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Available courses

Cryptography and Network Security

On successful completion of the course, the student will be able to:
CO1: Understand the conventional Encryption algorithms for confidentiality and their design principles
CO2: Understand the symmetric key Encryption algorithms and their design principles
CO3: Learn the Public Key Encryption algorithms and their design principles
CO4: Get insight the authentication techniques, digital certificates and Public key certificates with their design principles
CO5: Know the applications of network security, system level security issues and their countermeasures

5CSE WDT LAB(2025)

8CSE Major Project

IoT(Internet of Things)

Web Development Using Fullstack

Web

Web Development Using Fullstack Lab (102891CS)

Development Using Fullstack Lab (102891CS)

Linux Laboratory (6th CSE/AI/DS)

Data Security & Privacy (DSP)

Data Security and Privacy

Network Theory

NETWORK THEORY [  B 0 2 8 3 1 4 ( 0 2 8)  ]

Course Outcomes: 

At the end of this course students will demonstrate the ability to 

  1. Understand basics electrical circuits with nodal and mesh analysis.
  2. Appreciate electrical network theorems.
  3.  Apply Laplace Transform for steady state and transient analysis.
  4.  Determine different network functions.
  5.  Appreciate the frequency domain techniques.

Digital Signal Processing

On successful completion of the course, the student will be able to:
CO1: Analyze Discrete-Time signals and systems using DTFT, DFT and FFT.
CO2: Realize the FIR and IIR systems using various structures.
CO3: Design low-pass, high-pass, band-pass & band-reject FIR filters using various window techniques.
CO4: Design low-pass, high-pass, band-pass & band-reject IIR filters from analog prototype filters using various transformation methods.
CO5: Describe the fundamental concepts of Multirate signal processing and its applications.

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