Mechatronics and Intelligent Machines Engineering Program (MIM)

Program Description
The Bachelor of Science in Mechatronics and Intelligent Machines Engineering is an interdisciplinary program integrating mechanical engineering, electronics, control systems, robotics, artificial intelligence, and embedded computing to design, analyze, and operate intelligent electromechanical systems.
The program emphasizes smart systems, automation, robotics, Industry 4.0, and cyber-physical systems, preparing graduates to develop innovative solutions for modern industrial, medical, and autonomous applications. It combines strong theoretical foundations with hands-on laboratory work, design projects, and real-world problem-solving across multidisciplinary domains.
This aligns with modern mechatronics curricula that integrate mechanical systems, electronics, control, and computing into unified intelligent systems.

Program Educational Objectives (PEOs)
Within 3–5 years after graduation, graduates of the program will:
PEO-1: Technical Competence & Career Success
Apply integrated knowledge of mechatronics, AI, and intelligent systems to solve complex engineering problems and advance in their professional careers across diverse industries.
PEO-2: Innovation, Research & Entrepreneurship
Engage in innovation, research, and entrepreneurial activities, developing intelligent machines and smart technologies that address societal and industrial needs.
PEO-3: Leadership & Professional Practice
Demonstrate leadership, teamwork, and effective communication in multidisciplinary environments while adhering to ethical and professional standards.
PEO-4: Lifelong Learning & Adaptability
Pursue continuous learning, advanced studies, and professional development to adapt to emerging technologies and evolving engineering challenges.
These objectives are consistent with global frameworks emphasizing career advancement, ethics, leadership, and lifelong learning in mechatronics graduates.

Program Learning Outcomes (PLOs)
(Aligned with ABET Student Outcomes and Mechatronics Context)
By the time of graduation, students will be able to:

Engineering Knowledge and Problem-Solving
PLO-1: Apply mathematics, science, engineering fundamentals, and AI principles to model and solve complex mechatronics problems.
PLO-2: Identify, formulate, and analyze complex engineering problems involving mechanical, electrical, and intelligent systems.

Design and Development
PLO-3: Design integrated mechatronic and intelligent systems that meet specified needs considering safety, sustainability, and economic constraints.
PLO-4: Develop and implement embedded systems, control algorithms, and AI-based solutions for automation and robotics.

Experimentation and Tools
PLO-5: Design and conduct experiments; analyze and interpret data to improve system performance.
PLO-6: Use modern engineering tools, simulation platforms, and digital technologies effectively.

Professional Skills
PLO-7: Function effectively as an individual, team member, or leader in multidisciplinary environments.
PLO-8: Communicate effectively with diverse audiences using technical and digital communication tools.

Ethics, Society and Sustainability
PLO-9: Recognize ethical and professional responsibilities and evaluate the societal, environmental, and economic impacts of engineering solutions.

Lifelong Learning and Innovation
PLO-10: Engage in independent learning and adapt to emerging technologies such as AI, IoT, and smart manufacturing.
PLO-11: Apply innovation and entrepreneurial thinking in developing intelligent machines and systems.