Propagation Modeling for Wireless Communications
Propagation Modeling for Wireless Communications
Dey, Indrakshi
Taylor & Francis Ltd
05/2022
236
Dura
Inglês
9781032080796
15 a 20 dias
494
Descrição não disponível.
Part 1. Introduction. 1. Introduction. Part 2. Wave-based Propagation. 2. Radiowave Propagation. 3. Acoustic Wave Propagation. 4. Mageto-Inductive Propagation. 5. Optical Wave Propagation. Part 3. Particle-based Propagation. 6. Molecular Communication. 7. Quantum Field Propagation. Part 4. Conclusion. 8. The Future.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
molecular diffusion;particles;quantum fields;waves;IoT and Industrial IoT;Particle Propagation;Joint Channel-Signal Models;Turbulent Diffusion;Transmitter Models;Photonic Channel;5G/6G/7G of communication systems;communication networks;integrated wireless network;Industrial IoT;Cir;Path Loss;Vice Versa;Underwater Sensor Networks;Ann Model;Quantum Channels;Quantum Light;Information Particles;Receiver Aperture;Eikonal Equation;Underground Scenarios;Quantum Communication;Downlink Channel;Underwater Acoustic;Wireless Communication System;Channel Sounder;Optical Wave;Environmental Design Parameters;Local Oscillator;RC;Large Scale Turbulent Eddies;Quantum Field;Drill String;VL Communication
Part 1. Introduction. 1. Introduction. Part 2. Wave-based Propagation. 2. Radiowave Propagation. 3. Acoustic Wave Propagation. 4. Mageto-Inductive Propagation. 5. Optical Wave Propagation. Part 3. Particle-based Propagation. 6. Molecular Communication. 7. Quantum Field Propagation. Part 4. Conclusion. 8. The Future.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
molecular diffusion;particles;quantum fields;waves;IoT and Industrial IoT;Particle Propagation;Joint Channel-Signal Models;Turbulent Diffusion;Transmitter Models;Photonic Channel;5G/6G/7G of communication systems;communication networks;integrated wireless network;Industrial IoT;Cir;Path Loss;Vice Versa;Underwater Sensor Networks;Ann Model;Quantum Channels;Quantum Light;Information Particles;Receiver Aperture;Eikonal Equation;Underground Scenarios;Quantum Communication;Downlink Channel;Underwater Acoustic;Wireless Communication System;Channel Sounder;Optical Wave;Environmental Design Parameters;Local Oscillator;RC;Large Scale Turbulent Eddies;Quantum Field;Drill String;VL Communication