Second Cycle Programmes    (Master's Degree)
II. Master (non-thesis EE) - Institute for Graduate Studies in Pure and Applied Sciences - Mechatronics - Mechatronics
General Description  |  Key Learning Outcomes  |  Course Structure Diagram with Credits
General Description ^
History
Non-Thesis Master Program in Mechatronics of Marmara University, Institute for Graduate Studies in Pure and Applied Sciences has started to training in fall Semester, in 2002-2003.
Qualification Awarded
Who successfully complete the graduate Program in Mechatronics is qualified to have an MSc Diploma.
Specific Admission Requirements
To have a Bachelor's Degree in these fields: Mechatronics Technology in Training, Mechanical Technology in Training, Metal Works Technology in Training, Electrical Works Technology in Training, Electronics Technology in Training, Computer Technology in Training, Mechatronics Engineering, Mechanical Engineering, Metallurgy Engineering, Electrical Engineering, Electronics Engineering, Computer Engineering, Control Engineering, Production Engineering, Aircraft Engineering, Environmental Engineering; to receive from ALES (Academic Personal and Graduate Education Entrance Examination) at least 60 points, to receive ÜDS (Language Examination Among Turkish Universities) or equivalent English Exam at least 30 points.
Specific Arrangements For Recognition Of Prior Learning (Formal, Non-Formal and Informal)
Turkish higher education institutions are at early stage in the process of recognition of prior learning yet. For this reason, all the programs in Marmara University are not fully initialized.
Qualification Requirements and Regulations
Who succesfully completed the 30 credits courses (at least 10 courses) from the Graduate Program or from the related other Programs, who is successful for Semester Project course and finally who gets a score at least 2.50 weighted GPA of 4.00 is awarded bu a Master of Science degree in the field of Mechatronics.
Profile of The Programme
The aim of Mechatronics Master of Science program (non-thesis) is to provide a high-quality theoretical and practical education interested in mechatronics based on their interests and their study fields to teh people having technological undergraduate background. The priority target is to train the academicians and people who will be adapted to new technologies, and will carry out the current and technological knowledge in the working life.
Occupational Profiles of Graduates With Examples
There are three groups for the working areas of the graduates: Vocational and technical training sector employees (academics and technical trainers), public and private sector employees and having own jobs. Some of our graduates serve as design and application focused in various public an private sector companies and factories. Our graduates are mostly prefer working in the automotive, automation and robotics companies and factories. These are some companies and training our graduates have been working: Festo, Ford Otomotiv, Aymaksan, FIAT, Toyota, SICK, Hilton, Mercedes Benz, Kontek Otomasyon, Gedik Kaynak, Erba Makine, Mega Danismanlik, ITU, Marmara Universitesi, Yeditepe Universitesi, Bahcesehir Universitesi, Celal Bayar Universitesi, Arel Universitesi, the technical and vocaitonal high schools for MEB.
Access to Further Studies
Candidates who have successfully completed the MsC degree and students who receive sufficient score from ALES (Academic Personal and Graduate Education Entrance Examination) and sufficient knowledge in English language can apply PhD programs.
Examination Regulations, Assessment and Grading
Measurement and evaluation process for each course is described in detail in the teaching plan of the related courses.
Graduation Requirements
The student who successively completes the 30 credits courses, and finally who is successful for Semester Project course in Mechatronics Master Program (with thesis) is graduated.
Mode of Study (Full-Time, Part-Time, E-Learning )
Full-Time
Address, Programme Director or Equivalent
Marmara University, Institute of Pure and Applied Sciences, Program Head of Mechatronics, Goztepe Campus, Postal code: 34722 Kadikoy - Istanbul, TURKEY, Phone: + 90 (216) 336 57 70 ext: 653, Fax: + 90 (216) 337 89 87
Facilities
There are totally 15 academicians including 3 Professors, 3 Associate Professors, 7 Assistant Professors and 2 Research Assistants at Master (non-thesis) Mechatronics Program. There are 15 laboratories endowed by modern experiment sets, measurement and test devices in the Mechatronics Department. Applied training has been given compatible with industry needs and cooperation with the industry by G100 - CNC Lab., G101 - Spectrofotometer and Diffractometer Lab., G102 - Material Preparation and Cooling Lab., G103 - CIM Lab., G201 - Pneumatics Lab., G202 - Hydraulics Lab., G203 - CAD CAM Design Lab., G300 - Electrical-Electronics 1 Lab., G301 - Automotive Mechatronics Lab., G302 - Electrical-Electronics 2 Lab., G302a - Process Control Lab., G306 - Data Acquisition Lab.
Key Learning Outcomes ^
1 Apply skill of mathematic, science and applied engineering and technological knowledge to problems of mechatronics application enginering
2 Definition and solving skill of mechatronics technology and application problems in related fields
3 Putting into practice skill of designed a duration in oriented a described target
4 Giving an education intended for expertness and making application considering influences of engineering applications in globular and social frame to health, security and environment subjects
5 Analyzing of data, designing and making experiment, explication skill for results
6 Using skill of calculation tools and contemporary techniques in engineering applications
7 Skill of making team work between in-discipline and out-discipline
8 Behaving independent, using initiative, doing application, and skill of solving problems in application
9 Approach skill to applications with mechatronics philosophy
10 Working skill in needed discipline for mechatronics technologicals
Course Structure Diagram with Credits ^
T : Theoretical P: Practice
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MKT-S1,2,3-TZ Elective - 1-2-3 Elective 9 0 18
2 MKT-Z1,2-TZ Core - 1-2 Elective 6 0 12
Total 15 0 30
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MKT798 Semester Project Compulsory 0 1 5
2 MKT-S4,5,6-TZ Elective - 4-5-6 Elective 9 0 15
3 MKT-Z3,4-TZ Core - 3-4 Elective 6 0 10
Total 15 1 30
Elective
1 . Semester > MKT-S1,2,3-TZ Elective - 1-2-3
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MKT701 Advanced Mathematics Compulsory 3 0 6
2 MKT703 Design and Analysis in Mechatronics Compulsory 3 0 6
3 MKT705 Communication Systems in Mechatronics Compulsory 3 0 6
4 MKT711 Introduction to Mechatronics Technology Compulsory 3 0 6
5 MKT713 Organizational Management Compulsory 3 0 6
6 MKT715 Theory and Application of Automotive Mechatronics Compulsory 3 0 6
7 MKT721 Industrial Automation and Communication Compulsory 3 0 6
8 MKT725 Motion Control and Power Transformation Compulsory 3 0 6
9 MKT729 Electric Machinery Application in Mechatronics Systems Compulsory 3 0 6
10 MKT731 Fundamentals of Electric  and Electronic Circuit Components and Applications Compulsory 3 0 6
11 MKT733 Application and Control of Special Electrical Motors in Mechatronics Systems Compulsory 3 0 6
12 MKT735 industrial Automation and Robotic technology Compulsory 3 0 6
13 MKT737 Servo-pneumatic and Servo-hydraulic Compulsory 3 0 6
14 MKT739 Advanced Manufacturing Techniques in Mechatronics Compulsory 3 0 6
15 MKT741 Special Topics in Mechatronics I Compulsory 3 0 6
16 MKT754 Biomechatronics System Design Compulsory 3 0 6
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MKT701 Advanced Mathematics Compulsory 3 0 6
2 MKT705 Communication Systems in Mechatronics Compulsory 3 0 6
3 MKT710 Finite Element Application in Design Compulsory 3 0 6
4 MKT711 Introduction to Mechatronics Technology Compulsory 3 0 6
5 MKT734 Mechatronics System and Control Compulsory 3 0 6
6 MKT735 industrial Automation and Robotic technology Compulsory 3 0 6
7 MKT736 Design Principles in Mechatronics Compulsory 3 0 6
2 . Semester > MKT-S4,5,6-TZ Elective - 4-5-6
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MKT701 Advanced Mathematics Compulsory 3 0 5
2 MKT703 Design and Analysis in Mechatronics Compulsory 3 0 5
3 MKT705 Communication Systems in Mechatronics Compulsory 3 0 5
4 MKT706 Advanced Measurement Techniques in Mechatronics Compulsory 3 0 5
5 MKT710 Finite Element Application in Design Compulsory 3 0 5
6 MKT711 Introduction to Mechatronics Technology Compulsory 3 0 5
7 MKT713 Organizational Management Compulsory 3 0 5
8 MKT715 Theory and Application of Automotive Mechatronics Compulsory 3 0 5
9 MKT721 Industrial Automation and Communication Compulsory 3 0 5
10 MKT725 Motion Control and Power Transformation Compulsory 3 0 5
11 MKT729 Electric Machinery Application in Mechatronics Systems Compulsory 3 0 5
12 MKT730 Visual Programming Compulsory 3 0 5
13 MKT731 Fundamentals of Electric  and Electronic Circuit Components and Applications Compulsory 3 0 5
14 MKT732 Process Dynamics and Control Compulsory 3 0 5
15 MKT733 Application and Control of Special Electrical Motors in Mechatronics Systems Compulsory 3 0 5
16 MKT734 Mechatronics System and Control Compulsory 3 0 5
17 MKT735 industrial Automation and Robotic technology Compulsory 3 0 5
18 MKT736 Design Principles in Mechatronics Compulsory 3 0 5
19 MKT737 Servo-pneumatic and Servo-hydraulic Compulsory 3 0 5
20 MKT738 Micro Machine Design Compulsory 3 0 5
21 MKT739 Advanced Manufacturing Techniques in Mechatronics Compulsory 3 0 5
22 MKT740 Mechatronics System Design Compulsory 3 0 5
23 MKT741 Special Topics in Mechatronics I Compulsory 3 0 5
24 MKT742 Special Topic in Mechatronics II Compulsory 3 0 5
25 MKT754 Biomechatronics System Design Compulsory 3 0 5
No Course Unit Code Course Unit Title Type of Course T P ECTS
1 MKT701 Advanced Mathematics Compulsory 3 0 5
2 MKT705 Communication Systems in Mechatronics Compulsory 3 0 5
3 MKT710 Finite Element Application in Design Compulsory 3 0 5
4 MKT711 Introduction to Mechatronics Technology Compulsory 3 0 5
5 MKT734 Mechatronics System and Control Compulsory 3 0 5
6 MKT735 industrial Automation and Robotic technology Compulsory 3 0 5
7 MKT736 Design Principles in Mechatronics Compulsory 3 0 5

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