Mechatronic Engineering (Ph.D) (English) | |||||
PhD | TR-NQF-HE: Level 8 | QF-EHEA: Third Cycle | EQF-LLL: Level 8 |
Course Code: | ECE536 | ||||||||
Course Name: | Embedded System Design | ||||||||
Course Semester: | Spring | ||||||||
Course Credits: |
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Language of instruction: | EN | ||||||||
Course Requisites: | |||||||||
Does the Course Require Work Experience?: | No | ||||||||
Type of course: | Department Elective | ||||||||
Course Level: |
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Mode of Delivery: | Face to face | ||||||||
Course Coordinator : | Prof. Dr. BEKİR TEVFİK AKGÜN | ||||||||
Course Lecturer(s): |
Dr.Öğr.Üyesi DİDEM KIVANÇ TÜRELİ |
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Course Assistants: |
Course Objectives: | A. Explaining the Elective Course Topic B. Using Elective Course Methods / Tools C. To produce solutions on Elective Course |
Course Content: | Design of Embedded Systems. Hardware-Software design. Real-time software design. Real-time error capture techniques and tools. Hardware-Software integration. Interface design. Data acquisition and control system examples. |
The students who have succeeded in this course;
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Week | Subject | Related Preparation |
1) | Design of Embedded Systems | Course notes |
2) | Design of Embedded Systems | Course notes |
3) | Hardware-Software design | Course notes |
4) | Real-time software design | Course notes |
5) | Real-time software design | Course notes |
6) | Midterm | Course notes |
7) | Real-time error capture techniques and tools | Course notes |
8) | Real-time error capture techniques and tools | Course notes |
9) | Hardware-Software integration | Course notes |
10) | Hardware-Software integration | Course notes |
11) | Interface design | Course notes |
12) | Data acquisition and control system examples | Course Notes |
13) | Midterm | Course Notes |
14) | Data acquisition and control system examples | Course notes |
Course Notes / Textbooks: | Ders Notları |
References: | Course Notes |
Learning Outcomes | 1 |
2 |
3 |
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Program Outcomes | ||||||
1) Knowledge and ability to apply the interdisciplinary synergetic approach of mechatronics to the solution of engineering problems | ||||||
2) Ability to design mechatronic products and systems using the mechatronics approach | ||||||
3) Knowledge and ability to analyze and develop existing products or processes with a mechatronics approach | ||||||
4) Ability to communicate effectively and teamwork with other disciplines | ||||||
5) Understanding of performing engineering in accordance with ethical principles | ||||||
6) Understanding of using technology with awareness of local and global socioeconomic impacts | ||||||
7) Approach to knowing and fulfilling the necessity of lifelong learning |
No Effect | 1 Lowest | 2 Low | 3 Average | 4 High | 5 Highest |
Program Outcomes | Level of Contribution | |
1) | Knowledge and ability to apply the interdisciplinary synergetic approach of mechatronics to the solution of engineering problems | |
2) | Ability to design mechatronic products and systems using the mechatronics approach | |
3) | Knowledge and ability to analyze and develop existing products or processes with a mechatronics approach | |
4) | Ability to communicate effectively and teamwork with other disciplines | |
5) | Understanding of performing engineering in accordance with ethical principles | |
6) | Understanding of using technology with awareness of local and global socioeconomic impacts | |
7) | Approach to knowing and fulfilling the necessity of lifelong learning |
Expression | |
Individual study and homework | |
Project preparation |
Written Exam (Open-ended questions, multiple choice, true-false, matching, fill in the blanks, sequencing) | |
Homework |
Semester Requirements | Number of Activities | Level of Contribution |
Project | 1 | % 30 |
Midterms | 1 | % 30 |
Final | 1 | % 40 |
total | % 100 | |
PERCENTAGE OF SEMESTER WORK | % 60 | |
PERCENTAGE OF FINAL WORK | % 40 | |
total | % 100 |
Activities | Number of Activities | Duration (Hours) | Workload |
Course Hours | 15 | 3 | 45 |
Midterms | 2 | 70 | 140 |
Final | 1 | 100 | 100 |
Total Workload | 285 |