Quality Planning and Control (IE 403)

2024 Spring
Faculty of Engineering and Natural Sciences
Industrial Engineering(IE)
3
6
Zeynep Didem Demir didem.demir@sabanciuniv.edu,
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English
Undergraduate
MATH306
Formal lecture,Interactive lecture,Recitation
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CONTENT

Introduction to total quality management philosophies and ISO 9000 standards; design and analysis of statistical process control systems; Six Sigma problem solving tools; acceptance sampling techniques; reliability testing; evaluation of the source of variation; design of experiments; failure modes & effects analysis; quality by design and introduction to Taguchi approach.

OBJECTIVE

Refer to the course content.

LEARNING OUTCOMES

  • Define product and process quality; identify inefficiencies within manufacturing or service operations using Lean Six Sigma tools
  • Collect and visualize data on process parameters, inputs and outputs after validating measurement systems in order to assess process capability
  • Identify root causes of process inefficiencies using statistical analysis such as Hypothesis Testing or Multiple Regression
  • Develop and test process improvement solutions with Failure Mode and Effects Analysis (FMEA)
  • Generate statistical process control (SPC) plans with appropriate SPC tools or acceptance sampling strategies

PROGRAMME OUTCOMES


1. Understand the world, their country, their society, as well as themselves and have awareness of ethical problems, social rights, values and responsibility to the self and to others. 2

2. Understand different disciplines from natural and social sciences to mathematics and art, and develop interdisciplinary approaches in thinking and practice. 4

3. Think critically, follow innovations and developments in science and technology, demonstrate personal and organizational entrepreneurship and engage in life-long learning in various subjects; have the ability to continue to educate him/herself. 2

4. Communicate effectively in Turkish and English by oral, written, graphical and technological means. 2

5. Take individual and team responsibility, function effectively and respectively as an individual and a member or a leader of a team; and have the skills to work effectively in multi-disciplinary teams. 2


1. Possess sufficient knowledge of mathematics, science and program-specific engineering topics; use theoretical and applied knowledge of these areas in complex engineering problems. 3

2. Identify, define, formulate and solve complex engineering problems; choose and apply suitable analysis and modeling methods for this purpose. 4

3. Develop, choose and use modern techniques and tools that are needed for analysis and solution of complex problems faced in engineering applications; possess knowledge of standards used in engineering applications; use information technologies effectively. 4

4. Have the ability to design a complex system, process, instrument or a product under realistic constraints and conditions, with the goal of fulfilling specified needs; apply modern design techniques for this purpose. 2

5. Design and conduct experiments, collect data, analyze and interpret the results to investigate complex engineering problems or program-specific research areas. 5

6. Possess knowledge of business practices such as project management, risk management and change management; awareness on innovation; knowledge of sustainable development. 1

7. Possess knowledge of impact of engineering solutions in a global, economic, environmental, health and societal context; knowledge of contemporary issues; awareness on legal outcomes of engineering solutions; knowledge of behavior according to ethical principles, understanding of professional and ethical responsibility. 1

8. Have the ability to write effective reports and comprehend written reports, prepare design and production reports, make effective presentations, and give and receive clear and intelligible instructions. 2


1. Applying fundamental and advanced knowledge of natural sciences as well as engineering principles to develop and design new materials and establish the relation between internal structure and physical properties using experimental, computational and theoretical tools. 1

2. Merging the existing knowledge on physical properties, design limits and fabrication methods in materials selection for a particular application or to resolve material performance related problems. 1

3. Predicting and understanding the behavior of a material under use in a specific environment knowing the internal structure or vice versa. 1


1. Familiarity with concepts in statistics and optimization, knowledge in basic differential and integral calculus, linear algebra, differential equations, complex variables, multi-variable calculus, as well as physics and computer science, and ability to use this knowledge in modeling, design and analysis of complex dynamical systems containing hardware and software components. 2

2. Ability to work in design, implementation and integration of engineering applications, such as electronic, mechanical, electromechanical, control and computer systems that contain software and hardware components, including sensors, actuators and controllers. 1


1. Formulate and analyze problems in complex manufacturing and service systems by comprehending and applying the basic tools of industrial engineering such as modeling and optimization, stochastics, statistics. 4

2. Design and develop appropriate analytical solution strategies for problems in integrated production and service systems involving human capital, materials, information, equipment, and energy. 2

3. Implement solution strategies on a computer platform for decision-support purposes by employing effective computational and experimental tools. 1

ASSESSMENT METHODS and CRITERIA

  Percentage (%)
Final 30
Midterm 25
Quiz 20
Assignment 10
Group Project 15

RECOMENDED or REQUIRED READINGS

Textbook

Montgomery, D.C., Introduction to Statistical Quality Control, 5th Edition, John Wiley & Sons. ISBN 978-0-470-16992 or 6 978-0-470-233979 (International Student Version).