SE407 Software Quality Management

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Course Code Course Title Weekly Hours* ECTS Weekly Class Schedule
T P
SE407 Software Quality Management 3 2 6 Tue 11:00-12:50; Thu: 10:00-10:50
Prerequisite SE211 / CS105 It is a prerequisite to
Lecturer Özge Büyükdağlı Office Hours / Room / Phone
Monday:
9:00-11:00
Tuesday:
9:00-11:00
Friday:
9:00-11:00
A F3.26
E-mail obuyukdagli@ius.edu.ba
Assistant Assistant E-mail
Course Objectives This course is designed to 1. introduce basic concepts and models on software quality management 2. teach students how to measure software quality and how to use measurements to improve the software development process.
Textbook 1. Kan, S. H. (2002). Metrics and models in software quality engineering. Addison-Wesley Longman Publishing Co., Inc.. 2. Galin, D. (2018). Software quality: concepts and practice. John Wiley & Sons.
Learning Outcomes After successful  completion of the course, the student will be able to:
  1. apply continious improvenet techniques and basic qauality concepts in analysis
  2. analyse a manufacturing process using apropriate control charts
  3. use software for SPC analysis
Teaching Methods Lecture discussion and review questions; Short reports and homework assignments; Problem solving.
WEEK TOPIC REFERENCE
Week 1 General Introduction
Week 2 Introduction to Software Quality Kan Chapter 1, Galin Chapter 1
Week 3 The Software Quality Factors and Challenges Galin Chapter 2-3
Week 4 Software Development Process Models Kan Chapter 2, Galin Appendix D
Week 5 Software Quality Metrics Kan Chapter 4, Galin Chapter 16-21
Week 6 Software Product Quality Metrics Kan Chapter 4, Galin Chapter 16
Week 7 Applying the Seven Basic Quality Tools in Software Development Kan Chapter 5
Week 8 Cost of Software Quality Galin Chapter 9
Week 9 Midterm Review
Week 10 MIDTERM
Week 11 Defect Removal Effectiveness Kan Chapter 6
Week 12 Software Process Quality Metrics Galin Chapter 21
Week 13 C omplexity Metrics and Models Kan Chapter 11
Week 14 Student Presentations
Week 15 Review, Preparation for the Final Exam
Assessment Methods and Criteria Evaluation Tool Quantity Weight Alignment with LOs
Final Exam 1 30 1,2,3
Semester Evaluation Compenents
Homework 6 30 1,2,3
Midterm 1 20 1
Presentation 1 20 1,2,3
***     ECTS Credit Calculation     ***
 Activity Hours Weeks Student Workload Hours Activity Hours Weeks Student Workload Hours
Lecture Hours 3 15 45 Home Study 4 10 40
Project / Presentation 10 3 30 Project / Presentation 10 3 30
Midterm Study 10 2 20
Home Study 4 10 40 Home Study 4 10 40
        Total Workload Hours = 150
*T= Teaching, P= Practice ECTS Credit = 6
Course Academic Quality Assurance: Semester Student Survey Last Update Date: 20/04/2020
QR Code for https://ecampus.ius.edu.ba/course/cs105-advanced-programming

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