Propagation Channel Characterization, Parameter Estimation, and Modeling for Wireless Communications

A comprehensive reference giving a thorough explanation of propagation mechanisms, channel characteristics results, measurement approaches and the modelling of channels

Thoroughly covering channel characteristics and parameters, this book provides the knowledge needed to design various wireless systems, such as cellular communication systems, RFID and ad hoc wireless communication systems. It gives a detailed introduction to aspects of channels before presenting the novel estimation and modelling techniques which can be used to achieve accurate models.  

To systematically guide readers through the topic, the book is organised in three distinct parts. The first part covers the fundamentals of the characterization of propagation channels, including the conventional single-input single-output (SISO) propagation channel characterization as well as its extension to multiple-input multiple-output (MIMO) cases. Part two focuses on channel measurements and channel data post-processing. Wideband channel measurements are introduced, including the equipment, technology and advantages and disadvantages of different data acquisition schemes. The channel parameter estimation methods are then presented, which include conventional spectral-based estimation, the specular-path-model based high-resolution method, and the newly derived power spectrum estimation methods. Measurement results are used to compare the performance of the different estimation methods. The third part gives a complete introduction to different modelling approaches. Among them, both scattering theoretical channel modelling and measurement-based channel modelling approaches are detailed. This part also approaches how to utilize these two modelling approaches to investigate wireless channels for conventional cellular systems and some new emerging communication systems.  This three-part approach means the book caters for the requirements of the audiences at different levels, including readers needing introductory knowledge, engineers who are looking for more advanced understanding, and expert researchers in wireless system design as a reference.

  • Presents technical explanations, illustrated with examples of the theory in practice
  • Discusses results applied to 4G communication systems and other emerging communication systems, such as relay, CoMP, and vehicle-to-vehicle rapid time-variant channels
  • Can be used as comprehensive tutorial for students or a complete reference for engineers in industry
  • Includes selected illustrations in color
  • Program downloads available for readers
  • Companion website with program downloads for readers and presentation slides and solution manual for instructors

Essential reading for Graduate students and researchers interested in the characteristics of propagation channel, or who work in areas related to physical layer architectures, air interfaces, navigation, and wireless sensing



Xuefeng Yin, Tongji University, China
Xuefeng Yin is an Associate Professor in the Department of Electronics at Tongji University in Shanghai ,China. Previously, Yin worked for five years as a System Engineering with Motorola Infrastructure Company in Hangzhou, China, and as Assistant Professor at Aalborg University (AAU) in Denmark. During his time at AAU, he developed the SAGE algorithm with Bernard Henri Fleury. He holds a B.S. in Optoelectronics from Huazhong University of Science and Technology, Wuhan, China, and M.S. and Ph.D. degrees in wireless communications from Aalborg University.

Xiang Cheng, Peking University, China
Xiang Cheng is an Assistant Professor with the Institute of Modern Communications within the School of Electronics Engineering and Computing Sciences at Peking University. Previously, he held a joint appointment as Postdoc Research Associate at the University of Edinburgh and Heriot-Watt University,  where he was awarded a Postgraduate Research Prize and a PhD Thesis Prize  for academic excellence and outstanding performance. He holds BSc and MEng degrees in communication and information systems from Shandong University, China, and a joint Ph.D. degree from Heriot-Watt University and the University of Edinburgh.

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