Agricultural Transition in China : Domestic and International Perspectives on Technology and Institutional Change / / by Jun Du |
Autore | Du Jun |
Edizione | [1st ed. 2018.] |
Pubbl/distr/stampa | Cham : , : Springer International Publishing : , : Imprint : Palgrave Macmillan, , 2018 |
Descrizione fisica | 1 online resource (XVII, 194 p. 25 illus. in color.) |
Disciplina | 330.9 |
Collana | Palgrave Studies in Economic History |
Soggetto topico |
Economic history
International economic relations Asia - Economic conditions Agriculture - Economic aspects Economic development Evolutionary economics Institutional economics Economic History International Political Economy’ Asian Economics Agricultural Economics Economic Development, Innovation and Growth Institutional and Evolutionary Economics |
ISBN | 3-319-76905-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Chapter 1: A General Theory Review -- Chapter 2: Economic Thinking on Chinese Agriculture -- Chapter 3. State-Led Changes: Failures and Successes -- Chapter 4: Trend's in China's Grain Production -- Chapter 5: Agricultural Transition in Taiwan: Towards a Comparative Study with Mainland China -- Chapter 6: Agricultural Transition in Selected Asian Countries -- Chapter 7. Conclusion. |
Record Nr. | UNINA-9910299653703321 |
Du Jun | ||
Cham : , : Springer International Publishing : , : Imprint : Palgrave Macmillan, , 2018 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Cooperation and integration in 6G heterogeneous networks : resource allocation and networking / / Jun Du and Chunxiao Jiang |
Autore | Du Jun |
Pubbl/distr/stampa | Singapore : , : Springer, , [2022] |
Descrizione fisica | 1 online resource (461 pages) |
Disciplina | 004.11 |
Collana | Wireless Networks |
Soggetto topico |
Heterogeneous computing
Wireless communication systems - Automatic control |
ISBN | 981-19-7648-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Intro -- Foreword -- Contents -- About the Authors -- Part I Introduction -- 1 Introduction of 6G Heterogeneous Networks -- 1.1 Heterogeneous Architecture of 6G Networks -- 1.2 Challenges of Heterogeneous Resource Allocation -- 1.2.1 Heterogeneous Resource Modeling and Performance Evaluation -- 1.2.2 Task Adaptation and Resource Efficiency -- 1.2.3 Interference Control and Secure Communications -- 1.3 Mathematic Tools for Resource Allocation -- 1.3.1 Information Economics Theory -- 1.3.2 Machine Learning and Artificial Intelligence -- References -- Part II Cooperative Transmission in Heterogeneous Networks -- 2 Introduction of Cooperative Transmission in Heterogeneous Networks -- 3 Traffic Offloading in Heterogeneous Networks -- 3.1 Introduction -- 3.2 Architecture of SDWN -- 3.3 Contract Formulation for Traffic Offloading -- 3.3.1 Transmission Model Formulation -- 3.3.2 Economic Models Formulation -- 3.4 Contract Design for Traffic Offloading -- 3.4.1 Contract Design with Information Asymmetry -- 3.4.1.1 Individual Rationality (IR) -- 3.4.1.2 Incentive Compatibility (IC) -- 3.4.2 Contract Design Without Information Asymmetry -- 3.4.3 Contract Design by Linear Pricing -- 3.5 Conditions for Contract Feasibility -- 3.6 Simulation Results -- 3.7 Conclusion -- References -- 4 Cooperative Resource Allocation in Heterogeneous Space-Based Networks -- 4.1 Introduction -- 4.2 Related Works -- 4.3 System Model -- 4.3.1 ON/OFF Model -- 4.3.1.1 ISL Connection Status -- 4.3.1.2 Satellite-Ground Station Link Connection Status -- 4.3.2 Physical Channel Model -- 4.4 Cooperative Resource Allocation Protocol -- 4.4.1 GEO Relay -- 4.4.2 LEO Relay -- 4.5 Stability Analysis -- 4.5.1 GEO Relay -- 4.5.2 LEO Relay -- 4.5.3 Multiple Users Case -- 4.6 Simulation Results -- 4.7 Conclusion -- 4.8 Proof of Lemma 4.1 -- 4.9 Proof of Lemma 4.2 -- References.
Part III Cooperative Transmission in IntegratedSatellite-Terrestrial Networks -- 5 Introduction of Cooperative Transmission in Integrated Satellite-Terrestrial Networks -- 6 Traffic Offloading in Satellite-Terrestrial Networks -- 6.1 Introduction -- 6.2 Related Works -- 6.3 Architecture of SDN -- 6.3.1 Service Plane -- 6.3.2 Control Plane -- 6.3.2.1 Information Collection -- 6.3.2.2 Strategy Distribution -- 6.3.3 Management Plane -- 6.4 System Model of Traffic Offloading in H-STN -- 6.4.1 Fully-Loaded Transmission -- 6.4.2 Satellite's Transmission Rate Through Each Channel -- 6.4.2.1 Transmission Rates Under Interference -- 6.4.2.2 Transmission Rates Under Non-Interference -- 6.4.3 BSs' Cooperative and Competitive Modes -- 6.4.3.1 Cooperative Mode -- 6.4.3.2 Competitive Mode -- 6.5 Second-Price Auction Based Traffic Offloading Mechanism Design -- 6.5.1 Second-Price Auction -- 6.5.2 Auction Operation -- 6.5.3 Outcomes of Auction-Based Traffic Offloading -- 6.6 Satellite's Equilibrium Bidding Strategies -- 6.6.1 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript min Baseline comma mu Subscript max Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr( μmin,μmax ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.6.2 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript max Baseline comma left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr ( μmax, (1+1-βN)μmax)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark. 6.6.3 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline comma plus normal infinity right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr[ ( 1+1-βN )μmax,+∞)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.6.4 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket 0 comma mu Subscript min Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr[ 0,μmin ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.7 Expected Utility Analysis for MNO -- 6.7.1 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript min Baseline comma mu Subscript max Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr( μmin,μmax ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.7.2 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript max Baseline comma left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr ( μmax, (1+1-βN)μmax)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark. 6.7.3 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline comma plus normal infinity right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr[ ( 1+1-βN )μmax,+∞)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.7.4 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket 0 comma mu Subscript min Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr[ 0,μmin ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.8 Simulation Results -- 6.8.1 Beam Group's Strategy of the Satellite -- 6.8.2 Expected Utility of the MNO -- 6.9 Conclusion -- 6.10 Proof of Lemma 6.1 -- 6.11 Proof of Theorem 6.1 -- 6.11.1 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline element of left bracket upper R Subscript thr Baseline comma mu Subscript max Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkμn[ Rthr,μmax ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.1.1 Case 1 -- 6.11.1.2 Case 2 -- 6.11.2 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline element of left parenthesis ModifyingAbove mu With tilde Subscript a Baseline left parenthesis upper R Subscript thr Baseline right parenthesis comma upper R Subscript thr Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkμn( μ̃a( Rthr ),Rthr )ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark. 6.11.2.1 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr) /StPNE pdfmark [/StBMC pdfmarkRthrps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark vs ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (empty set) /StPNE pdfmark [/StBMC pdfmarkps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.2.2 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr) /StPNE pdfmark [/StBMC pdfmarkRthrps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark vs ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (ModifyingAbove mu With caret element of left bracket upper R Subscript thr Baseline comma plus normal infinity right parenthesis) /StPNE pdfmark [/StBMC pdfmark[ Rthr,+∞)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.3 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline equals ModifyingAbove mu With tilde Subscript a Baseline left parenthesis upper R Subscript thr Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkμn=μ̃a( Rthr )ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.4 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline element of left bracket mu Subscript min Baseline comma ModifyingAbove mu With tilde Subscript a Baseline left parenthesis upper R Subscript thr Baseline right parenthesis right parenthesis) /StPNE pdfmark [/StBMC pdfmarkμn[ μmin,μ̃a( Rthr ) )ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.12 Proof of Theorem 6.3 -- References -- 7 Cooperative Beamforming for Secure Satellite-Terrestrial Transmission -- 7.1 Introduction -- 7.2 Related Works -- 7.2.1 Satellite Terrestrial Networks -- 7.2.2 Physical Layer Security -- 7.3 System Model -- 7.3.1 Channel Model -- 7.3.2 Received Signal Model -- 7.3.3 Signal-to-Interference Plus Noise Ratio -- 7.3.4 Achievable Secrecy Rate. 7.4 Secure Transmission Beamforming Schemes for Satellite Terrestrial Networks. |
Record Nr. | UNISA-996546843403316 |
Du Jun | ||
Singapore : , : Springer, , [2022] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. di Salerno | ||
|
Cooperation and integration in 6G heterogeneous networks : resource allocation and networking / / Jun Du and Chunxiao Jiang |
Autore | Du Jun |
Pubbl/distr/stampa | Singapore : , : Springer, , [2022] |
Descrizione fisica | 1 online resource (461 pages) |
Disciplina | 004.11 |
Collana | Wireless Networks |
Soggetto topico |
Heterogeneous computing
Wireless communication systems - Automatic control |
ISBN | 981-19-7648-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Intro -- Foreword -- Contents -- About the Authors -- Part I Introduction -- 1 Introduction of 6G Heterogeneous Networks -- 1.1 Heterogeneous Architecture of 6G Networks -- 1.2 Challenges of Heterogeneous Resource Allocation -- 1.2.1 Heterogeneous Resource Modeling and Performance Evaluation -- 1.2.2 Task Adaptation and Resource Efficiency -- 1.2.3 Interference Control and Secure Communications -- 1.3 Mathematic Tools for Resource Allocation -- 1.3.1 Information Economics Theory -- 1.3.2 Machine Learning and Artificial Intelligence -- References -- Part II Cooperative Transmission in Heterogeneous Networks -- 2 Introduction of Cooperative Transmission in Heterogeneous Networks -- 3 Traffic Offloading in Heterogeneous Networks -- 3.1 Introduction -- 3.2 Architecture of SDWN -- 3.3 Contract Formulation for Traffic Offloading -- 3.3.1 Transmission Model Formulation -- 3.3.2 Economic Models Formulation -- 3.4 Contract Design for Traffic Offloading -- 3.4.1 Contract Design with Information Asymmetry -- 3.4.1.1 Individual Rationality (IR) -- 3.4.1.2 Incentive Compatibility (IC) -- 3.4.2 Contract Design Without Information Asymmetry -- 3.4.3 Contract Design by Linear Pricing -- 3.5 Conditions for Contract Feasibility -- 3.6 Simulation Results -- 3.7 Conclusion -- References -- 4 Cooperative Resource Allocation in Heterogeneous Space-Based Networks -- 4.1 Introduction -- 4.2 Related Works -- 4.3 System Model -- 4.3.1 ON/OFF Model -- 4.3.1.1 ISL Connection Status -- 4.3.1.2 Satellite-Ground Station Link Connection Status -- 4.3.2 Physical Channel Model -- 4.4 Cooperative Resource Allocation Protocol -- 4.4.1 GEO Relay -- 4.4.2 LEO Relay -- 4.5 Stability Analysis -- 4.5.1 GEO Relay -- 4.5.2 LEO Relay -- 4.5.3 Multiple Users Case -- 4.6 Simulation Results -- 4.7 Conclusion -- 4.8 Proof of Lemma 4.1 -- 4.9 Proof of Lemma 4.2 -- References.
Part III Cooperative Transmission in IntegratedSatellite-Terrestrial Networks -- 5 Introduction of Cooperative Transmission in Integrated Satellite-Terrestrial Networks -- 6 Traffic Offloading in Satellite-Terrestrial Networks -- 6.1 Introduction -- 6.2 Related Works -- 6.3 Architecture of SDN -- 6.3.1 Service Plane -- 6.3.2 Control Plane -- 6.3.2.1 Information Collection -- 6.3.2.2 Strategy Distribution -- 6.3.3 Management Plane -- 6.4 System Model of Traffic Offloading in H-STN -- 6.4.1 Fully-Loaded Transmission -- 6.4.2 Satellite's Transmission Rate Through Each Channel -- 6.4.2.1 Transmission Rates Under Interference -- 6.4.2.2 Transmission Rates Under Non-Interference -- 6.4.3 BSs' Cooperative and Competitive Modes -- 6.4.3.1 Cooperative Mode -- 6.4.3.2 Competitive Mode -- 6.5 Second-Price Auction Based Traffic Offloading Mechanism Design -- 6.5.1 Second-Price Auction -- 6.5.2 Auction Operation -- 6.5.3 Outcomes of Auction-Based Traffic Offloading -- 6.6 Satellite's Equilibrium Bidding Strategies -- 6.6.1 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript min Baseline comma mu Subscript max Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr( μmin,μmax ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.6.2 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript max Baseline comma left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr ( μmax, (1+1-βN)μmax)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark. 6.6.3 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline comma plus normal infinity right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr[ ( 1+1-βN )μmax,+∞)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.6.4 Bidding Strategy for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket 0 comma mu Subscript min Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr[ 0,μmin ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.7 Expected Utility Analysis for MNO -- 6.7.1 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript min Baseline comma mu Subscript max Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr( μmin,μmax ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.7.2 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left parenthesis mu Subscript max Baseline comma left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr ( μmax, (1+1-βN)μmax)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark. 6.7.3 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket left parenthesis 1 plus StartFraction 1 minus beta Over upper N EndFraction right parenthesis mu Subscript max Baseline comma plus normal infinity right parenthesis) /StPNE pdfmark [/StBMC pdfmarkRthr[ ( 1+1-βN )μmax,+∞)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.7.4 Utility Analysis for ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr Baseline element of left bracket 0 comma mu Subscript min Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkRthr[ 0,μmin ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.8 Simulation Results -- 6.8.1 Beam Group's Strategy of the Satellite -- 6.8.2 Expected Utility of the MNO -- 6.9 Conclusion -- 6.10 Proof of Lemma 6.1 -- 6.11 Proof of Theorem 6.1 -- 6.11.1 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline element of left bracket upper R Subscript thr Baseline comma mu Subscript max Baseline right bracket) /StPNE pdfmark [/StBMC pdfmarkμn[ Rthr,μmax ]ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.1.1 Case 1 -- 6.11.1.2 Case 2 -- 6.11.2 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline element of left parenthesis ModifyingAbove mu With tilde Subscript a Baseline left parenthesis upper R Subscript thr Baseline right parenthesis comma upper R Subscript thr Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkμn( μ̃a( Rthr ),Rthr )ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark. 6.11.2.1 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr) /StPNE pdfmark [/StBMC pdfmarkRthrps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark vs ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (empty set) /StPNE pdfmark [/StBMC pdfmarkps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.2.2 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (upper R Subscript thr) /StPNE pdfmark [/StBMC pdfmarkRthrps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark vs ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (ModifyingAbove mu With caret element of left bracket upper R Subscript thr Baseline comma plus normal infinity right parenthesis) /StPNE pdfmark [/StBMC pdfmark[ Rthr,+∞)ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.3 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline equals ModifyingAbove mu With tilde Subscript a Baseline left parenthesis upper R Subscript thr Baseline right parenthesis) /StPNE pdfmark [/StBMC pdfmarkμn=μ̃a( Rthr )ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.11.4 ps: [/EMC pdfmark [/objdef Equ /Subtype /Span /ActualText (mu Subscript n Baseline element of left bracket mu Subscript min Baseline comma ModifyingAbove mu With tilde Subscript a Baseline left parenthesis upper R Subscript thr Baseline right parenthesis right parenthesis) /StPNE pdfmark [/StBMC pdfmarkμn[ μmin,μ̃a( Rthr ) )ps: [/EMC pdfmark [/StPop pdfmark [/StBMC pdfmark -- 6.12 Proof of Theorem 6.3 -- References -- 7 Cooperative Beamforming for Secure Satellite-Terrestrial Transmission -- 7.1 Introduction -- 7.2 Related Works -- 7.2.1 Satellite Terrestrial Networks -- 7.2.2 Physical Layer Security -- 7.3 System Model -- 7.3.1 Channel Model -- 7.3.2 Received Signal Model -- 7.3.3 Signal-to-Interference Plus Noise Ratio -- 7.3.4 Achievable Secrecy Rate. 7.4 Secure Transmission Beamforming Schemes for Satellite Terrestrial Networks. |
Record Nr. | UNINA-9910634042403321 |
Du Jun | ||
Singapore : , : Springer, , [2022] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|