M.Tech in Robotics and Automation is a two-year postgraduate course about the design,
development,
and implementation of intelligent robotic systems and automated processes. The course
teaches
students concepts from mechanical engineering, electronics, computer science, and
artificial intelligence
to build fast and precise machines. Once armed with advanced knowledge of robotics,
control systems,
automation technologies, and machine learning, the students will work toward
state-of-the-art
innovations in industries.
Subjects generally taught in the program include robotic system design, industrial
automation, sensors
and actuators, computer vision, AI for robotics, and advanced control strategies. In
addition to theory,
students go through practical lab work, research projects, and case studies from the
industry to train
their practical skills. Upon completion of the program, graduates are prepared to enter
the workforce in
fields where automation and robotics are shaping the present and future, such as
manufacturing,
healthcare, aerospace, defense, automotive, and research organizations.
Program Structure
What is M. Tech Robotics and Automation curriculum at KL University?
Fundamentals of Mechatronics
Advanced Engineering Mathematics
Sensors and Actuators
Modeling and Simulation of Mechatronic Systems
Elective – 1
Elective – 2
Seminar
Robotics: Advanced Concepts and Analysis
Control of Mechatronic Systems
Mechatronics Product Design
Precision Engineering
Elective – 3
Elective – 4
Term Paper
Dissertation
Signal Processing in Mechatronic Systems
MEMS and NEMS
Vehicle Dynamics and Multi-body Systems
Emerging Smart Materials for Mechatronics Applications
Intelligent Visual Surveillance
Microprocessors and Embedded Systems
Computational Fluid Dynamics
Nonlinear Optimization
Industrial Automation
Fuzzy Sets and Artificial Intelligence
Program Benefits
What are the benefits of M.Tech Robotics and Automation?
The M.Tech Robotics and Automation course opens up a blend of theoretical and
technological
knowledge with industrial practice. It provides a skill set that is basically required
to thrive in automation
design, robotics, intelligent systems, and research activities across the leading
tech-based global careers.
Custom-Made Academic Trajectory: Students may get a technical
specialization in any of the given areas, which include industrial
automation, intelligent robotics, AI-based control systems, or research, so that
they can adjust
to career goals from the industries, academia, or entrepreneurship.
Entrepreneurship Exposure: The program encourages students to
innovate and form robotics startup businesses to come up
with automation solutions in the manufacturing, healthcare, agriculture, and service
sectors.
Preparing for a Career: Learn to design robotic systems, sensors
& actuators, control systems, industrial automation,
machine learning, and AI applications applicable to real-world scenarios. Develop a
technical
and soft skill set required for success in today's cutting-edge engineering
environment.
Global Career Opportunities: Applicants with access to business
standards and technologies in the world are better qualified
to maintain higher education, Ph.D., and international opportunities in their
careers. Students
could be employed by international robotics organizations and laboratories and also
could
undertake higher education abroad.
Industrial Collaborations: Live projects, internships and real-life
problem-solving cases on top of the tie-ups with major
robotics, automation, automotive and manufacturing companies are some of the sources
of
upscale employability and provide students with a first-hand experience of an
industrial
situation.
Research-Led Learning: Working on funded research projects,
participating in joint industry assignments, and producing
publications alongside expert faculty allow graduates to carve out strong research
profiles,
which in turn prepare them for R&D or doctoral-level research.
State-of-the-Art Labs: The labs offer hands-on experience in modern
robotics and automation, along with tools such as
robotic arms, sensors, and simulation platforms. These experiences provide the
much-needed
practical exposure and help to bridge the gap between theory and practice.
Cutting-Edge Curriculum: Taught in the program are high-end topics
such as intelligent robotics, industrial automation,
machine vision, AI for robotics, control systems, and mechatronics. The curriculum
imparts
contemporary knowledge.
Eligibility & Admission Criteria
What are the Eligibility Criteria for M.Tech Robotics and Automation?
Candidates must have passed the BE/B.Tech with a minimum of 55% marks in any
related.
stream like Mechanical Engineering, CSE, EE, ECE, Automation, or related engineering
streams.
Other eligible degrees, like M.Sc in related areas like Automation, Robotics, or
Computer Science, may also be considered.
And also qualify to take the KLEEE or other national level entrance tests.
Fee Structure
What is the fee structure of M.Tech Robotics and Automation at KL University?
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.
Career Scope & Opportunities
What are the career opportunities after an M.Tech Robotics and Automation?
By obtaining an M.Tech Robotics and Automation, it is possible to get access to a
variety of exciting
opportunities in manufacturing, robotics, AI, automation, and intelligent systems within
industries.
AI & ML Engineer
Control Systems Engineer
Embedded Systems Engineer
Automation Engineer
Robotics Engineer
Industrial Robot Programmer
Project Manager - Automation Systems
Product Design & Development Engineer
Mechatronics Specialist
Research & Development (R&D) Engineer
These roles made students contribute to new technologies in industrial automation,
aerospace,
manufacturing, defense, and healthcare robotics.
Frequently Asked Questions (FAQs)
An M.Tech Robotics and Automation program exposes one to the exciting opportunities
in
manufacturing, robotics, AI, automation, and intelligent systems in industries.
Yes, candidates gain hands-on experience with sensors, state-of-the-art labs,
robotic arms,
simulation, and automation platforms. They also take part in internships, research
work, and
industry projects.
Advanced control, robotics system design, AI to robotics, mechatronics, industrial
automation,
computer vision, sensors, and actuators are normally incorporated in the curriculum.
The students will be able to explore the opportunities of the electronic,
manufacturing, defense,
automotive, healthcare, aerospace, and IT industries along with the opportunities in
the
startups and research laboratories.
Always practice through creating small robotics and solving real-life problems.
Improve your
talents by studying higher-order algorithms, becoming a member of robotics clubs,
and studying
open-source projects.
The major trends in Robotics and Automation consist of AI integration, collaborative
robots
(cobots), smart factories with IoT-enabled technology, self-driven vehicles, and
sustainable
automation solutions. Machine learning, edge computing, and human-robot interaction
should
also be considered by students to prepare them to work in the future.
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Helpline : +91 7815901716 , Monday To Saturday -
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