The Department of Electronics and Communication Engineering offers the M.Tech. programme in Wireless and Mobile Communications (WMC), which features an impressive range of courses. This programme focuses on the field of wireless and mobile communications, including emerging technologies like 5G, 6G, and beyond. It encompasses antenna design for wireless communication and establishes a strong foundation in Communication Engineering. The two-year full-time programme provides hands-on experience with cutting-edge technologies to develop applications and solutions for our rapidly evolving world. Designed for aspiring innovators, the programme offers a comprehensive understanding and expertise in designing systems and networks for the current era of IoT, 5G, 6G, and future portable wireless communication systems and devices. MTech Wireless and Mobile Communication Technology integrates communication techniques and simulation skills to address real-life telecommunication challenges.
Duration of programme
Level of Study
Wireless Communication Systems, Mobile Networks and Protocols.
Antenna Design and Propagation. Advanced Digital Signal Processing, Wireless Network Security, Internet of Things (IoT)
5G, Beyond and Mobile Computing.
Wireless Communication Networks and Research Methodologies.
PEO1- To prepare graduates who will be successful professionals in industry, government, academia, research, entrepreneurial pursuits, and consulting firms.
PEO2- To prepare graduates who will contribute to society as broadly educated, expressive, ethical, and responsible citizens with proven expertise.
PEO3- To prepare graduates who will achieve peer recognition as individuals or in teams through the demonstration of good analytical, research, design, and implementation skills.
PEO4- To prepare graduates who will thrive and pursue lifelong reflective learning to fulfil their goals.
PSO1- To understand the basics of Wireless Communication Networks.
PSO2- To motivate the students to pursue research in the area of wireless communication.
PSO3- Analyse the various protocols used in data communication.
PSO4- Design a networking structure for data communication.
PSO5- Transmit data securely from one place to another.
PSO6- Analyse the performance of various protocols.
PSO7- Learn to represent real-world signals in digital format to represent the signals;
PSO8- Learn to apply the knowledge for proper data recovery.
PSO9- Learn the basic blocks of communication systems.
PSO 10- Analyse the various protocols used in broadband communication.
PSO 11- Design the networking structure for broadband communication.
PO1- An ability to apply knowledge of mathematics, science, and engineering in practise.
PO2- An ability to identify, critically analyse, formulate, and solve engineering problems with comprehensive knowledge in the area of specialisation.
PO3- An ability to select modern engineering tools and techniques and use them with dexterity.
PO4- An ability to design a system and process to meet desired needs within realistic constraints such as health, safety, security, and manufacturability.
PO5- An ability to contribute through research and innovation to solving engineering problems.
PO6- An ability to devise and conduct experiments, interpret data, and provide well-informed conclusions.
PO7- An ability to understand the impact of engineering solutions in a contemporary, global, economical, environmental, and societal context for sustainable development.
PO8- An ability to function professionally with ethical responsibility as an individual as well as in multidisciplinary teams with a positive attitude.
PO9- An ability to communicate effectively.
PO10- An ability to appreciate the importance of goal setting and to recognise the need for lifelong reflective learning.
10+2 exams with the compulsory subjects as Physics, Chemistry, and Maths with a minimum of 55% of marks in its best of 5 subjects.
A Bachelor's degree in VLSI Design with a minimum of 50%