Department of Mechatronic Engineering

Department of Mechatronic Engineering

Motto          

“Mechatronics – Improving the Quality of Life

Department of Mechatronic Engineering

History

    The Department of Mechatronic Engineering in Technological University(Mandalay) was founded in 1999 and B-Tech (Mechatronics) and B.E. (Mechatronics) courses were introduced since then. The degree of B-Tech was conferred in 2004 and B.E. (Mechatronics) was conferred in 2005. The degree of M.E. (Mechatronics) was started to confer in 2007. The programmed conferred in the Department of Mechatronic Engineering are followings:

  • Bachelor of Technology (Mechatronics) – *(It is stopped in 2012)
  • Bachelor of Engineering (Mechatronics)
  • Master of Engineering (Mechatronics)

Vision

To produce brilliant Mechatronics Engineers with the base of modern theoretical and practical curriculum.

Mission

  • Studying of the practical requirement and leaning of the international Mechatronic Engineering course and to perform the activities of practical teaching.
  • To upgrade the ability of teacher’s activities.
  • Identify new learning environments and complete teaching aids.
  • To be an engineer who can generate the sophisticated technology based on science and technology known
  • To create opportunities, encourage innovation and research activities.

Objectives

  • Students who are attending at the undergraduate courses must success with the rate of more than 80%. No more than 5% of customer complaints.

Degree Awards

  • Bachelor of Engineering B.E (Mechatronics)
  • Master of Engineering M.E (Mechatronics)

Research Area and Field

  • Robotics
  • Control
  • Automatoin

Latest Research, Project, Field and other Activities

  • Automatic Fruit Classification using 4Dof Robotic Arm with Machine Vision
  • SCADA-Based Simulation for Thermal Power Plant Automation System
  • ROS2-Based Autonomous Waitress Robot Using LiDAR Implementation of Unmanned Aerial Vehicle
  • Design and Construction of STAR Robot
  • Real Time Leaf Disease Classification with Deep Learning
  • Multi-person Human Pose Estimation and Activity Recognition Using Deep Learning
  • PID-Based Reaction Wheel Driven Balancing Bike
  • PLC-Based Liquid Mixing and Filling System
  • PLC-Based Automatic Height Sorting System

Laboratories and Workshops

  • Control Theory Lab
  • Computer Lab
  • Robotics Manipulator Lab
  • Electronic Circuit and Fabrication Lab
  • PLC Lab
  • Factory Automation Lab

Activities

Curriculum for Bachelor of Mechatronic Engineering

B.E. Year I

Semester I

Learning time (in hours) and Estimating SLT credit for a course:
Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 M 11011 Myanmar 30 0 0 30 30 60 1
2 E 11011 English 30 15 0 45 45 90 2
3 EM 11011 Engineering Mathematics I 60 15 0 75 75 150 3
4 Ph 11011 Engineering Physics I 30 15 30 75 75 150 3
5 Ch 11011 Engineering Chemistry I 45 15 30 90 90 180 4
6 ME 11011 Basic Engineering Drawing 15 0 30 45 45 90 2
7 McE 11011 Introduction to Mechatronics I 30 15 0 45 45 90 2
Total 240 75 90 405 405 810 17
Student learning time (SLT) per wk 16 5 6 27 27 54

Notes: 1. * F2F = Face-to-Face 2. ** self- learning will include learning from self-learning modules and any additional non F2F hours self-learning and preparation for lecture/ lab, / tutorial and test and evaluation

Semester II

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 M 12011 Myanmar 30 0 0 30 30 60 1
2 E 12011 English 30 15 0 45 45 90 2
3 EM 12012 Engineering Mathematics II 60 15 0 75 75 150 3
4 Ph 12011 Engineering Physics II 30 15 30 75 75 150 3
5 Ch 12011 Engineering Chemistry II 45 15 30 90 90 180 4
6 ME 12011 Basic Engineering Drawing 15 0 30 45 45 90 2
7 McE 12011 Introduction to Mechatronics II 30 15 0 45 45 90 2
Total 240 75 90 405 405 810 17
Student learning time (SLT) per wk 16 5 6 27 27 54
B.E. Year II

Semester I

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 E 21011 English 30 15 0 45 45 90 2
2 EM 21013 Engineering Mathematics III 60 15 0 75 75 150 3
3 McE 21016 Engineering Circuits Analysis I 30 0 30 60 60 120 3
4 McE 21012 Factory Control Engineering I 30 0 30 60 60 120 3
5 McE 21015 Engineering Mechanics I 30 15 0 45 45 90 2
6 McE 21019 Computer Science and Programming I 30 0 15 45 45 90 2
7 ME 21012 Workshop Technology I 15 0 30 45 45 90 2
Total 225 45 105 375 375 750 17
Student learning time (SLT) per wk 15 3 7 25 25 50

Semester II

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 E 22011 English 30 15 0 45 45 90 2
2 EM 22014 Engineering Mathematics IV 60 15 0 75 75 150 3
3 McE 22016 Engineering Circuits Analysis II 30 0 30 60 60 120 3
4 McE 22012 Factory Control Engineering II 30 0 30 60 60 120 3
5 McE 22015 Engineering Mechanics II 30 15 0 45 45 90 2
6 McE 22019 Computer Science and Programming II 30 0 15 45 45 90 2
7 ME 22012 Workshop Technology II 15 0 30 45 45 90 2
Total 225 45 105 375 375 750 17
Student learning time (SLT) per wk 15 3 7 25 25 50
B.E. Year III

Semester I

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 E 31011 English 30 15 0 45 45 90 2
2 EM 31015 Engineering Mathematics V 60 15 0 75 75 150 3
3 McE 31026 Electronic Devices I 30 0 15 45 45 90 2
4 McE 31036 Digital Electronics I 30 0 15 45 45 90 2
5 McE 31032 Electrnical Machine and Control I 30 0 15 45 45 90 2
6 McE 31022 Programmable Logic Controller I 30 0 30 60 60 120 3
7 McE 31034 Material Science and Strength of Material I 30 0 15 45 45 90 2
Total 240 30 90 360 360 720 16
Student learning time (SLT) per wk 16 2 6 24 24 48

Semester II

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 E 32011 English 30 15 0 45 45 90 2
2 EM 32016 Engineering Mathematics VI 60 15 0 75 75 150 3
3 McE 32026 Electronic Devices II 30 0 15 45 45 90 2
4 McE 32036 Digital Electronics II 30 0 15 45 45 90 2
5 McE 32032 Electrnical Machine and Control II 30 0 15 45 45 90 2
6 McE 32022 Programmable Logic Controller II 30 0 30 60 60 120 3
7 McE 32034 Material Science and Strength of Material II 30 0 15 45 45 90 2
Total 240 30 90 360 360 720 16
Student learning time (SLT) per wk 16 2 6 24 24 48
B.E. Year IV

Semester I

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 E 41011 English 30 15 0 45 45 90 2
2 EM 41017 Engineering Mathematics VII 60 15 0 75 75 150 3
3 McE 41025 Theory of Machine I 30 15 0 45 45 90 2
4 McE 41035 Design of Machine Elements I 30 15 0 45 45 90 2
5 McE 41017 Modeling and Control I 30 0 15 45 45 90 2
6 McE 41026 Power Electronics I 30 0 15 45 45 90 2
Total 210 60 30 300 300 600 13
Student learning time (SLT) per wk 14 4 2 20 20 40

Semester II

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 E 42011 English 30 15 0 45 45 90 2
2 EM 42018 Engineering Mathematics VIII 60 15 0 75 75 150 3
3 McE 42025 Theory of Machine II 30 15 0 45 45 90 2
4 McE 42035 Design of Machine Elements II 30 15 0 45 45 90 2
5 McE 42017 Modeling and Control II 30 0 15 45 45 90 2
6 McE 42026 Power Electronics II 30 0 15 45 45 90 2
Total 210 60 30 300 300 600 13
Student learning time (SLT) per wk 14 4 2 20 20 40
B.E. Year V

Semester I

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 McE 51018 Industrial Management I 30 15 0 45 45 90 2
2 McE 51017 Modern Control System I 30 0 15 45 45 90 2
3 McE 51021 Robotic Analysis I 30 15 0 45 45 90 2
4 McE 51051 Machine Vision I 30 15 0 45 45 90 2
5 McE 51027 Fuzzy Logic I 30 15 0 45 45 90 2
6 McE 51039 Flexible Manufacturing System and Automatic Control 30 15 0 45 45 90 2
7 McE 51029 Microprocessor and Microcontroller I 30 0 15 45 45 90 2
Total 210 75 30 315 315 630 14
Student learning time (SLT) per wk 14 5 2 21 21 42

Semester II

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 McE 52018 Industrial Management II 30 15 0 45 45 90 2
2 McE 52017 Modern Control System II 30 0 15 45 45 90 2
3 McE 52021 Robotic Analysis II 30 15 0 45 45 90 2
4 McE 52051 Machine Vision II 30 15 0 45 45 90 2
5 McE 52027 Fuzzy Logic II 30 15 0 45 45 90 2
6 McE 52039 Flexible Manufacturing System and Automatic Control 30 15 0 45 45 90 2
7 McE 52029 Microprocessor and Microcontroller II 30 0 15 45 45 90 2
Total 180 60 30 270 270 630 14
Student learning time (SLT) per wk 12 4 2 18 18 42
B.E. Year VI

Semester I

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 McE 61031 Mechatronic System Design 30 15 0 45 45 90 2
2 McE 61028 Quality Control 30 15 0 45 45 90 2
3 McE 61021 Robotic Analysis III 30 15 15 60 60 120 3
4 HSS 61011 Humanities and Social Science 30 15 0 45 45 90 2
Total 120 60 15 195 195 390 9
Student learning time (SLT) per wk 8 4 1 13 13 26

Semester II

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 Attachment Programme ATTACHMENT PROGRAMME at suitable Design Office/ Construction Site / Industrial etc. The student must submit diary, report and recommendation of the supervisor of the Attachment Program (at training Place), and take Viva voce exam. If not satisfactory, the student must supplement the program until his/her work is satisfactory. Otherwise, the student will not be conferred the degree. No credit point will be assigned to this program. 0 0 0 0 0 0 4
2 Mini Thesis / Research Report Mini Thesis / RESEARCH REPORT 0 0 0 0 0 0 9
Total 0 0 0 0 0 0 13
Student learning time (SLT) per wk 0 0 0 0 0 0
Summary
Year Semester SLT/Week (Hrs) SLT Credit
B.E. Year I Semester I 54 17
Semester II 54 17
B.E. Year II Semester I 50 17
Semester II 50 17
B.E. Year III Semester I 48 16
Semester II 48 16
B.E. Year IV Semester I 40 13
Semester II 40 13
B.E. Year V Semester I 42 14
Semester II 42 14
B.E. Year VI Semester I 26 9
Semester II
Sub Total 494 163
Final Year Project 9
Industrial Training 4
Grand Total 176

Remarks

Accordimg to the EEAC Manual 2018
Final Year Project = minimum of 6 SLT credits and maximum of 12 SLT credits
Industrial Training = maximum of 6 SLT credits

Semester II

Learning time (in hours) and Estimating SLT credit for a course:

Sr. No Code Courses Traditional (Guided) in class learning activities Total SLT Credit
Lecture Tutorial Practical
*F2F F2F F2F F2F Non F2F SLT
F2F
1 Attachment Programme ATTACHMENT PROGRAMME at suitable Design Office/ Construction Site / Industrial etc. The student must submit diary, report and recommendation of the supervisor of the Attachment Program (at training Place), and take Viva voce exam. If not satisfactory, the student must supplement the program until his/her work is satisfactory. Otherwise, the student will not be conferred the degree. No credit point will be assigned to this program. 0 0 0 0 0 0 4
2 Mini Thesis / Research Report Mini Thesis / RESEARCH REPORT 0 0 0 0 0 0 9
Total 0 0 0 0 0 0 13
Student learning time (SLT) per wk 0 0 0 0 0 0

Technological Universities Courses Offered by the Department of Mechatronic Engineering for Master of Mechatronic Engineering (McE)

First Semester
Sr. No Code Courses Periods per week Credit Points
L T P Total
1 E 71001 English 3 1 0 4 3.5
2 EM 71009 Advance Engineering Mathematics 4 0 0 4 4
3 McE 71037 Digital Control System Analysis and Design 4 0 0 4 4
4 McE 71021 Industrial Robotics 4 0 0 4 4
5 McE 71038 Process Control Instrumentation Technology 4 0 0 4 4
Total 19 1 0 20 19.5
Second Semester

Semester II

Sr. No Code Courses Periods per week Credit Points
L T P Total
1 E 72001 English 3 1 0 4 3.5
2 EM 72010 Advance Engineering Mathematics 3 1 0 4 3.5
3 McE 72047 Intelligent Control 4 0 0 4 4
4 McE 72031 Embedded System 4 0 0 4 4
5 McE 72057 Digital Image Processing 4 0 0 4 4
Total 19 1 0 20 19.5