Bachelor of Mechatronics Engineering

Program Description

Learning Outcomes

Requirements

Program Structure

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Bachelor of Mechatronics Engineering
Institution
German Jordanian University
Location
Jordan
Total Tuition
$ 30437
Intakes
September
Application deadline
September
Application Fee
169
Program Description

Mechatronics Engineering program emphasizes the application of technologies and tools in the short term, and the ability to discover, acquire, and adapt new knowledge and skills in the long term.

The B.Sc. program in Mechatronics Engineering provides students with an understanding of fundamental Mechatronics and Artificial Intelligence Engineering concepts, methodologies, and technologies as demonstrated by the following program learning outcomes (PLOs) and their associated key performance indicators (KPIs):

PLO 1. The ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics

Key Performance Indicators (KPIs) and Levels for PLO 1:

  • PLO 1.1: Understand complex engineering problems – Knowledge

  • PLO 1.2: Formulate complex engineering problems by applying principles of engineering, science, and mathematics – Competencies

  • PLO 1.3: Apply principles of engineering, science, and mathematics to solve complex engineering problems – Skills

PLO 2. The ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic  factors

Key Performance Indicators (KPIs) and Levels for PLO 2:

  • PLO 2.1: Understand engineering design requirements, strategies, and constraints while considering public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors – Knowledge

  • PLO 2.2: Apply engineering processes to develop and evaluate feasible solutions against specifications/requirements, taking into account public health, safety, and welfare, and global, cultural, social, environmental, and economic factors – Skills

PLO 3. The ability to communicate effectively with a range of audiences

Key Performance Indicator (KPI) for PLO 3.1:

  • PLO 3.1: Demonstrate responsibility in creating and presenting clear, professional content, including reports and graphical communication materials – Competencies

  • PLO 3.2: Take responsibility for creating and delivering clear, professional presentations to diverse audiences – Competencies

PLO 4. The ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts

Key Performance Indicators (KPI) for PLO 4:

  • PLO 4.1: Demonstrate understanding of ethical and professional responsibilities in engineering contexts – Knowledge

  • PLO 4.2: Analyze the effects of engineering solutions on global, economic, environmental, and societal contexts – Skills

PLO 5. The ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives

Key Performance Indicators (KPI) for PLO 5:

  • PLO 5.1: Assume responsibility for group tasks and work effectively to establish goals and plan activities to achieve team objectives – Competencies

  • PLO 5.2: Organize and coordinate team efforts in a collaborative and inclusive environment to successfully execute plans – Skills

PLO 6. The ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions

Key Performance Indicators (KPI) for PLO 6:

  • PLO 6.1: Manage and conduct experimental procedures effectively – Competencies

  • PLO 6.2: Analyze experimental data and draw informed conclusions using engineering judgment – Skills

PLO 7. The ability to acquire and apply new knowledge as needed, using appropriate learning strategies

Key Performance Indicators (KPI) for PLO 7:

  • PLO 7.1: Describe newly acquired knowledge using effective learning strategies – Knowledge

  • PLO 7.2: Apply and practice newly acquired knowledge using appropriate learning strategies – Skills

 

 

 

 

To apply for admission, the following minimum requirements must be met:

a. A minimum GPA of 80% in the National High School Certificate or equivalent.
b. Sitting university placement tests.
c. Sitting for the German Language Intensive course offered by the university.

First Year – First Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
CHEM103 General Chemistry 3 5 3 / – F2F
CS116 Computing Fundamentals 3 6 3 / – F2F
ENGL1001 Upper-Intermediate English 3 3 3 / – F2F ENGL0099
GERL101B1 German I (B1-Track) 3 6 9 / – F2F
MATH101 Calculus I 3 5 3 / – BLD MATH0099
PHYS103 Physics I 3 5 3 / – BLD

Total: 18 Credit Hours | 30 ECTS | 24 Lecture Hours | 0 Practical Hours


First Year – Second Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
CS1160 Computing Fundamentals Lab 1 0 – / 3 BLD CS116 co-requisite
IE0121 Probability and Statistics 3 5 3 / – F2F MATH101
ENGL1002 Advanced English 3 3 3 / – F2F ENGL1001
GERL102B1 German II (B1-Track) 3 6 9 / – F2F GERL101B1
GERL102B2 German II (B2-Track) 3 6 9 / – F2F GERL101B2
MATH102 Calculus II 3 5 3 / – F2F MATH101
PHYS104 Physics II 3 5 3 / – F2F PHYS103
PHYS106 General Physics Lab 1 2 – / 3 BLD PHYS103, PHYS104 co-requisite
ME0111 Computer Aided Engineering Drawing 2 4 – / 6 BLD CS116

Total: 19 Credit Hours | 30 ECTS | 21 Lecture Hours | 12 Practical Hours

Second Year – First Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
MECH2102 Statics and Strength 3 5 3 / – BLD ARB0099, ENGL0099, PHYS103, MATH102
CE212 Digital Systems 3 5 3 / – F2F ARB0099, ENGL0099
CE2120 Digital Systems Lab 1 4 – / 3 BLD ARB0099, ENGL0099, CE212 co-requisite
ENE211 Electrical Circuits I 3 5 3 / – F2F ARB0099, ENGL0099, PHYS104
GERL201B1 German III (B1-Track) 3 4 6 / – F2F ARB0099, ENGL0099, GERL102B1 or GERL102B2
GERL201B2 German III (B2-Track) 3 4 6 / – F2F ARB0099, ENGL0099, GERL102B2
MATH205 Differential Equations 3 5 3 / – F2F ARB0099, ENGL0099, MATH102

Total: 16 Credit Hours | 28 ECTS | 18 Lecture Hours | 3 Practical Hours


Second Year – Second Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ME0214 Electronics for Mechatronics 3 5 3 / – F2F ARB0099, ENGL0099, ENE211
ME0224 Computer Aided Math for ME 2 5 – / 6 BLD ARB0099, ENGL0099, MATH102, CS116
MECH2104 Dynamics 3 5 3 / – BLD ARB0099, ENGL0099, MECH2102
ME0312 Microcontrollers and IoT 4 6 3 / 3 BLD CE212
GERL202B1 German IV (B1-Track) 3 6 9 / – F2F ARB0099, ENGL0099, GERL201B1 or GERL201B2
GERL202B2 German IV (B2-Track) 3 6 9 / – F2F ARB0099, ENGL0099, GERL201B2
MATH203 Applied Math for Engineers 3 5 3 / – F2F ARB0099, ENGL0099, MATH102

Total: 18 Credit Hours | 32 ECTS | 21 Lecture Hours | 9 Practical Hours

Third Year – First Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ENE213 Electrical Circuits I Lab 1 2 – / 3 BLD ARB0099, ENGL0099, ENE211
ENE312 Power Electronics 3 5 3 / – BLD ME0214
ME3401 Control Systems 3 5 3 / – F2F MECH2104, MATH205, ENE211, ME0224
University Elective 3 3 3 / –
ME3601 Sensors and Signals 3 5 3 / – BLD ENE211, MATH205
GERL301B1 German V (B1-Track) 3 6 9 / – F2F GERL202B1 or GERL202B2
GERL301B2 German V (B2-Track) 3 6 9 / – F2F GERL202B2
IE0281 Technical Writing and Engineering Ethics 2 3 2 / – F2F ENGL1001

Total: 18 Credit Hours | 29 ECTS | 23 Lecture Hours | 3 Practical Hours


Third Year – Second Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ME0345 Control and Vibration Lab 1 2 – / 3 BLD ME3401
ME0522 Hydraulics and Pneumatics 3 4 2 / 3 BLD ME3401
ME0354 Actuators 3 5 3 / – F2F ENE213, ME3601
ME0355 Sensors and Actuators Lab 1 0 – / 3 BLD ME3601, ME0354 co-requisite
ME0391 Field Training 0 6 160 HR F2F Department Approval, IE0281
GERL302B1 German VI (B1-Track) 3 6 6 / – F2F GERL301B1 or GERL301B2
GERL302B2 German VI (B2-Track) 3 6 6 / – F2F GERL301B2
ARB100 Arabic 3 3 3 / – OL ARB0099
IE0361 Engineering Economics 3 5 3 / – OL IE0121

Total: 17 Credit Hours | 31 ECTS | 17 Lecture Hours | 9 Practical Hours

Fourth Year – First Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
Technical Elective 1 3 5 3 / –
Technical Elective 2 3 5 3 / –
Technical Elective 3 3 5 3 / –
Technical Elective 4 3 5 3 / –
ME5501 Robotics Modeling and Control 3 5 3 / – BLD ME3401
ME5701 Applied Artificial Intelligence and Machine Learning 3 5 3 / – F2F ME3401, ME3601

Total: 18 Credit Hours | 30 ECTS | 18 Lecture Hours | 0 Practical Hours


Fourth Year – Second Semester

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ME0491 International Internship 12 30 – / – F2F Department Approval

Total: 12 Credit Hours | 30 ECTS | 0 Lecture Hours | 0 Practical Hours

Fifth Year – First Semester (Applied AI Track)

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ME5704 Advanced Topics in Artificial Intelligence and Machine Learning 3 7 3 / – BLD ME5701
ME0577 Automation and Industry 4.0 3 7 2 / 3 BLD ME3401
ME0591 Graduation Project I 1 4 – / 3 BLD ME0491, Minimum 132 CH
NE101 National Education 3 2 3 / – OL
NEE101 National Education in English 3 2 3 / – OL
IE0141 Engineering Workshop 1 4 – / 3 BLD
ME5703 Intelligent Control and Reinforcement Learning 3 6 3 / – F2F ME3401, ME5701

Total: 14 Credit Hours | 30 ECTS | 14 Lecture Hours | 9 Practical Hours


Fifth Year – Second Semester (Applied AI Track)

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ME0561 Mechatronics Systems Design and Interfacing 3 10 2 / 3 BLD ME0312, ME3401, ME0354
ME5702 Computer Vision and Deep Learning 3 7 3 / – F2F ME573
ME0592 Graduation Project II 3 6 – / 9 BLD ME0591
University Elective 3 3 3 / –
ENE314 Power Electronics Lab 1 2 – / 3 BLD ENE312
MILS100 Military Science 3 2 3 / – OL

Total: 16 Credit Hours | 30 ECTS | 11 Lecture Hours | 15 Practical Hours

Fifth Year – First Semester (Robotics and Autonomous Systems Track)

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ME5504 Artificial Intelligence in Robots 3 7 3 / – BLD ME5701, ME5501
ME0577 Automation and Industry 4.0 3 7 2 / 3 BLD ME3401
ME0591 Graduation Project I 1 4 – / 3 BLD ME0491, Minimum 132 CH
NE101 National Education 3 2 3 / – OL
NEE101 National Education in English 3 2 3 / – OL
IE0141 Engineering Workshop 1 4 – / 3 BLD
ME5502 Design of Digital Control Systems 3 6 3 / – F2F ME3401

Total: 14 Credit Hours | 30 ECTS | 11 Lecture Hours | 9 Practical Hours


Fifth Year – Second Semester (Robotics and Autonomous Systems Track)

Course ID Course Name Credit Hours ECTS Contact Hours (Lect. / Prac.) Type Prerequisites / Corequisites
ME0561 Mechatronics Systems Design and Interfacing 3 10 2 / 3 BLD ME0312, ME3401, ME0354
ME5503 Autonomous Mobile Robots 3 7 3 / – F2F ME5501
ME0592 Graduation Project II 3 6 – / 9 BLD ME0591
University Elective 3 3 3 / –
ENE314 Power Electronics Lab 1 2 – / 3 BLD ENE312
MILS100 Military Science 3 2 3 / – OL

Total: 19 Credit Hours | 30 ECTS | 14 Lecture Hours | 18 Practical Hours

Program Overview
Study Format
On-campus
Program Level
Bachelor
Language Of Materials
English
Language Of Teaching
English
Mode
Full-time
Duration By Months
48
To request more information about the program

Contact Admission
German Jordanian University
Phone Number
+96264294444
Email
info@gju.edu.jo

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