Topic outline

  • Advanced Wireless Communication Systems (ETE 6123)


    The "Advanced Wireless Communication Systems" course is designed to provide the students with in-depth knowledge of modern high-speed wireless communication systems. This course has two main components: wireless data communications, and fixed & wireless modern high-speed and multi-service Telecommunication networks. This course is also emphasized on developing essential industrial and commercial skills of the students to enhance their professional development in the rapidly expanding field of wireless communications. This knowledge will help them to apply in their higher studies and professional fields

    Meet Your Instructor:


    Md. Taslim Arefin is currently a PhD researcher at Jahangirnagar University in the department of computer Science and Engineering. Mr. Arefin received his MSc. Degree in Electrical Engineering from Blekinge Institute of Technology, Sweden in 2008. He received his BSc. Degree in Computer Engineering from American International University- Bangladesh (AIUB) in 2005. He started his teaching career in 2006 as lecturer and now he is holding the post of Associate Professor and Head at Daffodil International University in the department of Electronics & Telecommunication Engineering. Mr. Arefin authored 40 referred journal/conference papers in National and International arena. He has supervised more than 80 B.Sc. / M.Sc. theses at Daffodil International University during the past years.

    Contacts:

    Email: arefin@diu.edu.bd

    Cell: 01711227391, 01713493075

  • Course Information


    Course Objectives:

    • To develop profound knowledge in Advanced wireless communication networks.
    • To acquire knowledge about modern wireless communication standards.
    • To improve communication skill through presentation.
    • To develop leadership quality through Group work.
    • To build up decision-making ability through assignment.
    • To expand confidence by doing various practical problems.
    • To become efficient by solving real-life problems through case studies.

    Course Instructions:

    • There will be 3 credit hours teaching per week. Three classes will be taken 60 minutes each.  
    • DIU Moodle will be the only online teaching platform beside regular classes.
    • Every student must join DIU Moodle.
    • All assignments need to be submitted on Moodle. 
    • 5 CT will be taken. Best 3 will be considered. 
    • Bonus marking depends on 3 parameters such as Class Attendance, class participation and interaction in Moodle. 
    • Students must follow the course outline. 

    Class Routine:

    Friday & Saturday : TBA

    Join Class at Google Meet : https://meet.google.com/zcw-psue-ahz


    • Lecture Module # 1 : Mobile IP

      Objectives of this lecture:

      • To teach the students about Mobile IP technology so that they can use the knowledge in their academic and professional career.

                                                


      Lecture Outcomes: 

      At the end of the session students will be able to :

      • Learn the motivation of Mobile IP
      • Describe Mobile IP operation
      • Explain the problems and security issues in Mobile IP

      Lecture Contents:

      • Mobile IP features and impacts
      • Mobility and standard IP routing
      • Why Mobile IP?
      • Mobile IP architecture
      • Mobile IP operation
      • Problems in Mobile IP
      • Security in Mobile IP

    • Lecture Module # 2 : Wireless Ad-hoc Network


      Learning Outcomes: At the end of the session participant will be able to: 

      • Learn about the basics of Wireless Ad-hoc networks.
      • Explain the characteristics and applications of Ad-hoc networks.
      • Illustrate different routing protocols of wireless Ad-hoc networks. 

      Lecture Contents:

      • The motivation of  Ad-hoc Network
      • Ad-hoc Network applications
      • MANET, VANET, inVANET
      • Routing in Ad-Hoc networks
      • Table-driven, On-demand routing
      • DSDV, CGSR, DSR, AODV routing protocols.

    • Class Test # 1

      Date: 04.3.2022

      Time: 03:00 pm
      Syllabus: Mobile IP, Wireless Ad-hoc Network


    • Lecture Module #3 : Large Scale Loss


    • Class Test #2

      Date: 25.3.2022

      Time: 3:00 pm
      Syllabus: Propagation Model & Largescale loss



    • Mid Term Examination

      Date: 12.4.2022

      Time: 3:00 pm (BD Time)
      Syllabus: Lecture Module 1,2 & 3.



    • Advanced Switching Techniques


    • Class Test #3

      Date: 14.06.2022

      Time: 8:00 pm
      Syllabus: Advanced Switching techniques (X.25, Frame Relay, ATM)


    • Voice Over Internet Protocol (VOIP)

      Objectives of this lecture:

      • To teach the students about VOIP technology so that they can use the knowledge in their academic and professional career

               
                                       

      Lecture Outcomes:

      At the end of the session participant will be able to :

      • Learn Voice communication concept.
      • Understand the voice transmission alternatives
      • Explain the concept of VOIP

        Lecture Content:

        • Voice network concept
        • Voice digitization
        • Voice transmission alternatives
        • What is VOIP
        • How does VOIP work
        • VOIP Standards (H.323, SIP)

    • CT 4


      Date: 20.07.2021

      Time: 8:00 pm
      Syllabus: VOIP



    • Assignment


      Submission Deadline: 05th August 2022 by 11:59 pm

      • View Make a submission
    • Presentation



      Upload your Course presentation here:
      https://drive.google.com/drive/folders/1hk55uJg3CSjukBoFy20c32jfWFxtkJnZ?usp=sharing
      Submission deadline : August 05, 2022 by 23:59. 

      • Final Examination


        Final Examination Schedule:
        Date: 5th August, 2022
        Time: 08:00 pm - 11:00 pm (BD time)