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Full Description
To realise the 6G vision of hyper-human connectivity where numerous IoT applications are envisaged for smart cities, smart factories, smart homes, smart e-health etc, future IoT systems will require a large number of devices and multi-access environments where different types of wireless spectrum - including Sub-6 GHz, millimetre-wave and Terahertz technologies- need to be efficiently utilized. However, this increases the challenge of keeping a net zero emission carbon rate in line with the goals of COP26. Design and Analysis of Green and Sustainable IoT Technologies for Future Wireless Communication presents a wide range of technologies for the development of greener and sustainable IoT. It brings together a multidisciplinary team of researchers in academia and industry - from wireless communications, signal processing, and antenna design - to present the latest techniques to designing energy efficient IoT devices, laying the foundation for future advances in this important area
Contents
1. Introduction to Green IoT Devices
2. Rate Optimization Using Low Complex Methods with Reconfigurable Intelligent Surfaces for Green IoT Networks
3. Hardware Design Challenges for Green IoT Devices
4. Optimization Design in RIS-assisted Integrated Satellite-UAV-Served 6G IoT: A Deep Reinforcement Learning Approach
5. Multi-Objective Optimization for 3D Placement and Resource Allocation in OFDMA-based Multi-UAV Networks
6. 6G driven Vehicular Tracking in Smart Cities using Intelligent Reflecting Surfaces
7. Energy-Efficient RIS-Enabled NOMA Communication for 6G LEO Satellite Networks
8. Optimizing Resource Utilization using Vector Databases in Green Internet of Things
9. Performance Analysis of STAR-RIS Enhanced CoMP-NOMA Multi-Cell Networks
10. Road Ahead for Green IoT Technologies
