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8 - Dispersion Characteristics

Published online by Cambridge University Press:  18 August 2022

Theodore S. Rappaport
Affiliation:
New York University
Kate A. Remley
Affiliation:
National Institute of Standards and Technology, Maryland
Camillo Gentile
Affiliation:
National Institute of Standards and Technology, Maryland
Andreas F. Molisch
Affiliation:
University of Southern California
Alenka Zajić
Affiliation:
Georgia Institute of Technology
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Summary

When designing a wireless communication system, it is essential to have a channel model that can quickly and accurately generate channel impulse response needed for system simulations. Deterministic models such as ray-tracing offer an accurate model of the propagation environment, but their high computational complexity prohibits the intensive link or system-level simulations required during system design. Hence, models with lower computational complexity that could emulate a large class of radio-propagation environments are preferred. These requirements have led to stochastic channel models, which are often classified into geometry-based stochastic models (GSCMs) and nongeometrical stochastic models. In this chapter we focus on the GSCM models.

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Chapter

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  • Dispersion Characteristics
  • Edited by Theodore S. Rappaport, New York University, Kate A. Remley, National Institute of Standards and Technology, Maryland, Camillo Gentile, National Institute of Standards and Technology, Maryland, Andreas F. Molisch, University of Southern California, Alenka Zajić, Georgia Institute of Technology
  • Book: Radio Propagation Measurements and Channel Modeling: Best Practices for Millimeter-Wave and Sub-Terahertz Frequencies
  • Online publication: 18 August 2022
  • Chapter DOI: https://doi.org/10.1017/9781009122740.009
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  • Dispersion Characteristics
  • Edited by Theodore S. Rappaport, New York University, Kate A. Remley, National Institute of Standards and Technology, Maryland, Camillo Gentile, National Institute of Standards and Technology, Maryland, Andreas F. Molisch, University of Southern California, Alenka Zajić, Georgia Institute of Technology
  • Book: Radio Propagation Measurements and Channel Modeling: Best Practices for Millimeter-Wave and Sub-Terahertz Frequencies
  • Online publication: 18 August 2022
  • Chapter DOI: https://doi.org/10.1017/9781009122740.009
Available formats
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Save book to Google Drive

To save content items to your account, please confirm that you agree to abide by our usage policies. If this is the first time you use this feature, you will be asked to authorise Cambridge Core to connect with your account. Find out more about saving content to Google Drive.

  • Dispersion Characteristics
  • Edited by Theodore S. Rappaport, New York University, Kate A. Remley, National Institute of Standards and Technology, Maryland, Camillo Gentile, National Institute of Standards and Technology, Maryland, Andreas F. Molisch, University of Southern California, Alenka Zajić, Georgia Institute of Technology
  • Book: Radio Propagation Measurements and Channel Modeling: Best Practices for Millimeter-Wave and Sub-Terahertz Frequencies
  • Online publication: 18 August 2022
  • Chapter DOI: https://doi.org/10.1017/9781009122740.009
Available formats
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