Placeholder text

Go to cart

Enhanced Energy Transfer Efficiency for lot-Enabled Cyber-Physical Systems in 6g Edge Networks

By Ezekiel Agbon

Enhanced Energy Transfer Efficiency for lot-Enabled Cyber-Physical Systems in 6g Edge Networks Media & Communication

Enhanced Energy Transfer Efficiency for lot-Enabled Cyber-Physical Systems in 6g Edge Networks

0 - Default Title
Description
In the era of 5G and the burgeoning Internet of Things (IoT), the need for energy-efficient communication networks has never been greater. This book explores the cutting-edge technology of Wireless Power Transfer (WPT) in multicell massive MIMO Non-Orthogonal Multiple Access (NOMA) networks, where Base Stations (BSs) not only communicate but also deliver energy to IoT devices. Focusing on a novel modified Energy-Efficient Resource Allocation Scheme (mEE-RAS), the book addresses the critical challenge of Co-Channel Interference (CCI) and demonstrates significant improvements in system Energy Efficiency (EE) through optimized resource allocation. Packed with rigorous simulations and comparative analyses, this work offers invaluable insights for researchers, engineers, and students aiming to enhance the performance and sustainability of next-generation communication networks. In the era of 5G and the burgeoning Internet of Things (IoT), the need for energy-efficient communication networks has never been greater. This book explores the cutting-edge technology of Wireless Power Transfer (WPT) in multicell massive MIMO Non-Orthogonal Multiple Access (NOMA) networks, where Base Stations (BSs) not only communicate but also deliver energy to IoT devices. Focusing on a novel modified Energy-Efficient Resource Allocation Scheme (mEE-RAS), the book addresses the critical challenge of Co-Channel Interference (CCI) and demonstrates significant improvements in system Energy Efficiency (EE) through optimized resource allocation. Packed with rigorous simulations and comparative analyses, this work offers invaluable insights for researchers, engineers, and students aiming to enhance the performance and sustainability of next-generation communication network.
Product details
Binding:
Paperback
Number of Pages:
98
Release Date:
2024-09-09
Publication Date:
2024-07-14
Publisher:
Eliva Press
Languages:
Original: English
ISBN10:
9999318991
ISBN13:
9789999318990
Weight:
156 g
Height:
152 cm
Width:
229 cm
Thickness:
6 cm
Buy on Amazon
Currently sold out