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ML2308 CDIO Course in Sustainable Production Development

The ML2308 course is a 15.0 credit CDIO (Conceiving Designing Implementing Operating) course in Sustainable Production Development.

Information per Course Offering

• Termin: Autumn 2025
• Course Location: KTH Campus
• Duration: 25 Aug 2025 12 Jan 2026
• Periods: Autumn 2025: P2 (6 hp), P1 (9 hp)
• Pace of Study: 50%
• Application Code: 50846
• Form of Study: Normal Daytime
• Language of Instruction: English
• Number of Places: Places are not limited
• Target Group: No information inserted
• Planned Modular Schedule: No information inserted
• Schedule: Link to schedule

Part of Programme

The course is part of the Master's Programme, Sustainable Production Development, year 2, and is mandatory.

Contact

• Examiner: Jannicke Baalsrud Hauge
• Course Coordinator: Erik Flores Garcia
• Teachers: No information inserted

Course Syllabus

The course syllabus for ML2308 (Autumn 2020) is available, with headings denoted by an asterisk (*).

Content and Learning Outcomes

Course Contents

This course is based on the generic curriculum and the CDIO methodology, including activities to analyze and develop solution proposals in teams within sustainable production development. The course covers areas such as industrial design, analysis, optimization, choice of material, manufacturing, and operation of technical systems and products. Students develop proficiencies in generating new knowledge based on established theories and methods, with results relevant to industrial application and academic contribution.

Intended Learning Outcomes

On completion, students should be able to:

• Demonstrate the ability to master the development process to methodologically develop solution proposals for complex problems in sustainable production development.
• Have knowledge of established design methods and tools to identify areas for improvement.
• Plan and carry out a group-based technical development project with different roles within a given time frame and technical expertise.
• Account orally and in writing for concepts, prototypes, solutions, conclusions, and facts with main stakeholders and other project groups.
• Show how the developed solution can be implemented and operated in an industrial production and logistics context.
• Make assessments regarding social, socio-economic, and ethical aspects from local and global perspectives.
• Participate in development work, implementation, and operation of the developed solution to work independently in advanced industrial activities.

Literature and Preparations

Specific Prerequisites

Completed courses:

• ML2300 Sustainable Production
• ML2301 Production Management and Development
• ML2305 Production Logistics and Supply Chains
• ML2306 Industrial Analytics for Advanced Manufacturing Or the equivalent courses.

Literature

Information about course literature can be found in the course memo or the course room in Canvas.

Examination and Completion

Grading Scale

A, B, C, D, E, FX, F

Examination

• PRO1 - Project, 15.0 credits, grading scale: A, B, C, D, E, FX, F

The examiner decides how to adapt an examination for students with documented disabilities. Another examination format may be applied for re-examining individual students. If the course is discontinued, students may request to be examined during the following two academic years.

Other Requirements for Final Grade

Completion of seminars or activities established by the supervisor/examiner as milestones for progress in the thesis project work.

Examiner

Jannicke Baalsrud Hauge

Ethical Approach

• All group members are responsible for the group's work.
• Every student shall honestly disclose any help received and sources used in assessments.
• In oral assessments, every student shall be able to present and answer questions about the entire assignment and solution.

Further Information

Course Room in Canvas

Registered students find further information about the course implementation in the course room in Canvas.

Offered By

ITM/Production Engineering Södertälje

Main Field of Study

Mechanical Engineering

Education Cycle

Second cycle