ECTS - Software Engineering
Software Engineering (SE550) Course Detail
Course Name | Course Code | Season | Lecture Hours | Application Hours | Lab Hours | Credit | ECTS |
---|---|---|---|---|---|---|---|
Software Engineering | SE550 | Area Elective | 3 | 0 | 0 | 3 | 5 |
Pre-requisite Course(s) |
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N/A |
Course Language | English |
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Course Type | Elective Courses |
Course Level | Natural & Applied Sciences Master's Degree |
Mode of Delivery | Face To Face |
Learning and Teaching Strategies | Lecture. |
Course Lecturer(s) |
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Course Objectives | The objective of this course is to provide basic foundations of a general engineering discipline to problem solving for computer based applications rather than to focus on specific methods, techniques, and methodologies. Hence, it emphasizes empirical and quantitative methods, analysis and design techniques, project scheduling and management techniques, software testing activities, software documentation details, quality assurance, and other software engineering issues. |
Course Learning Outcomes |
The students who succeeded in this course;
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Course Content | Introduction to software engineering and related topics; software process and project metrics; project planning; scheduling and tracking; configuration management; software quality assurance; requirement analysis; data flow diagrams and related topics; design concepts and methods; implementation; testing methods and test strategies; object-oriented |
Weekly Subjects and Releated Preparation Studies
Week | Subjects | Preparation |
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1 | Introduction & Software Engineering Concepts | Ch.1, 2 (main text) |
2 | Software Process Structure, Process Models | Ch.3, Ch.4 (4.1.1-4.1.3) |
3 | Agile Development | Ch.5 (5.1-5.3, 5.4.1, 5.5.1) |
4 | Understanding Requirements | Ch. 8 |
5 | Requirements Modeling | Ch. 9, Ch. 10 |
6 | Requirements Modeling | Ch.11 (11.1-11.4) |
7 | Design Concepts | Ch. 12 |
8 | Architectural and Component-Level Design | Ch.13, Ch.14 (14.1-14.3) |
9 | User Interface (UI) Design | Ch.15 (15.1-15.4) |
10 | Software Testing Strategies | Ch.22 (22.1-22.4, 22.7-22.9), Ch.23(23.1-23.6) |
11 | Product Metrics | Ch.30 (30.1-30.3.3) |
12 | Process and Project Metrics | Ch.32 (32.1-32.2) |
13 | Estimation for Software Projects | Ch.33 (33.1-33.7) |
14 | Basics of Software Maintenance | Lecture notes |
15 | Final Exam | |
16 | Final Exam |
Sources
Course Book | 1. Pressman, R. S. and B. R. Maxim, Software Engineering, McGraw Hill, 8th. Ed., 2014 |
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Other Sources | 2. Sommerville, I., Software Engineering, Addison-Wesley, 10th. Ed., 2015 |
3. ISO/IEC TR 19759:2005, Software Engineering - Guide to the Software Engineering Body of Knowledge (SWEBOK), ANSI, 2007 | |
4. Van Vliet, H., Software Engineering: Principles and Practice, Wiley, 2008 (1st edition) | |
5. Tsui, F. F., Karam, O., Essentials of Software Engineering, Jones & Bartlett Publishers, 2006 (1st edition) | |
6. Schach, S. R., Object-oriented and Classical Software Engineering, McGraw Hill, 2006 (7th edition) |
Evaluation System
Requirements | Number | Percentage of Grade |
---|---|---|
Attendance/Participation | 1 | 5 |
Laboratory | - | - |
Application | - | - |
Field Work | - | - |
Special Course Internship | - | - |
Quizzes/Studio Critics | - | - |
Homework Assignments | 4 | 25 |
Presentation | - | - |
Project | - | - |
Report | - | - |
Seminar | - | - |
Midterms Exams/Midterms Jury | 1 | 30 |
Final Exam/Final Jury | 1 | 40 |
Toplam | 7 | 100 |
Percentage of Semester Work | |
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Percentage of Final Work | 100 |
Total | 100 |
Course Category
Core Courses | X |
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Major Area Courses | |
Supportive Courses | |
Media and Managment Skills Courses | |
Transferable Skill Courses |
The Relation Between Course Learning Competencies and Program Qualifications
# | Program Qualifications / Competencies | Level of Contribution | ||||
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1 | 2 | 3 | 4 | 5 | ||
1 | Accumulated knowledge on mathematics, science and mechatronics engineering; an ability to apply the theoretical and applied knowledge of mathematics, science and mechatronics engineering to model and analyze mechatronics engineering problems. | X | ||||
2 | An ability to differentiate, identify, formulate, and solve complex engineering problems; an ability to select and implement proper analysis, modeling and implementation techniques for the identified engineering problems. | X | ||||
3 | An ability to design a complex system, product, component or process to meet the requirements under realistic constraints and conditions; an ability to apply contemporary design methodologies; an ability to implement effective engineering creativity techniques in mechatronics engineering. (Realistic constraints and conditions may include economics, environment, sustainability, producibility, ethics, human health, social and political problems.) | X | ||||
4 | An ability to develop, select and use modern techniques, skills and tools for application of mechatronics engineering and robot technologies; an ability to use information and communications technologies effectively. | X | ||||
5 | An ability to design experiments, perform experiments, collect and analyze data and assess the results for investigated problems on mechatronics engineering and robot technologies. | |||||
6 | An ability to work effectively on single disciplinary and multi-disciplinary teams; an ability for individual work; ability to communicate and collaborate/cooperate effectively with other disciplines and scientific/engineering domains or working areas, ability to work with other disciplines. | |||||
7 | An ability to express creative and original concepts and ideas effectively in Turkish and English language, oral and written. | |||||
8 | An ability to reach information on different subjects required by the wide spectrum of applications of mechatronics engineering, criticize, assess and improve the knowledge-base; consciousness on the necessity of improvement and sustainability as a result of life-long learning; monitoring the developments on science and technology; awareness on entrepreneurship, innovative and sustainable development and ability for continuous renovation. | |||||
9 | Be conscious on professional and ethical responsibility, competency on improving professional consciousness and contributing to the improvement of profession itself. | |||||
10 | A knowledge on the applications at business life such as project management, risk management and change management and competency on planning, managing and leadership activities on the development of capabilities of workers who are under his/her responsibility working around a project. | |||||
11 | Knowledge about the global, societal and individual effects of mechatronics engineering applications on the human health, environment and security and cultural values and problems of the era; consciousness on these issues; awareness of legal results of engineering solutions. | |||||
12 | Competency on defining, analyzing and surveying databases and other sources, proposing solutions based on research work and scientific results and communicate and publish numerical and conceptual solutions. | |||||
13 | Consciousness on the environment and social responsibility, competencies on observation, improvement and modify and implementation of projects for the society and social relations and be an individual within the society in such a way that planing, improving or changing the norms with a criticism. | |||||
14 | A competency on developing strategy, policy and application plans on the mechatronics engineering and evaluating the results in the context of qualitative processes. |
ECTS/Workload Table
Activities | Number | Duration (Hours) | Total Workload |
---|---|---|---|
Course Hours (Including Exam Week: 16 x Total Hours) | 16 | 3 | 48 |
Laboratory | |||
Application | |||
Special Course Internship | |||
Field Work | |||
Study Hours Out of Class | 16 | 2 | 32 |
Presentation/Seminar Prepration | |||
Project | |||
Report | |||
Homework Assignments | 4 | 5 | 20 |
Quizzes/Studio Critics | |||
Prepration of Midterm Exams/Midterm Jury | 1 | 10 | 10 |
Prepration of Final Exams/Final Jury | 1 | 20 | 20 |
Total Workload | 130 |