Coordinates 110 -- 3.8.5 Ellipsoidal Earth and Orbit Models 120 -- 3.8.6 Delay and Doppler 121 -- 3.9 Calculation of Angles 122 -- 3.9.1 Azimuth and Elevation 122 -- 3.9.2 Terrestrial 123 -- 3.9.3 Satellite 123 -- 3.9.4 Angles in the Antenna Frame 124 -- 3.9.5 Off-Axis Angle from ECI Vectors 125 -- 3.9.6 Theta Phi Coordinates 127 -- 3.10 Statistics and Distributions 128 -- 3.11 Link Budgets and Metrics 133 -- 3.12 Spectrum Efficiency and Requirements 138 -- 3.13 Worked Example 140 -- 3.14 Further Reading and Next Steps 142 -- 4 Propagation Models 144 -- 4.1 Overview 145 -- 4.2 The Propagation Environment 148 -- 4.2.1 Effective Earth Radius 148 -- 4.2.2 Geoclimatic and Meteorological Parameters 150 -- 4.2.3 Radio Climatic Zones 150 -- 4.2.4 Terrain and Surface Databases 152 -- 4.2.5 Land Use Databases 155 -- 4.2.6 Signal Variation and Fast Fading 156 -- 4.3 Terrestrial Propagation Models 160 -- 4.3.1 P.525: Free Space Path Loss 160 -- 4.3.2 P.526: Diffraction 161 -- 4.3.3 P.530: Multipath and Rain Fade 165 -- 4.3.4 P.452: Interference Prediction 169 -- 4.3.5 P.1546: Point-to-Area Prediction 173 -- 4.3.6 P.1812: Point-to-Area Prediction 177 -- 4.3.7 P.2001: Wide-Range Propagation Model 179 -- 4.3.8 Hata/COST 231 Median Loss Model 182 -- 4.3.9 Appendix 7 184 -- 4.3.10 Generic Models 188 -- 4.3.11 Other Propagation Models 192 -- 4.3.12 Comparing Terrestrial Propagation Models 193 -- 4.4 Earth to Space Propagation Models 199 -- 4.4.1 P.676: Gaseous Attenuation 199 -- 4.4.2 P.618: Rain Loss and Noise Rise 201 -- 4.5 Aeronautical Propagation Models 205 -- 4.6 Additional Attenuations 205 -- 4.7 Radio Path Geometry 208 -- 4.8 Percentages of Time and Correlation 209 -- 4.9 Selection of Propagation Model 214 -- 4.10 Further Reading and Next Steps 216. 5 The Interference Calculation 217 -- 5.1 Bandwidths and Domains 218 -- 5.2 Bandwidth Adjustment Factor 221 -- 5.3 Spectrum Masks, Ratios and Guard Bands 224 -- 5.3.1 Transmit Mask and Calculated Bandwidth 224 -- 5.3.2 Standards and Spectrum Emission Masks 228 -- 5.3.3 The Mask Integration Adjustment Factor 232 -- 5.3.4 Frequency-Dependent Rejection and Net Filter Discrimination Terminology 239 -- 5.3.5 Adjacent Channel Leakage Ratio, ACS and Adjacent Channel Interference Ratio 242 -- 5.3.6 Spurious Emissions and dBc 245 -- 5.3.7 Intermodulation 246 -- 5.3.8 Block Edge Masks and Guard Bands 250 -- 5.4 Polarisation 254 -- 5.5 Adaptive Systems: Frequency, Power and Modulation 258 -- 5.5.1 Dynamic Frequency Selection 258 -- 5.5.2 Automatic Power Control 259 -- 5.5.3 Adaptive Coding and Modulation 262 -- 5.6 End-to-End Performance 263 -- 5.7 Modelling Deployment and Traffic 266 -- 5.7.1 Deployment Range 266 -- 5.7.2 Activity Models and Erlangs 269 -- 5.7.3 Traffic Type 272 -- 5.7.4 Deployment Models 273 -- 5.7.5 Aggregation Techniques 275 -- 5.8 Link Design and Margin 276 -- 5.9 Interference Apportionment and Thresholds 281 -- 5.9.1 Interference Margin 281 -- 5.9.2 Interference Apportionment 284 -- 5.9.3 Short-Term and Long-Term Thresholds 286 -- 5.9.4 Thresholds and Bandwidths 289 -- 5.10 Types of Interference Thresholds 292 -- 5.10.1 C/I and W/U Ratios 293 -- 5.10.2 FDP 297 -- 5.10.3 C/(N + I) and BER 301 -- 5.10.4 Unavailability 303 -- 5.10.5 Coverage, Range and Capacity 304 -- 5.10.6 Observation Duration and Locations 307 -- 5.10.7 Radar and Aeronautical Thresholds 307 -- 5.10.8 Channel Sharing Ratio 308 -- 5.10.9 Field Strength, PFD and EPFD 309 -- 5.10.10 Margin over Threshold 312 -- 5.11 Interference Mitigation 314 -- 5.11.1 Transmit Power and Bandwidth 315 -- 5.11.2 Antenna Gain Patterns 316 -- 5.11.3 Antenna Pointing 318 -- 5.11.4 Locations, Zones and Separation Distance 318 -- 5.11.5 Deployment Likelihood 320 -- 5.11.6 Noise, Feed Loss and Interference Margin 320. 5.11.7 Receiver Processing 321 -- 5.11.8 Time and Traffic 321 -- 5.11.9 Polarisation 322 -- 5.11.10 Antenna Height 323 -- 5.11.11 Operate Indoors 323 -- 5.11.12 Improved Filtering and Guard Bands 323 -- 5.11.13 Site Shielding 325 -- 5.11.14 Spectrum Sensing and Geodatabases 325 -- 5.11.15 Wanted System Modifications 325 -- 5.11.16 Modelling Methodology 326 -- 5.12 Further Reading and Next Steps 327 -- 6 Interference Analysis Methodologies 328 -- 6.1 Methodologies and Studies 329 -- 6.2 Example Scenarios 331 -- 6.2.1 IMT Sharing with Satellite ES 331 -- 6.2.2 Sharing Between Non-GSO MSS and FS 334 -- 6.3 Static Analysis 338 -- 6.4 Input Variation Analysis 344 -- 6.5 Area and Boundary Analysis 347 -- 6.5.1 Area Analysis 347 -- 6.5.2 Boundary Analysis 351 -- 6.6 Minimum Coupling Loss and Required Separation Distance 353 -- 6.7 Analytic Analysis 357 -- 6.8 Dynamic Analysis 363 -- 6.9 Monte Carlo Analysis 373 -- 6.9.1 Methodology 373 -- 6.9.2 Variation of Inputs 378 -- 6.9.3 Output Statistics and U Parameter Variation 380 -- 6.9.4 Example Monte Carlo Analysis 382 -- 6.9.5 LTE Downlink Link Budget 384 -- 6.9.6 Statistical Significance 385 -- 6.9.7 Deployment Analysis 392 -- 6.9.8 Conclusions 394 -- 6.10 Area and Two-Stage Monte Carlo 395 -- 6.11 Probabilistic Analysis 401 -- 6.12 Selection of Methodology 402 -- 6.13 Study Projects and Working Methods 404 -- 6.14 Further Reading and Next Steps 407 -- 7 Specific Algorithms and Services 408 -- 7.1 Fixed Service Planning 409 -- 7.1.1 Overview 409 -- 7.1.2 Link Planning 410 -- 7.1.3 Interference Thresholds 412 -- 7.1.4 High versus Low Site 415 -- 7.1.5 Channel Selection 416 -- 7.2 Private Mobile Radio 417 -- 7.2.1 Overview 417 -- 7.2.2 Coverage Calculation 418 -- 7.2.3 PSA and Uplink Calculations 422 -- 7.2.4 Thresholds and Propagation Model 422 -- 7.2.5 Compatibility Checks 424 -- 7.2.6 Channel Sharing Ratio 427 -- 7.2.7 Sharing with Other Services 430 -- 7.3 Broadcasting 431 -- 7.3.1 Threshold Calculation 431 -- 7.3.2 Coverage Prediction 434. 7.3.3 Statistical Power Summation 437 -- 7.3.4 Single-Frequency Networks 442 -- 7.4 Earth Station Coordination 443 -- 7.5 GSO Satellite Coordination 450 -- 7.5.1 Regulatory Background 450 -- 7.5.2 Coordination Triggers 454 -- 7.5.3 Detailed Coordination 457 -- 7.5.4 Coordination and Regulatory Constraints 464 -- 7.5.5 Gain Patterns 465 -- 7.6 EPFD and Rec. ITU-R S.1503 467 -- 7.6.1 Background 467 -- 7.6.2 Exclusion Zones and the α Angle 471 -- 7.6.3 EPFD Validation Methodology 475 -- 7.6.4 EPFD Calculation 479 -- 7.7 The Radar Equation 483 -- 7.8 N-Systems Methodology 488 -- 7.9 Generic Radio Modelling Tool 494 -- 7.10 White Space Devices 501 -- 7.10.1 Background and Services 501 -- 7.10.2 FCC Methodology 504 -- 7.10.3 Ofcom Methodology 506 -- 7.10.4 Comparison of Approaches 511 -- 7.11 Final Thoughts 514 -- References 515 -- Acronyms, Abbreviations and Symbols 522 -- Index 530. |
| Record Nr. | UNINA-9910136795203321 |
Pahl John A.
|
||
| Chichester, UK ; ; Hoboken, NJ : , : Wiley, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Interference analysis : modelling radio systems for spectrum management / / John A. Pahl
| Interference analysis : modelling radio systems for spectrum management / / John A. Pahl |
| Autore | Pahl John A. |
| Pubbl/distr/stampa | Chichester, UK ; ; Hoboken, NJ : , : Wiley, , 2016 |
| Descrizione fisica | 1 online resource (750 p.) |
| Disciplina | 621.382/24 |
| Soggetto topico |
Radio - Interference - Mathematical models
Radio - Transmitters and transmission - Mathematical models Electromagnetic waves - Transmission - Mathematical models Radio frequency allocation - Management |
| ISBN |
1-119-06529-1
1-119-06532-1 1-119-06531-3 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
-- Foreword xiii -- Preface xv -- 1 Introduction 1 -- 1.1 Motivations and Target Audience 2 -- 1.2 Book Structure 2 -- 1.3 Chapter Structure and Additional Resources 3 -- 1.4 Case Study: How to Observe Interference 3 -- 2 Motivations 6 -- 2.1 Why Undertake Interference Analysis? 6 -- 2.2 Drivers of Change 7 -- 2.3 The Regulatory Framework 8 -- 2.4 International Regulations 10 -- 2.4.1 History and Structure 10 -- 2.4.2 The Radiocommunication Sector 13 -- 2.4.3 Radio Regulations 15 -- 2.4.4 World Radiocommunication Conference 23 -- 2.4.5 Study Groups and Working Parties 24 -- 2.4.6 Recommendations and Reports 25 -- 2.5 Updating the Radio Regulations and Recommendations 27 -- 2.6 Meetings and Presenting Results 29 -- 2.7 National Regulators 34 -- 2.8 Regional and Industry Organisations 35 -- 2.9 Frequency Assignment and Planning 37 -- 2.10 Coordination 40 -- 2.11 Types of Interference Analysis 42 -- 2.12 Further Reading and Next Steps 42 -- 3 Fundamental Concepts 43 -- 3.1 Radiocommunication Systems 43 -- 3.2 Radio Waves and Decibels 46 -- 3.3 The Power Calculation 49 -- 3.4 Carrier Types and Modulation 52 -- 3.4.1 Overview 52 -- 3.4.2 Analogue Modulation 53 -- 3.4.3 Digital Modulation 55 -- 3.4.4 Frequency Hopping and OFDM 60 -- 3.4.5 Digital Modulation Selection 62 -- 3.4.6 Pulse Modulation and UWB 64 -- 3.4.7 Filtering 64 -- 3.5 Multiple Access Methods 66 -- 3.5.1 Overview 66 -- 3.5.2 Collision Sensing Multiple Access 68 -- 3.5.3 Frequency Division Multiple Access 69 -- 3.5.4 Time Division Multiple Access 70 -- 3.5.5 Code Division Multiple Access 71 -- 3.5.6 Orthogonal Frequency Division Multiple Access 75 -- 3.6 Noise Temperature and Reference Points 75 -- 3.7 Antennas 82 -- 3.7.1 Basic Concepts 82 -- 3.7.2 Beams and Beamwidths 85 -- 3.7.3 Common Gain Pattern Types 85 -- 3.7.4 Isotropic Gain Pattern 88 -- 3.7.5 Parabolic Dish Antennas 88 -- 3.7.6 Elliptical Patterns 92 -- 3.7.7 Phased Array Antennas 95 -- 3.7.8 Azimuth Dependent Antennas 96 -- 3.7.9 Elevation Dependent Antennas 98.
3.7.10 Azimuth and Elevation Slices 99 -- 3.7.11 3D Gain Tables 100 -- 3.7.12 Antenna Pointing Methods 101 -- 3.8 Geometry and Dynamics 101 -- 3.8.1 Geometric Frameworks 101 -- 3.8.2 Flat Earth Vectors 103 -- 3.8.3 Earth Spherical Coordinates 105 -- 3.8.4 ECI Vector Coordinates 110 -- 3.8.5 Ellipsoidal Earth and Orbit Models 120 -- 3.8.6 Delay and Doppler 121 -- 3.9 Calculation of Angles 122 -- 3.9.1 Azimuth and Elevation 122 -- 3.9.2 Terrestrial 123 -- 3.9.3 Satellite 123 -- 3.9.4 Angles in the Antenna Frame 124 -- 3.9.5 Off-Axis Angle from ECI Vectors 125 -- 3.9.6 Theta Phi Coordinates 127 -- 3.10 Statistics and Distributions 128 -- 3.11 Link Budgets and Metrics 133 -- 3.12 Spectrum Efficiency and Requirements 138 -- 3.13 Worked Example 140 -- 3.14 Further Reading and Next Steps 142 -- 4 Propagation Models 144 -- 4.1 Overview 145 -- 4.2 The Propagation Environment 148 -- 4.2.1 Effective Earth Radius 148 -- 4.2.2 Geoclimatic and Meteorological Parameters 150 -- 4.2.3 Radio Climatic Zones 150 -- 4.2.4 Terrain and Surface Databases 152 -- 4.2.5 Land Use Databases 155 -- 4.2.6 Signal Variation and Fast Fading 156 -- 4.3 Terrestrial Propagation Models 160 -- 4.3.1 P.525: Free Space Path Loss 160 -- 4.3.2 P.526: Diffraction 161 -- 4.3.3 P.530: Multipath and Rain Fade 165 -- 4.3.4 P.452: Interference Prediction 169 -- 4.3.5 P.1546: Point-to-Area Prediction 173 -- 4.3.6 P.1812: Point-to-Area Prediction 177 -- 4.3.7 P.2001: Wide-Range Propagation Model 179 -- 4.3.8 Hata/COST 231 Median Loss Model 182 -- 4.3.9 Appendix 7 184 -- 4.3.10 Generic Models 188 -- 4.3.11 Other Propagation Models 192 -- 4.3.12 Comparing Terrestrial Propagation Models 193 -- 4.4 Earth to Space Propagation Models 199 -- 4.4.1 P.676: Gaseous Attenuation 199 -- 4.4.2 P.618: Rain Loss and Noise Rise 201 -- 4.5 Aeronautical Propagation Models 205 -- 4.6 Additional Attenuations 205 -- 4.7 Radio Path Geometry 208 -- 4.8 Percentages of Time and Correlation 209 -- 4.9 Selection of Propagation Model 214 -- 4.10 Further Reading and Next Steps 216. 5 The Interference Calculation 217 -- 5.1 Bandwidths and Domains 218 -- 5.2 Bandwidth Adjustment Factor 221 -- 5.3 Spectrum Masks, Ratios and Guard Bands 224 -- 5.3.1 Transmit Mask and Calculated Bandwidth 224 -- 5.3.2 Standards and Spectrum Emission Masks 228 -- 5.3.3 The Mask Integration Adjustment Factor 232 -- 5.3.4 Frequency-Dependent Rejection and Net Filter Discrimination Terminology 239 -- 5.3.5 Adjacent Channel Leakage Ratio, ACS and Adjacent Channel Interference Ratio 242 -- 5.3.6 Spurious Emissions and dBc 245 -- 5.3.7 Intermodulation 246 -- 5.3.8 Block Edge Masks and Guard Bands 250 -- 5.4 Polarisation 254 -- 5.5 Adaptive Systems: Frequency, Power and Modulation 258 -- 5.5.1 Dynamic Frequency Selection 258 -- 5.5.2 Automatic Power Control 259 -- 5.5.3 Adaptive Coding and Modulation 262 -- 5.6 End-to-End Performance 263 -- 5.7 Modelling Deployment and Traffic 266 -- 5.7.1 Deployment Range 266 -- 5.7.2 Activity Models and Erlangs 269 -- 5.7.3 Traffic Type 272 -- 5.7.4 Deployment Models 273 -- 5.7.5 Aggregation Techniques 275 -- 5.8 Link Design and Margin 276 -- 5.9 Interference Apportionment and Thresholds 281 -- 5.9.1 Interference Margin 281 -- 5.9.2 Interference Apportionment 284 -- 5.9.3 Short-Term and Long-Term Thresholds 286 -- 5.9.4 Thresholds and Bandwidths 289 -- 5.10 Types of Interference Thresholds 292 -- 5.10.1 C/I and W/U Ratios 293 -- 5.10.2 FDP 297 -- 5.10.3 C/(N + I) and BER 301 -- 5.10.4 Unavailability 303 -- 5.10.5 Coverage, Range and Capacity 304 -- 5.10.6 Observation Duration and Locations 307 -- 5.10.7 Radar and Aeronautical Thresholds 307 -- 5.10.8 Channel Sharing Ratio 308 -- 5.10.9 Field Strength, PFD and EPFD 309 -- 5.10.10 Margin over Threshold 312 -- 5.11 Interference Mitigation 314 -- 5.11.1 Transmit Power and Bandwidth 315 -- 5.11.2 Antenna Gain Patterns 316 -- 5.11.3 Antenna Pointing 318 -- 5.11.4 Locations, Zones and Separation Distance 318 -- 5.11.5 Deployment Likelihood 320 -- 5.11.6 Noise, Feed Loss and Interference Margin 320. 5.11.7 Receiver Processing 321 -- 5.11.8 Time and Traffic 321 -- 5.11.9 Polarisation 322 -- 5.11.10 Antenna Height 323 -- 5.11.11 Operate Indoors 323 -- 5.11.12 Improved Filtering and Guard Bands 323 -- 5.11.13 Site Shielding 325 -- 5.11.14 Spectrum Sensing and Geodatabases 325 -- 5.11.15 Wanted System Modifications 325 -- 5.11.16 Modelling Methodology 326 -- 5.12 Further Reading and Next Steps 327 -- 6 Interference Analysis Methodologies 328 -- 6.1 Methodologies and Studies 329 -- 6.2 Example Scenarios 331 -- 6.2.1 IMT Sharing with Satellite ES 331 -- 6.2.2 Sharing Between Non-GSO MSS and FS 334 -- 6.3 Static Analysis 338 -- 6.4 Input Variation Analysis 344 -- 6.5 Area and Boundary Analysis 347 -- 6.5.1 Area Analysis 347 -- 6.5.2 Boundary Analysis 351 -- 6.6 Minimum Coupling Loss and Required Separation Distance 353 -- 6.7 Analytic Analysis 357 -- 6.8 Dynamic Analysis 363 -- 6.9 Monte Carlo Analysis 373 -- 6.9.1 Methodology 373 -- 6.9.2 Variation of Inputs 378 -- 6.9.3 Output Statistics and U Parameter Variation 380 -- 6.9.4 Example Monte Carlo Analysis 382 -- 6.9.5 LTE Downlink Link Budget 384 -- 6.9.6 Statistical Significance 385 -- 6.9.7 Deployment Analysis 392 -- 6.9.8 Conclusions 394 -- 6.10 Area and Two-Stage Monte Carlo 395 -- 6.11 Probabilistic Analysis 401 -- 6.12 Selection of Methodology 402 -- 6.13 Study Projects and Working Methods 404 -- 6.14 Further Reading and Next Steps 407 -- 7 Specific Algorithms and Services 408 -- 7.1 Fixed Service Planning 409 -- 7.1.1 Overview 409 -- 7.1.2 Link Planning 410 -- 7.1.3 Interference Thresholds 412 -- 7.1.4 High versus Low Site 415 -- 7.1.5 Channel Selection 416 -- 7.2 Private Mobile Radio 417 -- 7.2.1 Overview 417 -- 7.2.2 Coverage Calculation 418 -- 7.2.3 PSA and Uplink Calculations 422 -- 7.2.4 Thresholds and Propagation Model 422 -- 7.2.5 Compatibility Checks 424 -- 7.2.6 Channel Sharing Ratio 427 -- 7.2.7 Sharing with Other Services 430 -- 7.3 Broadcasting 431 -- 7.3.1 Threshold Calculation 431 -- 7.3.2 Coverage Prediction 434. 7.3.3 Statistical Power Summation 437 -- 7.3.4 Single-Frequency Networks 442 -- 7.4 Earth Station Coordination 443 -- 7.5 GSO Satellite Coordination 450 -- 7.5.1 Regulatory Background 450 -- 7.5.2 Coordination Triggers 454 -- 7.5.3 Detailed Coordination 457 -- 7.5.4 Coordination and Regulatory Constraints 464 -- 7.5.5 Gain Patterns 465 -- 7.6 EPFD and Rec. ITU-R S.1503 467 -- 7.6.1 Background 467 -- 7.6.2 Exclusion Zones and the α Angle 471 -- 7.6.3 EPFD Validation Methodology 475 -- 7.6.4 EPFD Calculation 479 -- 7.7 The Radar Equation 483 -- 7.8 N-Systems Methodology 488 -- 7.9 Generic Radio Modelling Tool 494 -- 7.10 White Space Devices 501 -- 7.10.1 Background and Services 501 -- 7.10.2 FCC Methodology 504 -- 7.10.3 Ofcom Methodology 506 -- 7.10.4 Comparison of Approaches 511 -- 7.11 Final Thoughts 514 -- References 515 -- Acronyms, Abbreviations and Symbols 522 -- Index 530. |
| Record Nr. | UNINA-9910830708203321 |
|
Pahl John A.
|
||
| Chichester, UK ; ; Hoboken, NJ : , : Wiley, , 2016 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Radio resource allocation and dynamic spectrum access [[electronic resource] /] / Badr Benmammar, Asma Amraoui
| Radio resource allocation and dynamic spectrum access [[electronic resource] /] / Badr Benmammar, Asma Amraoui |
| Autore | Benmammar Badr |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | London, : ISTE |
| Descrizione fisica | 1 online resource (94 p.) |
| Disciplina | 621.38411 |
| Altri autori (Persone) | AmraouiAsma |
| Collana | Focus series in waves |
| Soggetto topico |
Cognitive radio networks
Radio resource management (Wireless communications) Radio frequency allocation - Management |
| ISBN |
1-118-57511-3
1-118-57435-4 1-118-57483-4 1-299-18662-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Title Page; Contents; ACRONYMS; INTRODUCTION; CHAPTER 1. WIRELESS AND MOBILE NETWORKS; 1.1. Introduction; 1.2. Wireless networks; 1.2.1. Definition; 1.2.2. Function of a wireless network; 1.2.2.1. Network with infrastructure; 1.2.2.2. Network without infrastructure The network without infrastructure, which is referred to as ad hoc network or independen; 1.2.3. Types of wireless networks; 1.2.3.1. Wireless personal area network The wireless personal area network (WPAN) is composed of connections between devices tha; 1.2.3.2. Wireless local area network
1.2.3.3. Wireless metropolitan area network1.2.3.4. Wireless wide area network; 1.2.3.5. Wireless regional area network; 1.2.4. Different types of existing wireless networks; 1.2.4.1. Networks using infrared waves Infrared waves are commonly used in everyday (in television remote controls, for example); 1.2.4.2. Networks using radio waves; 1.2.5. IEEE 802.22 standard; 1.3. Mobile networks; 1.3.1. Wireless and mobility; 1.3.2. Mobility; 1.3.3. Cellular architecture; 1.3.4. Architecture of a cellular network; 1.3.5. Telephony; 1.3.6. Development of cellular systems; 1.3.6.1. First generation 1.3.6.2. Second generation1.3.6.3. Third generation; 1.3.6.4. Fourth generation; 1.4. WiMAX mobile and 4G; 1.5. Conclusion; CHAPTER 2. COGNITIVE RADIO; 2.1. Introduction; 2.2. Software radio; 2.2.1. Software-defined radio (SDR); 2.3. Introduction to cognitive radio; 2.3.1. History; 2.3.2. Definition; 2.3.3. Relationship between cognitive radio and software-defined radio; 2.3.4. Structure; 2.3.5. Cognition cycle; 2.3.6. Components of cognitive radio; 2.3.7. Functions of cognitive radio; 2.4. Languages of cognitive radio; 2.5. Domains of cognitive radio applications; 2.6. Conclusion CHAPTER 3. MULTI-AGENT SYSTEMS3.1. Introduction; 3.2. Definition of an agent; 3.2.1. The multidimensional characteristics of an agent; 3.2.2. An agent's concrete architecture; 3.2.2.1. Architecture of logical agents; 3.2.2.2. Reactive architecture; 3.2.2.3. BDI architecture; 3.2.2.4. Multilevel architecture The objective of a multilevel architecture is to conduct a constructive synthesis of the reacti; 3.2.3. Model of an agent; 3.3. Multi-agent systems; 3.3.1. Communication between agents; 3.3.1.1. Coordination protocols; 3.3.1.2. Cooperation protocols; 3.3.1.3. Negotiation 3.4. Application of MAS in telecommunications3.4.1. MAS applications on the Web; 3.4.2. Application of MAS in virtual private networks; 3.4.3. Using MAS in the setting of third generation mobiles; 3.4.4. Application of MAS in network supervision and management; 3.5. Conclusion; CHAPTER 4. DYNAMIC SPECTRUM ACCESS; 4.1. Introduction; 4.2. Intelligent algorithms; 4.2.1. Neural networks; 4.2.2. Fuzzy logic; 4.2.3. Genetic algorithms; 4.3. Dynamic spectrum access; 4.3.1. Spectrum access using the auction approach; 4.3.2. Spectrum access using game theory 4.3.3. Spectrum access using Markov's approach |
| Record Nr. | UNINA-9910138859603321 |
|
Benmammar Badr
|
||
| London, : ISTE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Radio resource allocation and dynamic spectrum access / / Badr Benmammar, Asma Amraoui
| Radio resource allocation and dynamic spectrum access / / Badr Benmammar, Asma Amraoui |
| Autore | Benmammar Badr |
| Edizione | [1st edition] |
| Pubbl/distr/stampa | London, : ISTE |
| Descrizione fisica | 1 online resource (94 p.) |
| Disciplina | 621.38411 |
| Altri autori (Persone) | AmraouiAsma |
| Collana | Focus series in waves |
| Soggetto topico |
Cognitive radio networks
Radio resource management (Wireless communications) Radio frequency allocation - Management |
| ISBN |
9781118575116
1118575113 9781118574355 1118574354 9781118574836 1118574834 9781299186620 1299186629 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Title Page; Contents; ACRONYMS; INTRODUCTION; CHAPTER 1. WIRELESS AND MOBILE NETWORKS; 1.1. Introduction; 1.2. Wireless networks; 1.2.1. Definition; 1.2.2. Function of a wireless network; 1.2.2.1. Network with infrastructure; 1.2.2.2. Network without infrastructure The network without infrastructure, which is referred to as ad hoc network or independen; 1.2.3. Types of wireless networks; 1.2.3.1. Wireless personal area network The wireless personal area network (WPAN) is composed of connections between devices tha; 1.2.3.2. Wireless local area network
1.2.3.3. Wireless metropolitan area network1.2.3.4. Wireless wide area network; 1.2.3.5. Wireless regional area network; 1.2.4. Different types of existing wireless networks; 1.2.4.1. Networks using infrared waves Infrared waves are commonly used in everyday (in television remote controls, for example); 1.2.4.2. Networks using radio waves; 1.2.5. IEEE 802.22 standard; 1.3. Mobile networks; 1.3.1. Wireless and mobility; 1.3.2. Mobility; 1.3.3. Cellular architecture; 1.3.4. Architecture of a cellular network; 1.3.5. Telephony; 1.3.6. Development of cellular systems; 1.3.6.1. First generation 1.3.6.2. Second generation1.3.6.3. Third generation; 1.3.6.4. Fourth generation; 1.4. WiMAX mobile and 4G; 1.5. Conclusion; CHAPTER 2. COGNITIVE RADIO; 2.1. Introduction; 2.2. Software radio; 2.2.1. Software-defined radio (SDR); 2.3. Introduction to cognitive radio; 2.3.1. History; 2.3.2. Definition; 2.3.3. Relationship between cognitive radio and software-defined radio; 2.3.4. Structure; 2.3.5. Cognition cycle; 2.3.6. Components of cognitive radio; 2.3.7. Functions of cognitive radio; 2.4. Languages of cognitive radio; 2.5. Domains of cognitive radio applications; 2.6. Conclusion CHAPTER 3. MULTI-AGENT SYSTEMS3.1. Introduction; 3.2. Definition of an agent; 3.2.1. The multidimensional characteristics of an agent; 3.2.2. An agent's concrete architecture; 3.2.2.1. Architecture of logical agents; 3.2.2.2. Reactive architecture; 3.2.2.3. BDI architecture; 3.2.2.4. Multilevel architecture The objective of a multilevel architecture is to conduct a constructive synthesis of the reacti; 3.2.3. Model of an agent; 3.3. Multi-agent systems; 3.3.1. Communication between agents; 3.3.1.1. Coordination protocols; 3.3.1.2. Cooperation protocols; 3.3.1.3. Negotiation 3.4. Application of MAS in telecommunications3.4.1. MAS applications on the Web; 3.4.2. Application of MAS in virtual private networks; 3.4.3. Using MAS in the setting of third generation mobiles; 3.4.4. Application of MAS in network supervision and management; 3.5. Conclusion; CHAPTER 4. DYNAMIC SPECTRUM ACCESS; 4.1. Introduction; 4.2. Intelligent algorithms; 4.2.1. Neural networks; 4.2.2. Fuzzy logic; 4.2.3. Genetic algorithms; 4.3. Dynamic spectrum access; 4.3.1. Spectrum access using the auction approach; 4.3.2. Spectrum access using game theory 4.3.3. Spectrum access using Markov's approach |
| Record Nr. | UNINA-9910820091803321 |
|
Benmammar Badr
|
||
| London, : ISTE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The radio spectrum [[electronic resource] ] : managing a strategic resource / / edited by Jean-Marc Chaduc, Gerard Pogorel
| The radio spectrum [[electronic resource] ] : managing a strategic resource / / edited by Jean-Marc Chaduc, Gerard Pogorel |
| Pubbl/distr/stampa | London, : ISTE |
| Descrizione fisica | 1 online resource (322 p.) |
| Disciplina |
384.54/524
384.54524 |
| Altri autori (Persone) |
ChaducJean-Marc
PogorelGerard |
| Collana | ISTE |
| Soggetto topico |
Radio frequency allocation - Management
Resource allocation |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-282-16485-6
9786612164859 0-470-61094-8 0-470-39352-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
The Radio Spectrum; Table of Contents; Acknowledgement and Credits; Introduction; Part 1. The Basis of Spectrum Management; Chapter 1. A Bit of History, Physics and Mathematics; 1.1. Waves; 1.2. Propagation; 1.3. Directivity; 1.4. Link evaluation; Chapter 2. Telecommunications; 2.1. Modulation and bandwidth; 2.2. Bandwidth and noise; 2.3. C/N (or C/I) and S/Nm; 2.4. Multiplex, multiple access; 2.5. A balance between carrier power, noise and interferences; Chapter 3. Geography and Radio Communications: Radio Network Engineering; 3.1. Regions and countries
3.2. Radio implementation in the field3.3. Propagation on the Earth; 3.4. Space, orbits, satellite systems; 3.5. Terrestrial network coverage; 3.6. Coverage strategies; 3.7. Radio site protection; Chapter 4. Spectrum Sharing, Bases and Actors; 4.1. Radio frequencies: common goods; 4.2. Regulatory services for spectrum sharing by the ITU (allocation frequency tables); 4.3. The role of states in sharing the spectrum; 4.4. How to plan new applications and compatible services; 4.5. Regulation, harmonization, planning; 4.6. Is the spectrum resource scarce?; 4.7. Spectrum sharing: a summary Chapter 5. Some Regulated Services5.1. The fixed service; 5.2. Mobile services; 5.3. Broadcasting; 5.4. Satellite services; 5.5. Geo and non-geo systems; 5.6. Some other regulatory services; Chapter 6. Recent Evolutions of Radio Services; 6.1. A family snapshot; 6.2. Enthusiastic telecommunications; 6.3. Hesitant broadcasters; 6.4. The promises of radiolocation; 6.5. Limits of the spectrum planning efficiency; Chapter 7. Regulatory Instruments for Spectrum Sharing; 7.1. Frequency allocation tables; 7.2. Plans; 7.3. Coordination; 7.4. Technical limits Chapter 8. Frequency Assignment: A Contract8.1. Contracting parties; 8.2. Common bands and assignments; 8.3. Exclusive bands: preferential sub-bands; 8.4. Assignment procedures; 8.5. External requirements: site constraints; 8.6. Satellite systems; Chapter 9. Spectrum Monitoring; 9.1. Spectrum monitoring technical tools; 9.1.1. HF band monitoring; 9.1.2. Metric and decimetric band monitoring; 9.1.3. Microwave monitoring; 9.1.4. Satellite monitoring; 9.1.5. Mobile monitoring stations; 9.1.6. Airborne monitoring means; 9.2. Radio station inspections: major events 9.3. Claim for interference: legal prosecutions9.4. "Radio landscape" description; 9.5. Terminals; Part 2. Managers and their Practices; Chapter 10. New Technical Perspectives and Impact on Spectrum Management; 10.1. Spread spectrum technologies; 10.2. OFDM and MIMO; 10.3. Ultra wideband; 10.4. Dynamic spectrum access technologies; 10.5. Software-defined radio; 10.6. Cognitive radio; 10.7. Intersystem control; 10.8. Mesh networks; Chapter 11. The International Telecommunication Union (ITU); 11.1. The ITU today; 11.2. Radio Regulations; 11.2.1. The vocabulary of radiocommunications 11.2.2. Table of frequency allocations |
| Record Nr. | UNINA-9910139522103321 |
| London, : ISTE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The radio spectrum [[electronic resource] ] : managing a strategic resource / / edited by Jean-Marc Chaduc, Gerard Pogorel
| The radio spectrum [[electronic resource] ] : managing a strategic resource / / edited by Jean-Marc Chaduc, Gerard Pogorel |
| Pubbl/distr/stampa | London, : ISTE |
| Descrizione fisica | 1 online resource (322 p.) |
| Disciplina |
384.54/524
384.54524 |
| Altri autori (Persone) |
ChaducJean-Marc
PogorelGerard |
| Collana | ISTE |
| Soggetto topico |
Radio frequency allocation - Management
Resource allocation |
| ISBN |
1-282-16485-6
9786612164859 0-470-61094-8 0-470-39352-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
The Radio Spectrum; Table of Contents; Acknowledgement and Credits; Introduction; Part 1. The Basis of Spectrum Management; Chapter 1. A Bit of History, Physics and Mathematics; 1.1. Waves; 1.2. Propagation; 1.3. Directivity; 1.4. Link evaluation; Chapter 2. Telecommunications; 2.1. Modulation and bandwidth; 2.2. Bandwidth and noise; 2.3. C/N (or C/I) and S/Nm; 2.4. Multiplex, multiple access; 2.5. A balance between carrier power, noise and interferences; Chapter 3. Geography and Radio Communications: Radio Network Engineering; 3.1. Regions and countries
3.2. Radio implementation in the field3.3. Propagation on the Earth; 3.4. Space, orbits, satellite systems; 3.5. Terrestrial network coverage; 3.6. Coverage strategies; 3.7. Radio site protection; Chapter 4. Spectrum Sharing, Bases and Actors; 4.1. Radio frequencies: common goods; 4.2. Regulatory services for spectrum sharing by the ITU (allocation frequency tables); 4.3. The role of states in sharing the spectrum; 4.4. How to plan new applications and compatible services; 4.5. Regulation, harmonization, planning; 4.6. Is the spectrum resource scarce?; 4.7. Spectrum sharing: a summary Chapter 5. Some Regulated Services5.1. The fixed service; 5.2. Mobile services; 5.3. Broadcasting; 5.4. Satellite services; 5.5. Geo and non-geo systems; 5.6. Some other regulatory services; Chapter 6. Recent Evolutions of Radio Services; 6.1. A family snapshot; 6.2. Enthusiastic telecommunications; 6.3. Hesitant broadcasters; 6.4. The promises of radiolocation; 6.5. Limits of the spectrum planning efficiency; Chapter 7. Regulatory Instruments for Spectrum Sharing; 7.1. Frequency allocation tables; 7.2. Plans; 7.3. Coordination; 7.4. Technical limits Chapter 8. Frequency Assignment: A Contract8.1. Contracting parties; 8.2. Common bands and assignments; 8.3. Exclusive bands: preferential sub-bands; 8.4. Assignment procedures; 8.5. External requirements: site constraints; 8.6. Satellite systems; Chapter 9. Spectrum Monitoring; 9.1. Spectrum monitoring technical tools; 9.1.1. HF band monitoring; 9.1.2. Metric and decimetric band monitoring; 9.1.3. Microwave monitoring; 9.1.4. Satellite monitoring; 9.1.5. Mobile monitoring stations; 9.1.6. Airborne monitoring means; 9.2. Radio station inspections: major events 9.3. Claim for interference: legal prosecutions9.4. "Radio landscape" description; 9.5. Terminals; Part 2. Managers and their Practices; Chapter 10. New Technical Perspectives and Impact on Spectrum Management; 10.1. Spread spectrum technologies; 10.2. OFDM and MIMO; 10.3. Ultra wideband; 10.4. Dynamic spectrum access technologies; 10.5. Software-defined radio; 10.6. Cognitive radio; 10.7. Intersystem control; 10.8. Mesh networks; Chapter 11. The International Telecommunication Union (ITU); 11.1. The ITU today; 11.2. Radio Regulations; 11.2.1. The vocabulary of radiocommunications 11.2.2. Table of frequency allocations |
| Record Nr. | UNINA-9910830477403321 |
| London, : ISTE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
The radio spectrum : managing a strategic resource / / edited by Jean-Marc Chaduc, Gerard Pogorel
| The radio spectrum : managing a strategic resource / / edited by Jean-Marc Chaduc, Gerard Pogorel |
| Pubbl/distr/stampa | London, : ISTE |
| Descrizione fisica | 1 online resource (322 p.) |
| Disciplina | 384.54/524 |
| Altri autori (Persone) |
ChaducJean-Marc
PogorelGerard |
| Collana | ISTE |
| Soggetto topico |
Radio frequency allocation - Management
Resource allocation |
| ISBN |
1-282-16485-6
9786612164859 0-470-61094-8 0-470-39352-1 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
The Radio Spectrum; Table of Contents; Acknowledgement and Credits; Introduction; Part 1. The Basis of Spectrum Management; Chapter 1. A Bit of History, Physics and Mathematics; 1.1. Waves; 1.2. Propagation; 1.3. Directivity; 1.4. Link evaluation; Chapter 2. Telecommunications; 2.1. Modulation and bandwidth; 2.2. Bandwidth and noise; 2.3. C/N (or C/I) and S/Nm; 2.4. Multiplex, multiple access; 2.5. A balance between carrier power, noise and interferences; Chapter 3. Geography and Radio Communications: Radio Network Engineering; 3.1. Regions and countries
3.2. Radio implementation in the field3.3. Propagation on the Earth; 3.4. Space, orbits, satellite systems; 3.5. Terrestrial network coverage; 3.6. Coverage strategies; 3.7. Radio site protection; Chapter 4. Spectrum Sharing, Bases and Actors; 4.1. Radio frequencies: common goods; 4.2. Regulatory services for spectrum sharing by the ITU (allocation frequency tables); 4.3. The role of states in sharing the spectrum; 4.4. How to plan new applications and compatible services; 4.5. Regulation, harmonization, planning; 4.6. Is the spectrum resource scarce?; 4.7. Spectrum sharing: a summary Chapter 5. Some Regulated Services5.1. The fixed service; 5.2. Mobile services; 5.3. Broadcasting; 5.4. Satellite services; 5.5. Geo and non-geo systems; 5.6. Some other regulatory services; Chapter 6. Recent Evolutions of Radio Services; 6.1. A family snapshot; 6.2. Enthusiastic telecommunications; 6.3. Hesitant broadcasters; 6.4. The promises of radiolocation; 6.5. Limits of the spectrum planning efficiency; Chapter 7. Regulatory Instruments for Spectrum Sharing; 7.1. Frequency allocation tables; 7.2. Plans; 7.3. Coordination; 7.4. Technical limits Chapter 8. Frequency Assignment: A Contract8.1. Contracting parties; 8.2. Common bands and assignments; 8.3. Exclusive bands: preferential sub-bands; 8.4. Assignment procedures; 8.5. External requirements: site constraints; 8.6. Satellite systems; Chapter 9. Spectrum Monitoring; 9.1. Spectrum monitoring technical tools; 9.1.1. HF band monitoring; 9.1.2. Metric and decimetric band monitoring; 9.1.3. Microwave monitoring; 9.1.4. Satellite monitoring; 9.1.5. Mobile monitoring stations; 9.1.6. Airborne monitoring means; 9.2. Radio station inspections: major events 9.3. Claim for interference: legal prosecutions9.4. "Radio landscape" description; 9.5. Terminals; Part 2. Managers and their Practices; Chapter 10. New Technical Perspectives and Impact on Spectrum Management; 10.1. Spread spectrum technologies; 10.2. OFDM and MIMO; 10.3. Ultra wideband; 10.4. Dynamic spectrum access technologies; 10.5. Software-defined radio; 10.6. Cognitive radio; 10.7. Intersystem control; 10.8. Mesh networks; Chapter 11. The International Telecommunication Union (ITU); 11.1. The ITU today; 11.2. Radio Regulations; 11.2.1. The vocabulary of radiocommunications 11.2.2. Table of frequency allocations |
| Record Nr. | UNINA-9910877049503321 |
| London, : ISTE | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
