M.Tech Mechanical Engineering (Robotics and Automation)

Programme Overview

In today's fast-paced technological environment, the M.Tech in Robotics and Automation at MIT-WPU is designed to address the rising demand for skilled professionals in this field. This program provides a deep understanding of robotics and automation technologies, equipping students with the theoretical knowledge and practical skills required to design, develop, and manage advanced robotic systems and automated processes. Through a curriculum that includes advanced robotics, automation systems, and AI integration, students are prepared to contribute to cutting-edge advancements in artificial intelligence, machine learning, and smart manufacturing.

The programme also emphasises practical experience through hands-on laboratory work, real-world projects, and industry internships, ensuring that graduates are industry-ready. By focusing on innovation and adaptability in the era of Industry 4.0, the M.Tech in Robotics and Automation at MIT-WPU aims to produce experts who will drive technological transformation and shape the future of various industries.

Duration
2 Years

Applications Open for 2025
Programme Name

M.Tech Mechanical Engineering (Robotics and Automation)

Fee Per Year

Rs. 2,05,000

Eligibility

Minimum 50% aggregate score in graduation (4 years) of relevant Engineering Branch from UGC approved University or its equivalent (at least 45% marks, in case of Reserved Class category candidate belonging to Maharashtra State only)
AND
GATE Qualified (Obtained a positive score in GATE 2025 / 2024 / 2023) /MIT-WPU CET 2025 /PERA CET 2025
OR
Sponsored Candidate (Need 2 years of work experience after graduation, in a field related to graduation).

Selection Criteria

The Selection process for this Programme is based on the merit of MIT-WPU CET 2025 score/ PERA CET 2025 score or GATE 2025/ 2024/ 2023 score & Personal Interaction conducted by MIT-WPU.
For admission under sponsored category, candidate should have a minimum two years of full time work experience in a registered firm/ company/ industry/ educational and/or research institute / any Government Department or Government Autonomous Organization in the relevant field in which admission is sought. Sponsorship Certificate is mandatory for the admission.
(The exact date and time of the online Examination and Personal Interaction will be communicated to the candidate once scheduled.) *Note: MIT-WPU retains the right to make changes to any published schedule. Any other criterion declared from time to time by the appropriate authority as defined under the Act.

Programme Highlights
  • Integrated Mechanical Engineering Expertise : Apply advanced mechanical engineering knowledge and tools with a multi-disciplinary approach to tackle real-world challenges in robotics and automation.
  • Leadership and Professional Growth : Prepare to lead in professional settings, with opportunities to engage in research, innovation, or entrepreneurship within the field.
  • Ethical and Collaborative Learning : Foster ethical values, teamwork, and a commitment to lifelong learning, ensuring a well-rounded educational experience that supports both personal and professional development.
  • Hands-On Experience : Gain practical experience through cutting-edge laboratory work, real-world projects, and industry internships to enhance your technical skills and readiness for the industry.
  • Innovative Curriculum : Benefit from a curriculum that integrates the latest advancements in robotics, AI, and automation technologies, aligning with Industry 4.0 trends and demands.
Programme Outcomes
  • An ability to apply knowledge of mathematics, science, and engineering for the solution of complex Mechanical engineering problems.
  • An ability to identify, formulate and analyse complex engineering problems leading to substantiated conclusions through reviewing literature and applying first principles of mathematics, natural sciences and engineering sciences.
  • An ability to obtain a feasible solution to complex Mechanical engineering problems through design of a system, component or process to meet desired needs within realistic constraints such as economic, environmental, health, safety and sustainability.
  • An ability to conduct investigations of complex problems.
  • An ability to use techniques, skills and modern engineering tools for modelling and simulation of complex engineering activities.
  • An ability to apply contextual knowledge for the assessment of health, safety, societal and regulatory issues relevant to the engineering practice.
  • An ability to understand the impact of engineering solutions in a global, economic, environmental and societal context and need for sustainable development.
  • An ability to become a responsible professional following ethical principles and norms of the engineering practice.
  • An ability to function effectively in the professional environment as an individual and as a member or leader of multidisciplinary teams.
  • An ability to communicate effectively on complex engineering activities with the engineering community and society at large.
  • An ability to apply engineering and management principles in multidisciplinary projects.
  • Recognition of the need for, and an ability to engage in life−long learning to keep abreast with the emerging technologies.
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