Topic outline

  • General

  • Welcome to Information Security Course



    Basic Information:

    Course Code: CSE 423
    Course Title: Information Security
    Program: B.Sc in Computer Science and Engineering
    Faculty: Science and Information Technology
    Semester: Fall; Year: 2022
    Credit: 3.0; Contact Hour: 2 Hours/ Week
    Course Category: Core Engineering

    Course Instructor:

    Apurba Ghosh
    Lecturer
    Office: Room #745, AB4 Building, Daffodil Smart City
    Email: apurba.cse0416.c@diu.edu.bd

    Counselling Hour: Saturday-Wednesday (09:00AM - 4:00 PM)

                            

     

    Course Rationale:

    Information security — or infosec — is the protection of information by people and organizations in order to keep information safe for themselves, their company, and their clients. Every organization needs protection against cyber-attacks and security threats. Cybercrime and malware are constant threats to anyone with an Internet presence, and data breaches are time-consuming and expensive. The goal of IT security is to protect these assets, devices and services from being disrupted, stolen or exploited by unauthorized users, otherwise known as threat actors.


     

    Course Objectives:

    To provide a solid conceptual understanding of the fundamentals of Information Security. More specifically,

    -To learn basics of information security, in both management aspect and technical aspect.

    -To learn various types of security threats and attacks

    -To learn basics of Security risks and Management process

    -To learn ways to manage, detect and response to incidents and attacks.

    -To learn the benefits of AI and ML in the field of Information Security

    -To learn basics of application of cryptography which are one of the key technology to implement security  functions.                                        

    -To learn the Legal and Ethical issues in information security

    Course Learning Outcomes (CLO's):

    CLO1

    Interpret the components, tools and techniques of Information Security systems

    CLO2

    Analyze various Information security threats, risks and propose controls for it.

    CLO3

    Explain the Ethical issues and Laws in the field of Information Security

     

    Assessment Strategies:


  • Week - 1: Information Security and It’s Elements


    week1

    Discussion Points: 

          • Concept of protocol layering using scenarios.
          • Discussion about the seven layers of the OSI Model.
          • Addressing mechanism of each layer.

    Expected Learning Outcomes:

          • Recognize the networking models used for seamless communication among computer user.
          • Find out how layered model communication functions can be organized and be very successful in communication.
          • Differentiate between OSI and TCP/IP models.

    Resources of Learning:



  • Week - 2: Ethical Hacking and Concept

    week2

    Discussion Points: 

          • Concept of data and signal of analog and digital.
          • Discussion about transmission impairments (attenuation, distortion, and noise)
          • Calculate the performance of data transmission including bandwidth, throughput, latency, and jitter. 

    Expected Learning Outcomes:

          • Recognize the concept of analog and digital signals and their use in day to day communication.
          • Identify which transmission impairments cause problems in communication and their remedies.
          • Appreciate the importance of date rate limits in communication and performance measurement.

    Resources of Learning:

  • Week - 3: Security Risk Management

    week3

    Discussion Points: 

          • Concept of Line Coding, Block Coding and Scrambling.
          • Discuss and Illustrate the Digital to Digital Conversion Techniques
          • Discuss and Illustrate the Analog to Digital Conversion Techniques
          • Discussion about Transmission Modes

    Expected Learning Outcomes:

          • Recognize the digital transmission technologies used for modern communication.
          • Identify and differentiate among various digital to digital, analog to digital conversion techniques.
          • Appreciate what important role transmission modes play in digital communication.

    Resources of Learning:

  • Week - 4: Security Risk Management(Contd.)

    week4

    Discussion Points: 

          • Discuss and Illustrate the Digital to Analog Conversion Techniques
          • Discuss and Illustrate the Analog to Analog Conversion Techniques

    Expected Learning Outcomes:

          • Recognize the analog transmission technologies used for modern communication.
          • Identify and differentiate among various digital to analog, analog to analog conversion techniques.
          • Appreciate what important role modulation techniques play in communication.

    Resources of Learning:

  • Week - 6: Review of Previous Weeks

    week6

    Discussion Points: 

          • Review the difficult topics of previous weeks specifically, Signal conversions and performance measurement

    Expected Learning Outcomes:

          • Design and Illustrate various signal conversion techniques based on the problem given
          • Gain the ability to calculate the performance of a system based on different parameters.


    • Quiz-1 Sec-A
      Opened: Saturday, 10 December 2022, 8:30 AM
      Closed: Saturday, 10 December 2022, 11:00 PM
    • Quiz-1 Sec-E
      Opened: Saturday, 10 December 2022, 8:30 AM
      Closed: Saturday, 10 December 2022, 11:00 PM
    • Quiz-1 Sec-C
      Opened: Sunday, 11 December 2022, 10:30 AM
      Closed: Sunday, 11 December 2022, 11:00 PM
    • Quiz-1 Sec-D
      Opened: Sunday, 11 December 2022, 10:30 AM
      Closed: Sunday, 11 December 2022, 11:00 PM
    • Quiz-1 Sec-B
      Opened: Sunday, 11 December 2022, 10:30 AM
      Closed: Sunday, 11 December 2022, 11:00 PM

  • Week - 7: Risk Management



    Contents for Exam:

            • Topologies
            • TCP/IP
            • Transmission Impairments and Performance Analysis
            • Signal Conversions
            • Modulation Techniques

  • Week - 8: Incident Management and AI and ML in Information Security

    week8

    Discussion Points: 

          • Demonstration of Wavelength Division Multiplexing (WDM) and its applications
          • Demonstration of Time Division Multiplexing (TDM) and its applications
          • Discussion on Data rate management

    Expected Learning Outcomes:

          • Identify, deployment and differentiate among WDM and TDM and their alternatives.
          • Role of Multiplexing in modern communication systems through data rate management

    Resources of Learning:

  • Week -9: Multiplexing

    week9

    Discussion Points: 

          • Review of Midterm Questions
          • Concept of Multiplexing
          • Demonstration of Frequency Division Multiplexing and its applications

    Expected Learning Outcomes:

          • Recognize the multiplexing technologies used for modern communication.
          • Identify and deployment of frequency division multiplexing techniques and alternatives.

    Resources of Learning:

  • Week - 10: Malware Detection and Analysis

    week10

    Discussion Points: 

          • Representation of CRC as Polynomials
          • Introduction of Checksum (Traditiona5l and Complementary)
          • Brief discussion about Error Corrections

    Expected Learning Outcomes:

          • Identify, deployment and differentiate between CRC (Polynomials) and Checksum and their real-time applications.
          • Appreciate the role of error correction in communication.

    Resources of Learning:

  • Topic 11

    • Topic 12

      • Topic 13

        • Topic 14

          • Topic 15