@article{1484300,
      note = {4.2.4 Performance Evaluation},
      author = {Wu, Qingqing and Guan, Xinrong. and Hua, Meng.},
      url = {http://library.usi.edu/record/1484300},
      title = {Intelligent reflecting surface for B5G/6G wireless  networks : information and power transmission /},
      publisher = {Springer,},
      abstract = {This book provides comprehensive insights into the theory,  models, and unique characteristics of intelligent  reflecting surface (IRS) and its appealing applications in  wireless information and power transmission for B5G/6G. It  is organized as follows: Chapter 1 gives an overview of the  fundamentals of IRS, including the signal and channel  models of IRS, its hardware architecture, advantages and  practical constraints. Chapter 2, 3 and 4 focus on how to  optimize the joint design of active and passive beamforming  for three types of IRS-aided wireless information/energy  transmission systems, namely IRS-aided power transfer  (WPT), IRS-aided simultaneous wireless information and  power transfer (SWIPT) and IRS-aided wireless powered  communication networks (WPCN). Chapter 2 specifically  presents a general framework design for IRS-aided WPT  systems from the perspectives of energy beamforming design  and channel estimation, while the dynamic IRS beamforming  design is also discussed. Chapter 3 thoroughly studies the  IRS-aided SWIPT for achieving better R-E trade-off, wherein  two different designs based on weighted sum-power  maximization at energy users (EUs) and under individual  quality-of-service (QoS), requirements at both information  users (IUs) and EUs are investigated. Chapter 4 presents  three paradigms of IRS-aided WPCN, i.e., IRS-aided  half-duplex (HD) WPCN, IRS-aided full-duplex (FD) WCPN and  IRS-aided multiple-input-multiple-output (MIMO) FD WPCN.  The authors present some related emerging topics, e.g.,  active IRS aided wireless communications and IRS-aided  unmanned aerial vehicle (UAV) communications in chapter 5.  This book targets postgraduate students studying electrical  engineering and computer science, and can be used as a  secondary textbook. Professionals, researchers and  engineers working in wireless networks will also find this  book useful as a reference.},
      doi = {https://doi.org/10.1007/978-3-031-44172-1},
      recid = {1484300},
      pages = {1 online resource (188 p.).},
      address = {Cham :},
      year = {2023},
}