The curriculum of this course incorporates the fundamentals of electronics along with applications of communications to make a student through with the knowledge and skills to make a electric circuit of a communications system. It makes the students analytical and opens the broad areas of employment from various industries.
The curriculum includes dissertation, projects, elective exams, assignments during M.Tech. in Electronics and Telecommunications Engineering course. It will enhance their skills, way of looking at problems and finally will give them a practical approach to real life scenarios.
Each semester consists of some core subjects and some electives but the general subjects that are prescribed by most of the universities are-
Name of the Subject |
Topics Covered |
Description |
---|---|---|
Mathematics for Communication Engineering |
Vector spaces, linear dependence, matrix representation of linear transformation, Basic Limit theorem, Linear Predictions and filtering |
This subject intends to provide the mathematical tools which students will require in the following course and to be well knowledge of linear algebra and its applications |
System Designs using embedded processors |
Microcontroller, PIC Peripherals and Interfacing, Introduction to embedded systems, Real Time operating systems |
This subject will give them thorough knowledge of PIC controllers, basics of embedded systems and real time operating systems. |
Signal Processing Systems Lab |
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Advanced Digital Communication |
Random process, Central Limit theorem, cross correlation and auto correlation functions, communication over band limited channels. |
This subject teaches us the fundamentals of digital communication and the recent developments in it. |
Wireless Communication |
Wireless channel modes, fading channel capacity, Cellular Communication, Spread Spectrum and CDMA |
This subject provides description of wireless mobile communication, and students can know about different channels in a wireless network |
Digital Systems Design |
Introduction to VHDL, analysis of clocked sequential networks, programmable LSI techniques |
This subject teaches them to design and implement their ideas to make sequential digital system and even test it |
Information Theory |
Zero memory sources, source coding, channel capacity, uniquely decodable codes, Entropy calculation |
This subject will make the students able to be well aware of Information theory as it provides detailed concepts and fundamentals of Information Theory. |
Communication Networks |
Internet Architecture, Broadband services and QoS issues, Introduction to queuing theory, statistical multiplexing in Communication |
This subject provides in depth knowledge of Internet Architecture and other applications such as statistical multiplexing and internetworking applications |
Wavelets Theory |
Fourier and sampling theory, splines, biorthogonality, time frequency analysis |
This subject gives an introduction to wavelets theory and its applications. |
Biomedical Signal Processing |
Concurrent, coupled and correlated processes , cardio vascular applications, neurological applications |
This subject focuses on introduction of biomedical signal fundamentals, tools , and neurological applications of signal processing. |
Linear Systems Theory |
Finite dimensional signal space, linear systems, invertibility, polynomial applied to operators, metric spaces |
This subject teaches about vector space representation of signals, orthonormal bases and basics of linear systems. |
Power Electronics |
Review of line commutated converters, inverters, voltage control, current source inverters, phase controllers |
This subject provides an insight to power electronics in a detailed and profound way and also uses of its applications. It tells about how the inverters are made, different sources and modification of power circuits. |
Spectral Analysis of Signals |
Power spectral density, PSD estimation, Parametric method for rational spectra, folter bank methods, periodogram properties. |
This subject deals with introduction to spectral analysis and different methods for spectral analysis. |
Secure Communications |
rings and fields, basic encryption techniques, elliptic curves, concept of cryptanalytic, Euclidean domains |
This subject provides basic knowledge of secure communications and building up of mathematics of secure communications. |
Scheme of Assessment
Colleges evaluate the students in an effective manner by using two methods of Internal Assessment and External Assessment. Internal assessment includes the class tests, assignments, and projects, practical etc. And the external examinations include the main written test students have to take each semester to show their conceptual knowledge and applications. Internal assessment generally forms 25-35% of the total marks and the rest lays on external exams.