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General Description

History

Qualification Awarded

Level of Qualification

Specific Admission Requirements

Second Cycle Degree in the same or in related disciplines. Acceptable score on ALES (Academic Personnel and Graduate Education Entrance Exam) or Equivalent GRE, GMAT score. Acceptable score on Language Proficiency Tests. Acceptable weighted score based on the first or second cycle (with thesis) cumulative grade point average (GPA) and ALES score. However, ALES requirement is waived for the graduates of doctorate /arts proficiency/medical residency/ dental residency/ veterinary residency/ pharmaceutical residency programs as well as for the admissions to the graduate programs offered by the Conservatory and the departments of Fine Arts Faculty, where students are admitted only by the Artistic Aptitude Test. Final admission is based on the evaluation of the related academic unit committee. International student admission requirements are decided by the Graduate School Executive Committee.

Specific Arrangements for Recognition of Prior Learning (Formal, Non-Formal and Informal)

Qualification Requirements and Regulations

Profile of the Programme

Key Learning Outcomes

1   Increment of knowledge in design, analysis and control of mechatronic systems to the most top level. 2   Increment the skill of experimental study in mechanics, electronics and control to the most top level. 3   Increment the skill of integrating mechanical, electronic and software studies in mechatronic system design to the top level. 4   Attainment of control system design and analysis ability in mechatronic systems. 5   Strengthen the skill of studying in multidisciplinary teams. 6   Attainment the ability of defining and formulizing the mechanical analysis and control problems at the most top level. 7   Provide students with capabilities of measuring and evaluating of electrical and mechanical parameters in mechatronic systems at the most top level. 8   Attainment of ethical consciousness and professional knowledge in reference level to society. 9   Increment in efficient communication skills and technical English to advanced level. 10   Increase the ability of understanding the effects of mechatronic system analysis in universal and social dimensions. 11   Provide the consciousness of lifelong learning in reference level to society. 12   Provide knowledge about today's problems. 13   Advance accomplishments of methods, skills and modern tools which are needed for mechatronics applications, gaining the capabilities of developing new tools and methods. 14   Advance ability to access information. 15   Proven capability in using initiative.

Occupational Profiles of Graduates with Examples

Access to Further Studies

Course Structure Diagram with Credits

T: Theoretical P: Practice L: Laboratory B: Spring Semester G: Fall Semester H: Full Year ALL COURSES Semester No Course Unit Code Course Unit Title Course Unit Type T P L ECTS Z 1 MEE 5017 ADVANCED AUTOMATIC CONTROL REQUIRED 3 0 0 8 Z 2 MEC 5033 SMART SENSORS AND COMMUNICATION PROTOCOLS IN MECHATRONICS ELECTIVE 3 0 0 8 Z 3 MEC 5006 MACHINE VISION IN MECHATRONICS ELECTIVE 3 0 0 7 Z 4 MEC 5008 PNEUMATIC AND HYDRAULIC SYSTEMS IN MECHATRONICS ELECTIVE 3 0 0 7 Z 5 MEC 5009 NEURAL NETWORK APPLICATIONS IN MECHATRONIC SYSTEMS ELECTIVE 3 0 0 8 Z 6 MEC 5010 OPTIMUM DESIGN TECHNIQUES IN MECHATRONICAL SYSTEMS ELECTIVE 3 0 0 8 Z 7 MEC 5011 SIGNAL PROCESSING AND ANALYSIS ELECTIVE 3 0 0 8 Z 8 MEC 5015 SENSORS AND INTERFACING TECHNIQUES ELECTIVE 3 0 0 8 Z 9 MEC 5017 FUZZY LOGIC COMPUTING AND CONTROL ELECTIVE 3 0 0 8 Z 10 MEC 5016 NONLINEAR AND SLIDING MODE CONTROL ELECTIVE 3 0 0 8 Z 11 MEE 5024 NON-LINEAR CONTROL ELECTIVE 3 0 0 9 Z 12 MEC 5031 EMBEDDED SYSTEM ARCHITECTURE ELECTIVE 3 0 0 8 Z 13 MEC 5020 MICROCONTROLLER APPLICATIONS IN MECHATRONICS ELECTIVE 3 0 0 8 Z 14 MEC 5028 DYNAMIC ANALYSIS OF ROBOT MANIPULATORS ELECTIVE 3 0 0 9 Z 15 MEC 5029 COMPUTER AIDED DESIGN AND ANALYSIS ELECTIVE 3 0 0 8 Z 16 MEC 5027 CONTROL OF ROBOT MANIPULATORS ELECTIVE 3 0 0 7 Z 17 MEC 5026 MECHATRONIC APPLICATIONS ON SUSTAINABLE ENERGY SYSTEMS II ELECTIVE 3 0 0 8 Z 18 MEC 5019 MECHATRONIC APPLICATIONS ON SUSTAINABLE ENERGY SYSTEMS I ELECTIVE 3 0 0 8 Z 19 MEC 5021 AUTOMATION SYSTEMS - ACTUATORS ELECTIVE 3 0 0 6 Z 20 MEC 5023 PROCESS CONTROL TECHNIQUES ELECTIVE 3 0 0 7 Z 21 MEC 5018 OPTIMAL CONTROL TECHNIQUES IN MECHATRONICAL SYSTEMS ELECTIVE 3 0 0 8 Z 22 MEC 5025 INTRODUCTION TO MECHATRONICAL SYSTEMS ELECTIVE 3 0 0 7 G 23 FBE 5555 SCIENTIFIC RESEARCH TECHNIQUES AND PUBLICATION ETHICS REQUIRED 3 0 0 5 G 24 MAT 5101 APPLIED MATHEMATICS REQUIRED 3 0 0 9 B 25 MEC 6094 PH.D. SEMINAR SEMINAR 0 3 0 5 B 26 FBE 6666 PHILOSOPHY OF SCIENCE AND ETHICS REQUIRED 3 0 0 5 B 27 MEC 6099 PH.D. THESIS THESIS 0 0 0 150 B 28 MEC 6098 PH.D. RESEARCH EXPERTNESS 3 0 0 9

Examination Regulations, Assessment and Grading

Graduation Requirements

Mode of Study (Full-Time, Part-Time, E-Learning )

Programme Director or Equivalent