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Mehdi Rasti
  Courses 

 Radio Resources Allocation in Wireless Networks(SPRING_2019)

Aims:

Syllabus:

    Text Book:




     Seminar(SPRING_2019)

    Aims:

    Syllabus:

      Text Book:




       Signals and Systems(SPRING_2019)

      Aims:

      Syllabus:

        Text Book:




         Linear Control Sys.(FALL_2018)

        Aims:

        This course presnts the methods of designing and analyzing linear control systems

        Syllabus:

        • Introduction
        • Mathematical Modeling of Control System
        • Transient and Steady-State Response Analyses
        • Control Systems Analysis and Designby the Root-Locus Method
        • Control Systems Analysis and Design by theFrequency-Response Method
        • Compensator Designing
        • Introduction to Digital Control

        Text Book:

        • K. Ogata, Modern Control Engineering, Prentice Hall, 5rd ed., 2009.
        • R. C. Dorf, R. H. Bishop, Modern control systems, 12th Ed., 2010, Prentice Hall


         Mobile Computing & Wireless Networks(FALL_2018)

        Aims:

        Thus course provides comprehension of the basic principles and topics of fundamental importance concerning the technology and architecture of wireless networks. It provides a detailed discussion of leading- edge topics, including Gigabit Wi- Fi, the Internet of Things, ZigBee, and 4G LTE- Advanced.

        Syllabus:

        • Introduction
        • TECHNICAL BACKGROUND
        • WIRELESS COMMUNICATION TECHNOLOGY
        • WIRELESS LOCAL AND PERSONAL AREA NETWORKS
        • WIRELESS MOBILE NETWORKSAND APPLICATIONS
        • Orthogonal Frequency Division Multiplexing
        • Coding and Error Control

        Text Book:

        • , 2016 ,Cory Beard and William Stallings, Wireless Communication Networks and SystemsPearson
        • W. Stallings, Wireless Communications and Networks, Second Edition, Prentice-Hall, 2005.


         Signals and Systems(FALL_2018)

        Aims:

        This course introduces the methods of description and analysis for continuous-time and discrete-time signals and (linear time-invariant) systems, including time domain analysis using convolution, frequency domain analysis using the Fourier series and the Fourier transform, the Laplace transform and the Z-transform. Students will also learn examples of applications of signal and system analysis methods to communications and control systems.

        Syllabus:

        • Introduction and Preliminary Concepts
        • Linear Time-Invariant Systems
        • Continuous-Time Fourier Series and Transform
        • Applications of Continuous-Time Fourier Transform
        • Discrete-Time Fourier Series and Transform
        • Laplace Transform and Its Properties
        • Z-Transform and Its Properties

        Text Book:

        • Signals and Systems, A.V. Oppenheim, A.S. Willsky, and S.H. Nawab, 2nd Edition, ISBN: 0-13-814757-4


         Linear Control Sys.(SPRING_2018)

        Aims:

        This course presnts the methods of designing and analyzing linear control systems

        Syllabus:

        • Introduction
        • Mathematical Modeling of Control System
        • Transient and Steady-State Response Analyses
        • Control Systems Analysis and Designby the Root-Locus Method
        • Control Systems Analysis and Design by theFrequency-Response Method
        • Compensator Designing
        • Introduction to Digital Control

        Text Book:

        • K. Ogata, Modern Control Engineering, Prentice Hall, 5rd ed., 2009.
        • R. C. Dorf, R. H. Bishop, Modern control systems, 12th Ed., 2010, Prentice Hall


         Signals & Systems(SPRING_2018)

        Aims:

        This course introduces the methods of description and analysis for continuous-time and discrete-time signals and (linear time-invariant) systems, including time domain analysis using convolution, frequency domain analysis using the Fourier series and the Fourier transform, the Laplace transform and the Z-transform. Students will also learn examples of applications of signal and system analysis methods to communications and control systems.

        Syllabus:

        • Signals and Systems
        • Linear Time-Invariant Systems
        • Continuous-Time Fourier Series
        • Continuous-Time FourierTransform
        • Discrete-Time Fourier Series
        • Discrete-Time Fourier Transform
        • Laplace Transform
        • Z Transform
        • Sampling

        Text Book:

        • Signals and Systems, A.V. Oppenheim, A.S. Willsky, and S.H. Nawab, 2nd Edition, ISBN: 0-13-814757-4


         Topics in Mobile & Wireless Networks Advanced(SPRING_2018)

        Aims:

        ٍExplained above

        Syllabus:

        • Basics and Overview of Wireless and Mobile Communications
        • Evolution Towards 5G Wireless Networks
        • Heterogeneous Networks
        • Internet of Things
        • Cognitive Radio Networks
        • Additional Topics (Energy Harvesting, Mobile Cloud Computing, CRAN, Software Defined Networks)

        Text Book:

        • 1. S. Sesia, M. Baker, and I. Toufik, LTE - The UMTS Long Term Evolution: From Theory to Practice, John Wiley & Sons, Ltd, 2009.
        • 2. E. Hossain, M. Rasti, and L. Le, Radio Resource Allocation in Wireless Networks: An Engineering Approach, Cambridge University Press,
        • 3. R. Q., Hu, and Y. Qian, Heterogeneous Cellular Networks, John Wiley & Sons, Ltd, 2013.


         Radio Resources Allocation in Wireless Networks(FALL_2017)

        Aims:

        This course is focused on radio resource allocation in wireless cellular networks. The objective of this course is to introduce graduate students to the different kinds of radio resources, radio resource allocation problems, and their centralized or distributed solutions. In this course, an introduction to the basic concepts of radio resource allocation and a preliminary discussion on how to solve convex optimization are first presented. Then existing centralized or distributed power control alg

        Syllabus:

        • Introduction of Wireless Networks and Radio Resources
        • Categories of Wireless Networks and Taxonomy of Hot Topics Research Areas on Resource Allocation in Wireless Networks
        • Convex Optimization
        • General System Model and Preliminary Concepts
        • Interference Management and Power Control in Wireless Cellular Networks
        • Cell Association in Cellular Networks
        • Application of Game Theory in Physical Layer Resource Allocation in Wireless Networks

        Text Book:

        • Ekram Hossain, Mehdi Rasti, and Long Le, ""Radio Resource Allocation in Wireless Networks: An Engineering Approach, Cambridge University Press, To be published in 2016


         Signals & Systems(FALL_2017)

        Aims:

        This course introduces the methods of description and analysis for continuous-time and discrete-time signals and (linear time-invariant) systems, including time domain analysis using convolution, frequency domain analysis using the Fourier series and the Fourier transform, the Laplace transform and the Z-transform. Students will also learn examples of applications of signal and system analysis methods to communications and control systems.

        Syllabus:

        • Signals and Systems
        • Linear Time-Invariant Systems
        • Continuous-Time Fourier Series
        • Continuous-Time FourierTransform
        • Discrete-Time Fourier Series
        • Discrete-Time Fourier Transform
        • Laplace Transform
        • Z Transform
        • Sampling
        • Introduction and Preliminary Concepts

        Text Book:

        • Signals and Systems, A.V. Oppenheim, A.S. Willsky, and S.H. Nawab, 2nd Edition, ISBN: 0-13-814757-4


         Special Topics (Radio Resources Allocation in Wireless Networks)(FALL_2017)

        Aims:

        This course is focused on radio resource allocation in wireless cellular networks. The objective of this course is to introduce graduate students to the different kinds of radio resources, radio resource allocation problems, and their centralized or distributed solutions. In this course, an introduction to the basic concepts of radio resource allocation and a preliminary discussion on how to solve convex optimization are first presented. Then existing centralized or distributed power control alg

        Syllabus:

        • Basic concepts
        • A Classification of Hot-Topic Research Areas on Radio Resource Allocation in Wireless Networks
        • Convex Optimization
        • Power Control in Wireless Cellular Networks
        • Priority-based Power Control in Femto-Cell Wireless Networks and Cognitive Networks
        • Application of Game theory in wireless networks
        • Resource Allocation in OFDMA Wireless Networks
        • Resource Allocation in Ad hoc Wireless Networks

        Text Book:

        • The class material does not follow (linearly) any particular textbook. However, few parts of following books are followed. This course is mostly based on recently published IEEE transaction papers on radio resource allocation in wireless networks.
        • M. Chiang, P. Hande, and T. Lan, Power Control in Wireless Cellular Networks, Now Publishers Inc, 2008.
        • S.Boyd and L. Vandenberghe, Convex Optimization, MIT Press.
        • E. Hossain, D. Niyato, and Z. Han, Dynamic Spectrum Access and Management in Cognitive Radio Networks, Cambridge University Press, 2009.
        • A collection of Reserach Journal Papers


         
         
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