Mobile and Wireless Communications with Practical Use-Case Scenarios
portes grátis
Mobile and Wireless Communications with Practical Use-Case Scenarios
Trestian, Ramona
Taylor & Francis Ltd
12/2022
326
Dura
Inglês
9781032119014
15 a 20 dias
798
Descrição não disponível.
I. Fundamental Aspects of Signals, Analogue and Digital Communication Systems. 1. The Wireless Vision. 1.1 Introduction to wireless communication - evolution and history. 1.2 Applications and Technical Challenges. 1.3 A simplified network model. 2. Wireless Transmission Fundamentals. 2.1 Spectrum and frequencies. 2.2 Signals for conveying information. 2.3 Antennas. 2.4 Multiplexing and modulation. 2.5 Spread Spectrum. 2.6 Medium Access Mechanisms. 2.7 Practical Use-Case Scenario: Antennas using Altair WinProp. 3. Radio Propagation. 3.1 Introduction to Signal Propagation. 3.2 Multi-Path Propagation. 3.3 Fresnel Zone. 3.4 Path Loss and Path Loss Models. 3.5 Free Space Propagation Model. 3.6 Two Ray Ground Model. 3.7 Okumura Model. 3.8 Okumura-Hata Model. 3.9 COST 231 Walfisch Ikegami. 3.10 Intelligent Ray Tracing. 3.11 Dominant Path Model. 3.12 Practical Use-Case Scenario: Radio Propagation using Altair WinProp. 3.13 Practical Use-Case Scenario: Rural/Suburban Study using Altair WinProp.
II. Evolution of Mobile and Wireless Systems. 4 The Cellular Concept and Evolution. 4.1 Cellular Systems Fundamentals. 4.2 Traffic Engineering in Cellular Systems - Problem Solving. 4.3 Mobility Management and Handover. 4.4 Evolution from 1G to 5G and Beyond. 4.5 Practical Use-Case Scenario: Network Planning for urban scenarios using LTE with Altair WinProp. 4.6 Practical Use-Case Scenario: 5G Network Planning with Altair WinProp. 5. Satellite Communications. 5.1 The Future of Satellite Communications. 5.2 Satellite Basics. 5.3 Applications of Satellites. 5.4 Routing and Localization. 5.5 Practical Use-Case Scenario: Satellite Communications using Altair WinProp. 6. Wireless Evolution. 6.1 Wireless Technologies Evolution. 6.2 Mobile Ad-Hoc Networks. 6.3 Vehicular Networks. 6.4 Millimeter Wave Multi Gigabit Wireless Networks. 6.5 Use-Case Scenarios: Trends in Heterogeneous Environments Integration. 6.6 Practical Use-Case Scenario: Wireless Indoor Communication using Altair WinProp.
III. Paradigms of Intelligent-based Networked Systems. 7. Intelligent Environments and Internet of Things. 7.1 IoT Life-cycle. 7.2 IoT Applications. 7.3 Wireless Access Networks for IoT. 7.4 Introduction to Machine Learning for IoT. 7.5 Digital Twins for Industrial IoT. 7.6 Use-Case Scenario: Technology for Public Health Emergencies. 7.7 Practical Use-Case Scenario: ML for Predictive Maintenance and IoT using Python, Tensorflow, Jupiter. 7.8 Practical Use-Case Scenario: ML for Smart Cities IoT using Python, Tensorflow, Jupiter.
List of Acronyms. Index.
II. Evolution of Mobile and Wireless Systems. 4 The Cellular Concept and Evolution. 4.1 Cellular Systems Fundamentals. 4.2 Traffic Engineering in Cellular Systems - Problem Solving. 4.3 Mobility Management and Handover. 4.4 Evolution from 1G to 5G and Beyond. 4.5 Practical Use-Case Scenario: Network Planning for urban scenarios using LTE with Altair WinProp. 4.6 Practical Use-Case Scenario: 5G Network Planning with Altair WinProp. 5. Satellite Communications. 5.1 The Future of Satellite Communications. 5.2 Satellite Basics. 5.3 Applications of Satellites. 5.4 Routing and Localization. 5.5 Practical Use-Case Scenario: Satellite Communications using Altair WinProp. 6. Wireless Evolution. 6.1 Wireless Technologies Evolution. 6.2 Mobile Ad-Hoc Networks. 6.3 Vehicular Networks. 6.4 Millimeter Wave Multi Gigabit Wireless Networks. 6.5 Use-Case Scenarios: Trends in Heterogeneous Environments Integration. 6.6 Practical Use-Case Scenario: Wireless Indoor Communication using Altair WinProp.
III. Paradigms of Intelligent-based Networked Systems. 7. Intelligent Environments and Internet of Things. 7.1 IoT Life-cycle. 7.2 IoT Applications. 7.3 Wireless Access Networks for IoT. 7.4 Introduction to Machine Learning for IoT. 7.5 Digital Twins for Industrial IoT. 7.6 Use-Case Scenario: Technology for Public Health Emergencies. 7.7 Practical Use-Case Scenario: ML for Predictive Maintenance and IoT using Python, Tensorflow, Jupiter. 7.8 Practical Use-Case Scenario: ML for Smart Cities IoT using Python, Tensorflow, Jupiter.
List of Acronyms. Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Mobile and wireless communications;Multimedia;Smartphones;Network technology;Global heterogenous network;Internet of Things ecosystem;Machine Learning;Digital Twins for IoT-enabled intelligent environments;Altair WinProp Software;Radio Propagation Models;Received Signal Strength;NSL;DTs;QoS Provision;Stringent QoS Requirement;QoS Requirement;Satellite System;Geo Satellite;LEO Satellite;Data Set;Path Loss;Routing Protocol;Geo;Geostationary Satellite;Location Update;Frequency Reuse Factor;Vehicular Networks;Fresnel Zone;Free Space Loss;IP Protocol Suite;GSM Network;IoT Device;Gps Satellite;Fog Computing
I. Fundamental Aspects of Signals, Analogue and Digital Communication Systems. 1. The Wireless Vision. 1.1 Introduction to wireless communication - evolution and history. 1.2 Applications and Technical Challenges. 1.3 A simplified network model. 2. Wireless Transmission Fundamentals. 2.1 Spectrum and frequencies. 2.2 Signals for conveying information. 2.3 Antennas. 2.4 Multiplexing and modulation. 2.5 Spread Spectrum. 2.6 Medium Access Mechanisms. 2.7 Practical Use-Case Scenario: Antennas using Altair WinProp. 3. Radio Propagation. 3.1 Introduction to Signal Propagation. 3.2 Multi-Path Propagation. 3.3 Fresnel Zone. 3.4 Path Loss and Path Loss Models. 3.5 Free Space Propagation Model. 3.6 Two Ray Ground Model. 3.7 Okumura Model. 3.8 Okumura-Hata Model. 3.9 COST 231 Walfisch Ikegami. 3.10 Intelligent Ray Tracing. 3.11 Dominant Path Model. 3.12 Practical Use-Case Scenario: Radio Propagation using Altair WinProp. 3.13 Practical Use-Case Scenario: Rural/Suburban Study using Altair WinProp.
II. Evolution of Mobile and Wireless Systems. 4 The Cellular Concept and Evolution. 4.1 Cellular Systems Fundamentals. 4.2 Traffic Engineering in Cellular Systems - Problem Solving. 4.3 Mobility Management and Handover. 4.4 Evolution from 1G to 5G and Beyond. 4.5 Practical Use-Case Scenario: Network Planning for urban scenarios using LTE with Altair WinProp. 4.6 Practical Use-Case Scenario: 5G Network Planning with Altair WinProp. 5. Satellite Communications. 5.1 The Future of Satellite Communications. 5.2 Satellite Basics. 5.3 Applications of Satellites. 5.4 Routing and Localization. 5.5 Practical Use-Case Scenario: Satellite Communications using Altair WinProp. 6. Wireless Evolution. 6.1 Wireless Technologies Evolution. 6.2 Mobile Ad-Hoc Networks. 6.3 Vehicular Networks. 6.4 Millimeter Wave Multi Gigabit Wireless Networks. 6.5 Use-Case Scenarios: Trends in Heterogeneous Environments Integration. 6.6 Practical Use-Case Scenario: Wireless Indoor Communication using Altair WinProp.
III. Paradigms of Intelligent-based Networked Systems. 7. Intelligent Environments and Internet of Things. 7.1 IoT Life-cycle. 7.2 IoT Applications. 7.3 Wireless Access Networks for IoT. 7.4 Introduction to Machine Learning for IoT. 7.5 Digital Twins for Industrial IoT. 7.6 Use-Case Scenario: Technology for Public Health Emergencies. 7.7 Practical Use-Case Scenario: ML for Predictive Maintenance and IoT using Python, Tensorflow, Jupiter. 7.8 Practical Use-Case Scenario: ML for Smart Cities IoT using Python, Tensorflow, Jupiter.
List of Acronyms. Index.
II. Evolution of Mobile and Wireless Systems. 4 The Cellular Concept and Evolution. 4.1 Cellular Systems Fundamentals. 4.2 Traffic Engineering in Cellular Systems - Problem Solving. 4.3 Mobility Management and Handover. 4.4 Evolution from 1G to 5G and Beyond. 4.5 Practical Use-Case Scenario: Network Planning for urban scenarios using LTE with Altair WinProp. 4.6 Practical Use-Case Scenario: 5G Network Planning with Altair WinProp. 5. Satellite Communications. 5.1 The Future of Satellite Communications. 5.2 Satellite Basics. 5.3 Applications of Satellites. 5.4 Routing and Localization. 5.5 Practical Use-Case Scenario: Satellite Communications using Altair WinProp. 6. Wireless Evolution. 6.1 Wireless Technologies Evolution. 6.2 Mobile Ad-Hoc Networks. 6.3 Vehicular Networks. 6.4 Millimeter Wave Multi Gigabit Wireless Networks. 6.5 Use-Case Scenarios: Trends in Heterogeneous Environments Integration. 6.6 Practical Use-Case Scenario: Wireless Indoor Communication using Altair WinProp.
III. Paradigms of Intelligent-based Networked Systems. 7. Intelligent Environments and Internet of Things. 7.1 IoT Life-cycle. 7.2 IoT Applications. 7.3 Wireless Access Networks for IoT. 7.4 Introduction to Machine Learning for IoT. 7.5 Digital Twins for Industrial IoT. 7.6 Use-Case Scenario: Technology for Public Health Emergencies. 7.7 Practical Use-Case Scenario: ML for Predictive Maintenance and IoT using Python, Tensorflow, Jupiter. 7.8 Practical Use-Case Scenario: ML for Smart Cities IoT using Python, Tensorflow, Jupiter.
List of Acronyms. Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Mobile and wireless communications;Multimedia;Smartphones;Network technology;Global heterogenous network;Internet of Things ecosystem;Machine Learning;Digital Twins for IoT-enabled intelligent environments;Altair WinProp Software;Radio Propagation Models;Received Signal Strength;NSL;DTs;QoS Provision;Stringent QoS Requirement;QoS Requirement;Satellite System;Geo Satellite;LEO Satellite;Data Set;Path Loss;Routing Protocol;Geo;Geostationary Satellite;Location Update;Frequency Reuse Factor;Vehicular Networks;Fresnel Zone;Free Space Loss;IP Protocol Suite;GSM Network;IoT Device;Gps Satellite;Fog Computing