Wireless Communication Networks Supported by Autonomous UAVs and Mobile Ground Robots covers wireless sensor networks and cellular networks. For wireless sensor networks, the book presents approaches using mobile robots or UAVs to collect sensory data from sensor nodes. For cellular networks, it discusses the approaches to using UAVs to work as aerial base stations to serve cellular users. In addition, the book covers the challenges involved in these two networks, existing approaches (e.g., how to use the public transportation vehicles to play the role of mobile sinks to collect sensory data…mehr
Wireless Communication Networks Supported by Autonomous UAVs and Mobile Ground Robots covers wireless sensor networks and cellular networks. For wireless sensor networks, the book presents approaches using mobile robots or UAVs to collect sensory data from sensor nodes. For cellular networks, it discusses the approaches to using UAVs to work as aerial base stations to serve cellular users. In addition, the book covers the challenges involved in these two networks, existing approaches (e.g., how to use the public transportation vehicles to play the role of mobile sinks to collect sensory data from sensor nodes), and potential methods to address open questions.
Dr. Hailong Huang received a B.Sc. degree in automation, from China University of Petroleum, Beijing, China, in June 2012, and received Ph.D degree in Systems and Control from the University of New South Wales, Sydney, Australia, in March 2018. From Feb. 2018 to July 2021, he worked as a postdoctoral research fellow at the School of Electrical Engineering and Telecommunications, University of New South Wales, Sydney, Australia. He is now an assistant professor at the Department of Aeronautical and Aviation Engineering, the Hong Kong Polytechnic University. His current research interests include the coordination, navigation and control of ground robots and unmanned aerial vehicles.
Inhaltsangabe
1. Introduction 2. Survey of approaches for wireless communication networks supported by ground robots 3. Wireless communication networks supported by autonomous UAVs: A survey 4. Data collection in wireless sensor networks by ground robots with full freedom 5. Data collection in wireless sensor networks by ground robots with fixed trajectories 6. Energy-efficient path planning of a solar-powered UAV for secure communication in the presence of eavesdroppers and no-fly zones 7. Multiobjective path planning of a solar-powered UAV for secure communication in urban environments with eavesdropping avoidance 8. Reactive deployment of UAV base stations for providing wireless communication services 9. Optimized deployment of UAV base stations for providing wireless communication service in urban environments 10. Energy-efficient path planning of solar-powered UAVs for communicating with mobile ground users in urban environments
1. Introduction 2. Survey of approaches for wireless communication networks supported by ground robots 3. Wireless communication networks supported by autonomous UAVs: A survey 4. Data collection in wireless sensor networks by ground robots with full freedom 5. Data collection in wireless sensor networks by ground robots with fixed trajectories 6. Energy-efficient path planning of a solar-powered UAV for secure communication in the presence of eavesdroppers and no-fly zones 7. Multiobjective path planning of a solar-powered UAV for secure communication in urban environments with eavesdropping avoidance 8. Reactive deployment of UAV base stations for providing wireless communication services 9. Optimized deployment of UAV base stations for providing wireless communication service in urban environments 10. Energy-efficient path planning of solar-powered UAVs for communicating with mobile ground users in urban environments
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