What does the M.Tech Radar & Communication program include?
M.Tech Radar & Communication is also known as Master of Technology in Radar &
Communication Engineering. It is a 2-year post-graduate course provided at KL
University,
Vijayawada. A top university in Andhra Pradesh and South India, known for its strong
industry
tie-ups and academic excellence. The course is created to offer graduates strong basic
and
advanced knowledge in microwave and RF engineering (Radio Frequency engineering),
digital
signal processing, satellite and mobile communication, modern wireless communication
systems, and radar technologies.
Research projects, latest technology laboratories, and industry tie-ups all provide
graduates with
hands-on knowledge and experience, where both the theoretical and practical use is
emphasized. To equip students with employment opportunities in the global economy, the
course also contains the latest technologies like the Internet of Things in
communication, 5G
and 6G networks, defense implementations, and electronic warfare. The course equips me
with
the specialization of designing various titles in the field of academic research,
aerospace
industries, satellite communication companies, and telecommunications by inspiring
problem-
solving, ability to innovate, and critical thinking. It also shapes leaders who can
support new
development in radar and communication engineering.
Program Structure
What is the M. Tech Radar and Communication course curriculum at KL University?
Wireless Communication and Data Networks
Modern Radars & Autonomous Vehicles
Smart Antennas
Artificial Intelligence & Machine Learning
Elective - 1
Elective - 2
Seminar
Technical Skilling – I
Next Generation Wireless Technologies
RF System Design
EMI/EMC & Electronic Warfare
Modern Satellite Communication Systems
Elective - 3
Elective - 4
Term Paper
Technical Skilling – II
M. Tech. Project Dissertation - Part 1 & Part 2
GPS & Global Navigation Satellite System
Wireless Multimedia Communications
Microwave and Millimetric Wave Circuits
Radiation Systems
LiDAR & RADAR System Control
Internet of Things Architecture and Protocols
Computer Vision & Video Surveillance Systems
Remote Sensing & Sensors
Machine Learning for Wireless Communications
Phased Array Systems
High Performance Communication Networking
Estimation & Detection Theory
FPGA-Based Wireless System Design
Optical Wireless Communications
RF Mixed Signal IC Design
Block Chain & Cyber Security
Program Benefits
What are the key benefits of pursuing an M.Tech in Radar and Communication at KL
University?
The M.Tech Radar & Communication course blends practical experience in aerospace,
defense, and
telecommunications with new engineering knowledge. It aligns with the research
capability and
technical expertise required for success in global industries.
Flexible Learning Paths: Students are given the option to focus on
wireless communications, radar engineering,
advanced signal processing or antenna design. This flexibility allows them to match
their
specialization with future career objectives either in academics, R&D or
industries.
Defense & Space Applications: This course raises technologies
of significance to surveillance radars, satellite-based
communication, defense systems and navigation. Students are shown creative projects
of
importance to space exploration and national security.
Modernized Curriculum: The curriculum of the program is in such a
way that students are kept in touch with the new
facts in the industry and science as it touches upon such up-to-date topics as RD
(Radar
Detection), wireless networks, microwave circuits, and satellite systems.
The Advanced Laboratory Training: The difference between the
classroom learning and practical learning is filled with live
experience on new laboratories with RF analyzers (Radio Frequency analyzers), radar
modelling
tools, antenna testing chambers, and microwave systems.
Industry Collaboration and Exposure: Candidates would have an
opportunity to work with leading defense, aerospace and telecom
businesses through industry visits, internships, and live projects and acquire
real-time engineering
problem-solving skills.
Career & Placement Opportunities: Academics, R&D labs,
telecom industries, defense organizations, and satellite communications
are areas to which students are ready — enhancing employability in high-demand
areas.
Entrepreneur Skills: Graduates are trained to develop
technology-based solutions or start-up conceptions in the
telecom and defense sectors to enhance an entrepreneurial approach.
Program outcomes
PO1: A skill to discover, create, conduct research literature,
complex engineering issues in the
field of communications and RADAR to support national and industrial
requirements.
PO2: An ability to develop solutions for complex problems in
communication systems design
and RADAR system components or processes that meet the specified
needs considering.
PO3: Ability to create and apply appropriate techniques using modern
industrial and research
tools for modeling and testing of antennas, communications system
modules and RADAR
systems.
PO4: An ability to design the experiments, analyze and interpret
data and synthesis of the
information using various modern and industrial tools to obtain
solutions for complex
problems in industries, the military, and social needs.
PO5: An ability to apply reasoning informed by the contextual
knowledge to assess societal,
health, safety, legal and cultural issues; ethical principles of
engineering practices, and
the consequent responsibilities relevant to RADAR engg.
PO6: Exposure to prerequisite math and a mathematically rigorous
approach to
communication theory will provide him with all the necessary
background to pursue a
career in any field of communications going forward in his career.
PO7: An ability to function effectively as an individual, and as a
member or leader in diverse
teams and in multi-disciplinary settings for project management by
demonstrating the
knowledge and understanding of principles of communication systems
and radar, and
apply those one’s own work, as a member and leader in team, to
manage projects and in
multi-disciplinary environments.
PEO1: To produce M.Tech graduates with enhanced skills in
quantitative and scientific reasoning that can be applied to
atmospheric and space problems.
PEO2: To produce M.Tech graduates with enhanced knowledge on a range
of atmospheric and space phenomena and applications, and to have
expertise in one or more program subdisciplines or related
interdisciplinary areas
PEO3: To produce M.Tech graduates who are better equipped to
contribute to solving problems in the atmospheric sciences, Space
Technology and related disciplines, through service in business or
as educators, researchers, and leaders in academia, government, the
private sector, and civil society.
PEO4: To produce highly competent scientists/ engineers/
technologists in the field of atmospheric science and space
technology through focusing on specializations in communication
Sector, lower and upper atmosphere and satellite navigation systems,
weather and climate data mining and applications.
Eligibility & Admission Criteria
What Are the Eligibility Criteria for M.Tech Radar & Communication Admission?
Academic Qualifications:
Candidates should have passed B.E. / B.Tech. / MCA / M.Sc., etc., from recognized
universities/institutions in the respective discipline.
Students must have a minimum of 55% marks or equivalent CGPA. Also, the candidates
should
have secured a qualifying rank in the PG entrance Examination i.e., KLU PGET / GATE
/ AP PGCET
/ any other equivalent examination.
For foreign students who wish to study at the university. Please refer to the
“Foreign Student
Admission Procedures” stated separately and comply with the study requirements of
the
Ministry of Education, Govt. of India.
Fee Structure
What is the fee structure of M.Tech Radar & Communication?
Campus
Duration
Admission Fee
Semester Fee
Total 1st Semester
Vijayawada
4 Years
₹16,000
₹62,500
₹78,500
Note : The fee structure provided is based on the 2025–26 academic year and is
subject to change for the 2026–27 academic year.
Are hostel and other charges included?
No. Hostel, mess, exam, and other charges are separate. You can contact the admissions
office
for exact details.
Are there any Scholarship Opportunities?
K L University offers various merit-based and need-based scholarships. These scholarships
are
generally awarded based on a student's performance in entrance examinations (such as
KLEEE
or JEE) and their academic scores in intermediate. Eligible students are strongly
encouraged
to apply for these scholarships during the admission process.
Career Scope & Opportunities
What jobs can I get after M.Tech - Radar & Communication?
A number of job options are provided by an M.Tech course in Radar and Communication,
like:
Radar Systems Engineer
Defense Communication Specialist
RF & Microwave Engineer
Satellite Payload Communication Engineer
IoT & Smart Systems Developer
Space Mission System Designer
AI-Enabled Communication Systems Developer
Frequently Asked Questions (FAQs)
Radar and Communication program at KL University is based on high end tools and
software like MATLAB (with Signal Processing and Communication toolboxes), OrCAD
PSPICE, Xilinx ISE, Vhdl/ModelSim, and ANSYS to simulate and design. These platforms
prepare the students with practical skills of communicating and applications of
radar systems
in the real world.
The M.Tech Radar & Communication curriculum at KL University is based on MATLAB,
C,
C++, Python, and VHDL/Verilog, which are mostly used in signal processing,
simulations,
and FPGA-based system design.
The graduates are able to establish careers in the defense research systems,
aerospace
companies, telecommunication industries, electronics manufacturing, and advanced
research and development centers.
Yes, the program has a strong fit with defense-related technologies like radar
systems,
electronic warfare, signal intelligence, and tactical communication systems. Hence,
it fits
defense-based careers.
Surely, the presentpday Radar & Communication courses tend to contain courses on
wireless networks, 5G/6G idas, satellite connection, and cognitive radion systems.
Yes, students would be able to engage in research projects that involve radar
imaging,
wireless communication, remote sensing, antenna design and sensor networks.
Still have Queries? Contact Us
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Helpline : +91 7815901716 , Monday To Saturday -
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