Admissions Open
Admissions Open
Quick Facts
150
acres of Wi-Fi
enabled campus
50000+
Success
Stories
91%
Over All
Placement
564+
Prime
Recruiters
21 Lacs
Highest
Package Offered
Master of Technology in Electronics and Communication is a post graduate course. The course duration is two years i.e. four semesters. The course covers wide range of advanced communication subjects such as Advanced Wireless Communication, Advanced Optical Communication, Advanced Digital Signal Processing, Network Security, Advanced Radar System, Information Theory and Coding, Soft Computing, Signal & Image Processing, Advanced Antennas, Nanotechnology, Digital and Analog IC Design, Advanced VLSI etc.
This course makes familiarization with optical fibers, their structures and working. The various optical sources, the optical amplifier & their applications.
This course is used to understand the meaning and implications of the properties of systems and signals, understand the Transform domain and its significance and problems related to computational complexity.
The design of linear digital filters FIR and IIR using different techniques and their associated structures, concept of Multi-rate signal processing & its Applications.
This course develops an understanding of modern digital networks, data communication technologies and how to use them to: Implement, Operate, Manage networks.
This Lab provides information about various types of fibers, setting up of fiber optical links for digital and analog transmission and study of fiber connectorisation kit.
This Lab deals with practical implementation of properties of systems and signals, Transform domain and its significance and problems related to computational complexity using MatLab software.
Introduction to fundamental concepts of Multimedia communication and to understand various audio/video coding techniques.
Introduction to fundamental concepts of Evolution and Growth of Satellite Communication, Space Segment, Earth Segment, Space Link, Satellite Applications.
Develop an understanding of Three Generation of Digital Transport Network, Architecture of Optical Transport Networks (OTNs), WDM Networks, Network Topologies and Protection Schemes, Multi Protocol Label Switching (MPLS) in Optical Networks.
This lab provides students the concept of modulation and demodulation of various analog and digital modulation techniques using MATLAB.
Enable the students to model, simulate and test the Electronics & Instrumentation based design and provide a design flexibility using graphical programming language.
This course provides the fundamentals of Digital Image Processing system and also the principles of image acquisition system and imaging technologies used in various fields.
Involves delivery of seminar by student on any current and advanced topic in technology related to the field of Electronics and Communication Engineering.
The Project involves integration and implementation of knowledge and skills acquired during the degree program. It involves group work with hands on experience on some live projects in the field of Electronics and Communication Engineering.
Design and analyze various modulation schemes using Vissim software
The candidate has to demonstrate a technical presentation of their selected project topic using three steps: Problem formulation, work methodology and results.
This course develops an understanding of Security Trends, Cryptography, encryption and decryption and Authentication basics.
Introduction to fundamental concepts of wireless communication technologies, mobile radio propagation and its applications. Familiarize the students with the concepts and the issues involved in the design of wireless networks.
This course familiarize the students with Radar Transmitter & receiver, target detection and estimation techniques used in radar communication.
This course develops an ability to analyze and design combinational and sequential logic circuits. The course also provides an exposure to computer logic circuits design, PAL, PLA testing and practical digital circuit design.
This course understand the concept of Probability and Random Processes, analyze the source coding techniques and Construct the various channel coding schemes such as block codes, cyclic codes and convolutional codes.
This course develops the concept of VHDL basics, basic language elements, behavioral modeling, dataflow modeling, structural modeling, verilog basics and programming using verilog.
Introduction of basic signal processing techniques for bio-medical signals. Familiarization with various medical equipments and their technical aspects and knowledge of physiological system of human body.
This course deals with principles and operation of MOSFET with their types, Electrical behaviour and fabrication. Scaling in VLSI with delay, Stick Diagrams, Design rules and Layout.
This course deals with principles and operation of Wireless Communication, Cellular Wireless Networks and Wave propagation, Wireless LAN and Modulation Techniques, Wireless System operations and Application.
Introduction to the neural networks and fuzzy logic. To familiarize the students with fundamentals of Fuzzy systems, Fuzzy sets and Fuzzy Relations.
Develop an understanding of the methods of probability and statistics which are used to model engineering problems.
Introduction to basic characteristics of speech signal in relation to production and hearing of speech by humans. Description of basic algorithms of speech analysis common to many applications.
Introduction about basic principles of antennas, their fundamental characteristics, parameters and microstrip antenna structures.
Introduction to the basic concepts of embedded systems with different peripheral interfaces to embedded systems.
Introduction to fundamental concepts of Nano-electronics and to familiarize the student with the working of nano materials, nano devices and nanofabrication techniques.
Introduction to basic concepts of soft computing, various types of soft computing techniques, applications of soft computing, neural networks, fuzzy systems and genetic algorithm concepts.
An Introduction Objectives of Research, Types of Research, Research Design, Need for Research Design, Measurement and Scaling Techniques, Methods of Data Collection and Analysis.
This course deals with various types of microprocessors, coprocessors, their working and types of memories associated with them.
M.Tech (Electronics & Communication Engg.) The Candidates should have passed with minimum 50% marks (45% in the case of SC/ ST category) in aggregate in B.Tech/ B.E. in Electronics & Communication Engg./ Electronics & Telecommunication Engg./ Electronics Engg/ Electrical Engg/ Electrical & Electronics Engg./ Applied Electronics & Instrumentation Engg./ Electronics Instrumentation & Control Engg/ Instrumentation & Control Engg/ Instrumentation Engg./ Control Engg./ Mechatronics/ Bio-Electronics Engg./ Bio-Medical Engg. or M.Sc. in Electronic Science/ Physics or its equivalent examination from any recognized University.
Masters in Electronics and communication engineering is a discipline that combines electronics engineering with computer, information and communication technology. Various career opportunities are growing in the field of electronics every day. After successful completion of the two-year M.Tech ECE course, candidates can find tons of job opportunities in the technical and research fields as they are greatly skilled professionals in the area of electronics and communication. Defence, space and other large research organisations employ electronics engineers in design and development of complex devices and systems for signal processing and telecommunication. Industries involved in design and fabrication of devices, integrated circuits, embedded systems, electronic equipments etc also provide large scale placements for engineers with this specialization. They also get great opportunities in the field research and development. The major companies that higher professionals of this field are:
| Course | Course Fee | |||
| Indian (INR) | International (USD) | |||
|
||||
| M.Tech Electronics & Communication Engineering |
|
5000 | ||
|
Note:
|
||||