Madha Nagar, Kundrathur,Chennai-69.
Mon-Fri 9:00A.M. - 5:00P.M.
Mankind has always communicated, but the means of communication changes. Over the past century, communication technologies have had a fundamental impact on how we carry out our daily lives. Besides using the internet and mobile phones for interpersonal communication; businesses, banking, transportation systems, TV and radio broadcasts and smart power grids rely on advanced communication technology. In future, there will still be advanced communication systems and communication engineers will be needed to develop and maintain them. Future communication systems will form the foundation for a sustainable and intelligent society where people and equipment can be connected anywhere, anytime with anything.
A high degree of connectivity will be a key enabler for new innovative technologies and applications that can benefit from information sharing. Evolving technologies are 4G & 5G mobile communications, machine communications, fiber optical links and networks and sensor network communication, with emerging new applications such as remote and assisted medical diagnosis and treatment, traffic and vehicle safety, environmental monitoring, maximizing efficiency and reliability in smart grid infrastructure, and tele-presence systems that reduce the need for energy consuming transportation of people. In order to gain insight into communication systems of the future, and to develop such systems, solid analytical skills and an understanding of the fundamental principles of digital information transmissions are essential. Besides the fundamentals in communication engineering we focus on e.g. random signal analysis, stochastic methods for digital modulation and coding, applications of digital signal processing, optical fibers and lasers and information theory and coding. M.E. Communication Systems course offers combination of theoretical and applied knowledge in systems that apply on a global scale to give a lifelong learning process in communication technologies through modern software and hardware tools.
1. Apply technical knowledge and skills to have successful career in industry,
government and academia as communication engineers
2. Pursue multidisciplinary scientific research in communication and related areas
3. Make use of various state-of art systems and cutting edge technologies to solve
various complex engineering problems
4. Inculcate leadership skills, team work, effective communication and lifelong learning to
the success of their organization and nation
5. Practice ethics and exhibit commitment in profession to empower / enable rural
communication infrastructure
1. An ability to independently carry out research/investigation and development
work to solve practical problems
2. An ability to write and present a substantial technical report/document
3.
Students should be able to demonstrate a degree of mastery over the area as per
the specialization of the program. The mastery should be at a level higher than
the requirements in the appropriate bachelor program
4. Design and analyze RF, Signal processing, Networking, Adaptive and modern
communication systems
5. Develop the knowledge in 5G communication techniques, mm wave
communication, smart antennas , Massive MIMO and Wireless sensor networks
6. Apply various software tools and cutting edge engineering hardware to provide
solutions for complex communication engineering problems.
| Semester | Course Code | Course Title | Course Outcome |
|---|---|---|---|
| I | MA5154 | Applied Mathematics for Communication Engineers | • Concepts on vector spaces, linear transformation, inner product spaces, eigenvalues and generalized eigenvectors. • Apply various methods in linear algebra to solve system of linear equations. • Could develop a fundamental understanding of linear programming models, able to develop a linear programming model from problem description, apply the simplex method for solving linear programming problems. • Numerical solution of differential equations by single and multistep methods. • Computation of probability, random variables and their associated distributions, correlations and regression. • Conceptualize the principle of optimality and sub-optimization, formulation and computational procedure of dynamic programming. • Exposing the basic characteristic features of a queuing system and acquire skills in analyzing queuing models. • Using discrete time Markov chains to model computer systems. |
| I | CU5191 | Advanced Radiation Systems | • Ability to understand antenna concepts • Ability to design antenna for various applications • Knowledge of modern antenna design |
| I | CU5151 | Advanced Digital Communication Techniques | • Develop the ability to understand the concepts of signal space analysis for coherent and non- coherent receivers. • Conceptually appreciate different Equalization techniques • Possess knowledge on different block codes and convolutional codes. • Comprehend the generation of OFDM signals and the techniques of multiuser detection. |
| I | AP5152 | Advanced Digital SignalProcessing | • Formulate time domain and frequency domain description of Wide Sense Stationary process in terms of matrix algebra and relate to linear algebra concepts. • State W-K theorem, spectral factorization theorem, spectrum estimation, bias and consistency of estimators. • Wiener filtering, LMS algorithms, Levinson recursion algorithm, applications of adaptive filters • Decimation, interpolation, Sampling rate conversion, Applications of multirate signal processing |
| I | CU5192 | Optical Networks | • Design and Analyze Network Components • Assess and Evaluate optical networks |
| I | CU5092 | Real Time Embedded Systems | • Revise computing platform and design analysis • Demonstrate multiple tasks and multi processes • Discuss hardware and software co-design |
| I | CU5161 | Communication Systems Laboratory | • Measure and analyze various transmission line parameters. • Design Microstrip patch antennas. • Implement the adaptive filtering algorithms • To generate and detect digital communication signals of various modulation techniques using MATLAB. • Evaluate cellular mobile communication technology and propagation model. |
| II | CU5291 | Advanced Wireless Communication Systems | • Analyze MIMO system. • Discuss millimeter wave communication. • Demonstrate software defined radio and cognitive radio. |
| II | CU5201 | MIC and RF System Design | • Capability to design RF circuits. • To be able to analyze RF circuits. |
| II | CU5292 | Electromagnetic Interference and Compatibility | • Identify Standards • Compare EMI test methods • Discuss EMI mitigation techniques |
| II | CU5071 | Digital Communication Receivers | • Apply basic principles of digital communication techniques. • Discuss on receivers for AWGN & Fading channel • Describe various synchronization techniques. • Design adaptive equalization algorithms to satisfy the evolving demands in digital communication. |
| II | DS5291 | Advanced Digital Image Processing | • Explain the fundamentals digital image processing. • Describe image various segmentation and feature extraction techniques for image analysis. • Discuss the concepts of image registration and fusion. • Explain 3D image visualization |
| II | CU5094 | Software Defined Radio | • Design data converters • Evaluate smart antennas • Discuss digital hardware and software choices |
| II | CU5211 | RF System Design Laboratory | • Apply knowledge to identify a suitable architecture and systematically design an RF system. • Comprehensively record and report the measured data, and would be capable of analyzing, interpreting the experimentally measured data and produce the meaningful conclusions. • Design and develop microstrip filters. |
| II | CP5281 | Term Paper Writing and Seminar | 1. To Select a subject, narrowing the subject into a topic 2. To State an objective. 3.To Collect the relevant bibliography (atleast 15 journal papers) 4.To Prepare a working outline. 5. To Study the papers and understanding the authors contributions and critically analysing each paper. 6. To Prepare a working outline 7. To Link the papers and preparing a draft of the paper. 8. to Prepare conclusions based on the reading of all the papers. 9. To Write the Final Paper and giving final Presentation |
| III | CU5301 | Millimeter Wave Communication | • Ability to understand Millimeter devices and circuits • Ability to design antenna for Millimeter wave frequencies • Knowledge of Millimeter wave technology |
| III | NC5071 | Network Routing Algorithms | • Given the network and user requirements and the type of channel over which the network has to operate, the student would be in a position to apply his knowledge for identifying a suitable routing algorithm, implementing it and analyzing its performance. • The student would also be able to design a new algorithm or modify an existing algorithm to satisfy the evolving demands in the network and by the user applications. |
| III | NC5291 | Communication Network Security | • Explain digital signature standards • Discuss authentication • Explain security at different layers |
| III | CU5311 | Project Work Phase I | Formulate and analyze problem / create a new product/ process. Design and conduct experiments to find solution Analyze the results and provide solution for the existing method and design the solution for the problems identified. |
| IV | CU5411 | Project Work Phase II | To develop the ability to solve aspecific problem right from its identification Review on literatures and learn more about the problem and its solutions To develop the analytical skills, requirement analysis, design skills. Learn the various system modules for implementing the project useful for the society and Testing with the experimental data. To train the students in preparing project reports and to face reviews and vivavoce examination |
150
Companies Visited
2000
Offer Issued
50
MOU's
10
International Collaboration
