Course Objectives
 To introduces the modern theory of probability and its applications to modelling and analysis and processing of random processes and signals.
 To learn most of the important models of discrete and continuous probability distributions and widely used models of random processes such as Poisson processes and Markov chains.
 To understand some basic numerical methods for interpolation and integration and also for finding roots of equations and solutions of ODEs.

MA204 Syllabus.pdfMA204 Syllabus.pdf

Course Objectives

  •  To study the concepts and types of modulation schemes.
  •  To study different types of radio transmitters and receivers.
  •  To study the effects of noise in analog communication systems.
  •  To impart basic knowledge on public telephone systems.

Expected outcome 

  • The students will be able to understand the different analog modulation schemes, understand the fundamental ideas of noises and its effect in communication systems and to explain the principle and working of analog transmitters and receivers.

To know the basic idea of telephone systems.


Functional units of a computer, Arithmetic circuits, Processor architecture, Instructions and
addressing modes, Execution of program, Micro architecture design process, Design of data path
and control units, I/O accessing techniques, Memory concepts, Memory interface, Cache and
Virtual memory concepts.

Course Objectives
To impart knowledge in computer architecture.
To impart knowledge in machine language programming.
To develop understanding on I/O accessing techniques  and memory structures.

Elementary signals, Continuous time and Discrete time signals and systems, Signal operations, Differential equation representation, Difference equation representation, Continuous time LTI Systems, Discrete time LTI Systems, Correlation between signals, Orthogonality of signals, Frequency domain representation, Continuous time Fourier series, Continuous time Fourier transform, Laplace transform, Inverse Laplace transform, Unilateral Laplace transform, Transfer function, Frequency response, Sampling, Aliasing, Z transform, Inverse Z transform, Unilateral Z transform, Frequency domain representation of discrete time signals, Discrete time Fourier series and discrete time Fourier transform (DTFT), Analysis of discrete time LTI systems using the above transforms

Differential amplifier configurations, Operational amplifiers, Block diagram, Ideal op-amp parameters, Effect of finite open loop gain, bandwidth and slew rate on circuit performance, opamp applications-linear and nonlinear, Active filters, Specialized ICs and their applications, Monolithic Voltage Regulators - types and its applications, Data converters - specifications and types.