Total no. of
Recruiters
Fortune 500 Companies
Lakhs
Highest Package
MNCs
A Glimpse Of Our
Program
The MTech program in Automotive Engineering is a multi-disciplinary program with the objective of inculcating advanced skills required to design and develop software defi ned vehicles.
The department has the necessary infrastructure to guide budding engineers to become experts in the design and development of hybrid and electric vehicles, and impact the necessary skill set for designing Advanced Driver Assistance Systems (ADAS).
M.Tech. in Automotive
Engineering
Bachelors in Mechanical Engineering, Mechatronics, Electrical and Electronics and Production Engineering.
Two Years
Crafting Your
Professional Journey
Total no. of Recruiters
Fortune 500 Companies
Highest Package
MNCs
Total no. of Recruiters
Fortune 500 Companies
Highest Package
MNCs
Total no. of Recruiters
Fortune 500 Companies
Highest Package
MNCs
AARTC
AARTC is established to facilitate basic and applied research projects along with the industry and government agencies. It also off ers engineering services to the automotive industry to establish an active and fruitful University–Industry Interaction. It houses the state-of-art facilities for automotive research in areas specializing in IC Engine testing, Electric Vehicle (EV) and Hybrid Powertrain testing, motor testing, vehicle electronics and vehicle dynamics and simulation. The centre’s multidisciplinary approach drives innovation, signifi cantly contributing to the evolution of automotive systems, sustainable mobility, and the future of transportation.
The NVH Lab is a specialized center for analyzing and mitigating noise, vibration, and harshness (NVH) issues in automotive systems, using advanced instrumentation and testing methods. Equipped with the HEAD lab data acquisition system, it enables high-precision sound and vibration measurement, supporting diverse research techniques like Modal Analysis, Acoustic Testing, and Finite Element Analysis for innovative vehicle design.
In order to reduce the cost of development, every manufacturer tries to simulate various driving conditions. In tune with that our curriculum also includes IPG carmaker and Matlab along with other CAE packages like ANSYS, COMSOL and ADAMS included in it. IPG car maker is used to simulate the driving conditions by creating various car model, scenarios and environment
In collaboration with Robert Bosch, the Automotive Electronics Lab stands as a pinnacle of advanced research and practical learning within our institution. This collaboration brings forth a cutting-edge facility that offers students an unparalleled opportunity to delve deep into automotive electronics (Controllers, Battery pack design, ECU, MCU simulations etc) and seamless system integration. Beyond theoretical teachings, this lab provides a hands-on platform for students to explore, experiment, and innovate.
Advanced Driver Assistance System lab consists of sensors and processors which are used to collecting the data and processing it. The current setup consists of Velodyne puck 32 – Lidar, Stereo vision camera – Zdd, Micro autobox from dspace, Opal-RT HIL system and IPG HIL System.
The system work together to measure, analyze, and provide insights into noise across various frequencies.
This machine is a high-performance testing device used to measure power, torque, and efficiency in large machines or engines.
The 160 kW Transient Dynamometer is designed to measure power, torque, and dynamic performance in testing applications involving rapid load changes.
The 225 kW chassis dynamometer at AARTC is designed for testing automatic vehicles, focusing on performance, calibration, coast-down trials, emissions, and supporting sustainability and alternative fuel technologies for EVs and HVS.
The MEXA-ONE Emission Measurement System by Horiba accurately measures and analyzes vehicle emissions, ensuring compliance with BS VI and above environmental standards.
The IMC Data Acquisition System at our facility collects and processes analog and digital data across 40 channels, enabling precise measurements and seamless integration for automotive research and testing.
An FFT Analyzer for vibration measurement converts time-domain vibration signals into frequency-domain data to identify specific vibration frequencies, aiding in fault detection and condition monitoring.
Battery pack design for electric vehicles involves optimizing the configuration, capacity, and safety of battery cells to ensure efficient energy storage, performance, and longevity for EV applications.
IPG CarMaker is a simulation software used for developing and testing vehicle models in virtual environments.
M.Tech. in Automotive
Engineering
Amenities and Resources Available Across our Campuses
Polymer Processing Equipment
Oscillating Disc Rheometer
Atomic Force Microscopes
Fourier – Transform Infrared (FTIR) Instruments
Universal Testing Machine
Near Infrared Spectrometer
Differential scanning calorimetry
Field Emission Scanning Electron Microscopes)
Atomic Force Microscopes
X-Ray Diffractometer
Gas chromatography–mass spectrometry
Thermogravimetry/Differential Thermal Analyzer
The program comprises core courses, providing fundamental knowledge essential to the program’s objectives. Additionally, students can choose elective courses based on their individual learning preferences and specialized interests within the realm of automotive engineering. Alongside these courses, students complete a substantial project consolidating their learning, and applying acquired knowledge to real-world scenarios.
The Complete Guide
To Our Program
The MTech program in Automotive Engineering is a multi-disciplinary program to inculcate advanced skills required to design and develop software defi ned vehicles
top reasons to choose
Amrita for your career
top reasons to choose
Amrita for your career
The M.Tech. in Automotive Engineering at Amrita is a multi-disciplinary program that equips students with advanced skills in designing and developing software-defined vehicles, electric and hybrid systems, and ADAS technologies. With strong industry collaborations and state-of-the-art research facilities, the program ensures students gain hands-on expertise and industry-relevant knowledge.
Candidates must have a B.E./B.Tech. degree in Mechanical Engineering, Mechatronics, Electrical and Electronics Engineering, or Production Engineering from a recognized institution. Admissions are based on academic performance and entrance test scores as per university guidelines.
Graduates can pursue careers in automotive R&D, vehicle design, electric and hybrid powertrain development, advanced driver assistance systems (ADAS), and autonomous vehicle technology. Opportunities exist in leading automotive companies, research organizations, and government agencies working in sustainable mobility and smart transportation.
The program integrates theoretical knowledge with practical training through industry-driven projects, lab sessions, and research collaborations. Students work on real-world automotive challenges at Amrita Automotive Research and Technology Centre (AARTC) and labs such as the NVH Lab, ADAS Lab, and Automotive Electronics Lab in collaboration with Bosch and other industry partners.
Students can explore research in areas such as electric and hybrid vehicles, vehicle dynamics, battery pack design, autonomous driving, artificial intelligence in automotive systems, and sustainable transportation technologies. The program also encourages interdisciplinary research integrating machine learning, cybersecurity, and IoT in vehicle systems.
Yes, students have access to state-of-the-art labs including:
Yes, Amrita has strong industry tie-ups with Bosch, Tata Technologies, Mercedes-Benz, ISRO, DRDO, and other leading organizations. Students get opportunities for internships, research projects, and industrial training in cutting-edge automotive technologies.
The M.Tech. in Automotive Engineering is a two-year full-time program divided into four semesters, including coursework, electives, research projects, and a final dissertation.
The program incorporates industry-standard tools and simulation software, including:
The program focuses on emerging trends in automotive engineering, including software-defined vehicles (SDVs), AI-powered autonomous systems, EV powertrain development, ADAS technologies, and smart mobility solutions. With a strong emphasis on research, industry exposure, and skill development, graduates are well-prepared for the next-generation automotive landscape.
top reasons to choose
Amrita for your career
The Complete Guide
To Our Program
Students acquire a diverse set of specialized skills poised to shape their professional journey. These skills, meticulously cultivated throughout the program, seamlessly intertwine with an array of career prospects across the
automotive industry partners and have hands-on experience which translate into promising career opportunities.
he MTech program in Automotive Engineering is a multi-disciplinary program with the objective of inculcating
advanced skills required to design and develop software defined vehicles.
Software-Driven Approach | Opens avenues as an EV Systems Engineer or Software Developer in Automotive OEMs, focusing on software-centric vehicle design and development |
Advanced Driver- Assistance Systems (ADAS) | Leads to opportunities as an ADAS Engineer, focusing on the development of safety features for vehicles |
loT Integration and Embedded System | Facilitates careers as an loT Solutions Architect or Vehicle Connectivity Special- ist, spearheading loT integration and embedded systems in electric vehicles, Digital twin development |
Autonomous Systems Understanding | Navigates paths toward becoming an Autonomous Vehicle Software Engineer, contributing to the development of self. driving technologies |
Electric Mobility Expertise | Leads to roles as a EV designer, Battery Management Engineer or Electric Vehicle Specialist, harnessing expertise in electric mobility technologies and systems |
Cybersecurity Awareness | Opens doors as a Cybersecurity Specialist in the automotive industry, ensuring robust cybersecurity measures within connected vehicles |
Research and Innovation | Paves the way for roles as a Research and Development Specialist or Technology Consultant, contributing to cutting-edge innovations in the automotive sector |
Collaboration and Prolem-Solving | Positions individuals as Team Leads in Automotive Innovation
Projects, leveraging collaborative problem-solving skills for impactful solutions |
International opportunities | Student Exchange programs / Study abroad programs / Dual Degree / Research Internship Programs |
At Amrita, our placement record has consistently been outstanding. Eligible students participating in placements typically receive an average of more than one job off er, with some securing up to three off ers by course
completion. This underscores our commitment to off ering excellent opportunities for students to secure coveted employment prospects.Selected (ever-growing) list of our recruiters are given below
M.Tech. in Automotive
Engineering