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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 a 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 subject introduces the fundamental concepts of Advanced communication network technologies and its applications. It familiarizes the students with the concepts and the issues involved in the design of these networks.
This lab provides students the concept of various networking commands and enables them to design and implement TCP and UDP based applications.
This subject provides introduction to fundamental concepts of wireless communication technologies and its applications. It explains the concepts and the issues involved in the design of wireless networks.
This course makes the students to understand and gain practical knowledge about Wireless and Mobile Communication kits and software as per the industry requirements.
This course explains the types and methods for research problem formulation as well as it provides knowledge about patents and copyright filing.
This course explains the concept of wireless sensor networks. It provides the knowledge of hardware, software and various network protocols; data dissemination and processing of sensor networks.
The aim of this course is to introduce the concept of SONET/SDH. It enables to design of WDM networks and the control and management in optical networks.
This course focuses on the general concept of information theory and its applications along with the implementation of decision and estimation theory.
This course is meant to develop an understanding of cognitive radios along with spectrum sensing and implementation of optimization techniques of dynamic spectrum allocation.
The aim of this course is to develop basics of RF and Microwave, analyses Microwave network analysis and microwave components, microwave semiconductor devices and their modeling and amplifier design.
The aim of this subject is to provide knowledge of programmable DSP hardware , VLIW architecture and FPGA based DSP systems
This course is meant to orient the students to take off in the areas of Antenna wave propagation with concise description of different types of antennas. This course also provides various techniques involved in various Antenna Parameter measurement.
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.
This lab used to understand the types of Antennas, to simulate the different types of Antennas and studying the effect of change of parameters on Antennas radiation pattern
This lab introduces the advanced topics in Digital Signal Processing, make students able to program advanced digital signal processing algorithm in MATLAB.
The purpose of this course is to develop an understanding of independent research through the study of a particular Electronics Engineering topic of interest. The special project is an exercise in the professional application of specialist skills and experience developed in Electronics Engineering program. Research topics will be mainly based on principal experimental, theoretical or applied, will be chosen in consultation with a project supervisor.
This course deals with the designing of communication satellite, satellite links and Earth station and tracking of the satellites.
This course provide exposure about basic introduction of all the elements and terminology, technology, applications of IoT, IoT protocols along with study of Open-source platform for IoT.
This course provide the exposure of the layered approach that makes design, implementation, and operation of extensive computer networks possible along with the protocols involved in wired/wireless communication process, different network and traffic issues for QoS.
This course deals with the modeling and mathematical skills to analytically determine computer systems and computer network performance. It also help in understanding the concepts of probability, conditional probability and independence, queueing theory and the applications of Markov chains technique to various examples arising in different areas.
This course helps in learning fundamentals of wireless communication systems , basics of MIMO systems and provide the exposure of OFDM and MIMO-OFDM systems.
This course deals with the mechanisms in QoS in networking, optimization of Network Design and evaluation of SDN.
This course impart the knowledge regarding the various types of power devices amplifier and their characteristics, controlled rectifiers, choppers inverters , analysis of inverters and switching power supplies and their applications.
Dissertation Phase I is to prepare students for final dissertation in the next semester. Students are given an opportunity to demonstrate their originality in thought and application of an idea. Students are required to select topics from the field of Electronics and Communication and based on a thorough review of literature on that topic, they will identify the problems and decide on plans of research for dissertation. Under the supervision of faculty members, they will execute their plans involving theoretical and/or experimental work.
This subject defines the High-performance networks and its characteristics. It introduces about VoIP system architecture and applications, and to understand Traffic Modeling using various models. It also give exposure to students about basic infrastructure for network management.
This subject gives exposure to students about basic introduction of Pattern Recognition, Regression, linear regression, Neural Network and related algorithms.
This subject showcases the knowledge about Remote sensing and the process of detecting and monitoring the physical characteristics of an area by measuring its reflected and emitted radiation at a distance without making a physical contact.
In dissertation phase – II, the results obtained in phase I will be evaluated and analysed to arrive at a conclusion which will lead to some novelty in the field of Electronics and Communication. Dissertation will be prepared as per the prescribed format/ guidelines and will be presented and evaluated in the form of regular reviews. Also, technical papers based on the work done has to be submitted and published in SCI/SCOPUS indexed/ Peer review journals as well as in reputed conferences which indexes the publications in SCOPUS.
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.
| Course | Course Fee | |||
| Indian (INR) | International (USD) | |||
|
||||
| M.Tech Electronics & Communication Engineering |
|
5000 | ||
|
Note:
|
||||
| % Marks | Scholarship Criteria (% Tuition Fee Waiver) |
|---|---|
| 90% & above | 100% |
| 80 to 89.99% | 40% |
| 70 to 79.99% | 30% |
| 60 to 69.99% | 20% |
This subject introduces the fundamental concepts of Advanced communication network technologies and its applications. It familiarizes the students with the concepts and the issues involved in the design of these networks.
This lab provides students the concept of various networking commands and enables them to design and implement TCP and UDP based applications.
This subject provides introduction to fundamental concepts of wireless communication technologies and its applications. It explains the concepts and the issues involved in the design of wireless networks.
This course makes the students to understand and gain practical knowledge about Wireless and Mobile Communication kits and software as per the industry requirements.
This course explains the types and methods for research problem formulation as well as it provides knowledge about patents and copyright filing.
This course explains the concept of wireless sensor networks. It provides the knowledge of hardware, software and various network protocols; data dissemination and processing of sensor networks.
The aim of this course is to introduce the concept of SONET/SDH. It enables to design of WDM networks and the control and management in optical networks.
This course focuses on the general concept of information theory and its applications along with the implementation of decision and estimation theory.
This course is meant to develop an understanding of cognitive radios along with spectrum sensing and implementation of optimization techniques of dynamic spectrum allocation.
The aim of this course is to develop basics of RF and Microwave, analyses Microwave network analysis and microwave components, microwave semiconductor devices and their modeling and amplifier design.
The aim of this subject is to provide knowledge of programmable DSP hardware , VLIW architecture and FPGA based DSP systems
This course is meant to orient the students to take off in the areas of Antenna wave propagation with concise description of different types of antennas. This course also provides various techniques involved in various Antenna Parameter measurement.
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.
This lab used to understand the types of Antennas, to simulate the different types of Antennas and studying the effect of change of parameters on Antennas radiation pattern
This lab introduces the advanced topics in Digital Signal Processing, make students able to program advanced digital signal processing algorithm in MATLAB.
The purpose of this course is to develop an understanding of independent research through the study of a particular Electronics Engineering topic of interest. The special project is an exercise in the professional application of specialist skills and experience developed in Electronics Engineering program. Research topics will be mainly based on principal experimental, theoretical or applied, will be chosen in consultation with a project supervisor.
This course deals with the designing of communication satellite, satellite links and Earth station and tracking of the satellites.
This course provide exposure about basic introduction of all the elements and terminology, technology, applications of IoT, IoT protocols along with study of Open-source platform for IoT.
This course provide the exposure of the layered approach that makes design, implementation, and operation of extensive computer networks possible along with the protocols involved in wired/wireless communication process, different network and traffic issues for QoS.
This course deals with the modeling and mathematical skills to analytically determine computer systems and computer network performance. It also help in understanding the concepts of probability, conditional probability and independence, queueing theory and the applications of Markov chains technique to various examples arising in different areas.
This course helps in learning fundamentals of wireless communication systems , basics of MIMO systems and provide the exposure of OFDM and MIMO-OFDM systems.
This course deals with the mechanisms in QoS in networking, optimization of Network Design and evaluation of SDN.
This course impart the knowledge regarding the various types of power devices amplifier and their characteristics, controlled rectifiers, choppers inverters , analysis of inverters and switching power supplies and their applications.
Dissertation Phase I is to prepare students for final dissertation in the next semester. Students are given an opportunity to demonstrate their originality in thought and application of an idea. Students are required to select topics from the field of Electronics and Communication and based on a thorough review of literature on that topic, they will identify the problems and decide on plans of research for dissertation. Under the supervision of faculty members, they will execute their plans involving theoretical and/or experimental work.
This subject defines the High-performance networks and its characteristics. It introduces about VoIP system architecture and applications, and to understand Traffic Modeling using various models. It also give exposure to students about basic infrastructure for network management.
This subject gives exposure to students about basic introduction of Pattern Recognition, Regression, linear regression, Neural Network and related algorithms.
This subject showcases the knowledge about Remote sensing and the process of detecting and monitoring the physical characteristics of an area by measuring its reflected and emitted radiation at a distance without making a physical contact.
In dissertation phase – II, the results obtained in phase I will be evaluated and analysed to arrive at a conclusion which will lead to some novelty in the field of Electronics and Communication. Dissertation will be prepared as per the prescribed format/ guidelines and will be presented and evaluated in the form of regular reviews. Also, technical papers based on the work done has to be submitted and published in SCI/SCOPUS indexed/ Peer review journals as well as in reputed conferences which indexes the publications in SCOPUS.
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.
Master 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.
Defense, space, and other large research organizations employ electronics engineers in the design and development of complex devices and systems for signal processing and telecommunication. Industries involved in the design and fabrication of devices, integrated circuits, embedded systems, electronic equipment, etc also provide large-scale placements for engineers with this specialization. They also get great opportunities in the field of research and development. The major companies that higher professionals in this field are:
| Course | Course Fee | |||
| Indian (INR) | International (USD) | |||
|
||||
| M.Tech Electronics & Communication Engineering |
|
5000 | ||
|
Note:
|
||||