Course syllabus

7,5 Credits

Compulsory course in the Master Programme

Production Engineering

In Chalmers University of Technology

Gothenburg, Sweden

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Examiner

Professor Johan Stahre

email: johan.stahre@chalmers.se

Telephone: +46(0)317721288

 

Course administrator

PhD student Clarissa González

E-mail: clarissa.gonzalez@chalmers.se

Telephone: +46(0)768537741

 

 

 

 

Master Programme responsible

PhD Anders Skoogh

email: anders.skoogh@chalmers.se

Telephone: +46(0)317724806


 

 

 

STUDENT REPRESENTATIVES

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PURPOSE OF THE COURSE

Students who graduated from Chalmers Master's Programme in Production Engineering must have achieved the knowledge and judgment skills to be able to conceptualize, develop and improve production systems with an emphasis on digital technologies and sustainability.

The primary objective is to convey fundamental knowledge about the role of digital technologies in production systems and to serve as a foundation for further learning in more specialized courses within the Master's Programme.

 

LEARNING OBJECTIVES

After this course the students will be able to:

LO1.- Analyze and contrast paradigms in the history of production systems and project the impact of digital technologies on the future of industrial production systems.

LO2.- Evaluate a range of enablers and challenges that influence decision-making in a production system.

LO3.- Compare and contrast the application of digital technologies in current production systems and recommend their implementation in the design of new ones.

LO4.- Analyze and evaluate the role of automation in a production system considering both physical and cognitive aspects.

LO5.- Describe how connectivity can enable an adaptive information system in a production environment.

LO6.- Apply basic data analytics to address problems in production systems.

LO7.- Identify and evaluate the implications of digital technologies regarding environmental and social sustainability in production systems.

LO8.- Apply acquired knowledge and collaborative skills in diverse teams to analyse, evaluate, and develop technical solutions and complex production systems.

 

COURSE CONTENT

 The course covers the following topics:

  • History of production systems and production paradigms;
  • The application of digital technologies in current production systems;
  • Connectivity applications in production systems;
  • Use of data analytics for optimization of production systems;
  • Levels of automation for a production system;
  • Implications of digital technologies regarding sustainability.

 

ORGANIZATION

Students will learn the course content using a problem oriented pedagogy supported by lectures. This course includes a project that is performed in diverse teams. An industrial case is used to apply the knowledge acquired in the course modules. If circumstances allow it, the course intends to organise company visits

  The learning activities are:

  • Lectures: Provides theoretical foundation and support for project work;
  • Assignments: Reflections of the use of the digital technologies and impact on the development of sustainable production systems;
  • Project: Applying skills learned throughout the course to analyze and improve productions systems;
  • Presentation: Be able to present and defend project results.

 

EXAMINATION

The course examination is based on three parts:  modules' assignments, project work, final exam. It is compulsory to sign up for the exam in order to join a session examination. 

  • Modules' assignments - Pass or fail. You have to pass all the assignments.
  • Project - project's assignments, report and presentation - maximum 30 points (report = 20 points, presentation = 10 points, assignments= pass or fail).
  • Exam - maximum 20 points, you need at least 8 points to pass.

The grading scale is: Failed, 3, 4 and 5.

The points are summed up and result in the following scale:

40-50 points   = 5 (the maximum grade cannot exceed 50 points).

30-39 points   = 4

20-29 points   = 3

0-19   points   = Failed

Modules' assignments

All assignments from the different modules must be approved to pass the course. The expectations from each assignment, are explained in each exercise in the Assignments section (the assignments will be published along with the development of the lectures).

The mandatory activities are:

1.                    

The sustainability module should be completed and the quiz must be passed.

02-09-23

2.                    

A  presentation of the exercise in the module of “Application of 5G in a manufacturing context” must be performed.

21-09-23

3.

A presentation about the Data module will be conducted.

29-09-23

4.

Actively participate in the Sustainability Workshop

05-10-23

 

 

Exam

The student needs to pass the exam in order to be approved in the course and achieve a final grade. The written exam covers the content of all the different modules in this course:

  1. Introduction
  2. Sustainability
  3. Digital twin
  4. Data
  5. Connectivity & 5G
  6. Automation

 

Project

The project work aims at applying the skills throughout the course to understand and implement digital technologies for the development of a sustainable production system. This is a group activity and further information can be found in the Module "Project".  Directions for the project can be found here.

Project-related assignments:

1.                    

Deliverable of Progress report on Sustainability

11-09-23

2.                    

Deliverable of Progress report on Digital Twin & Automation

18-09-23

3.                    

Deliverable of Progress report on Connectivity & Data

02-10-23

4.

Delivery of final draft to opponent team

10-10-23

5.

Send written opposition to assigned team

12-10-23

6.

Upload Power Point presentation to Canvas

16-10-23

7.

Presentation of project. You are expected to make questions to an assigned team.

17-10-23

8.

Delivery of final report including comments from opposition

19-10-23

 

COURSE SCHEDULE

Note: All the sessions of this course will be held on site.

During self-study sessions and project work, you and your team are responsible to define how to communicate and where to meet.

 

Week

Date

Start

End

Location

Block

Lecture

Lecturer

35

29-08-23

13:15

15:00

HC1

Introduction

General Course Overview and Future Factories

Prof. Johan Stahre, Greta Braun, Clarissa González

29-08-23

15:15

17:00

HA2

Industrial revolutions from traditional to digital systems

Prof. Johan Stahre

31-08-23

13:15

15:00

EF

Working with a culturally diverse group

Senior Lecturer Becky Bergman

31-08-23

15:15

17:00

EF

Manufacturing Strategies

Prof. David Romero (Tecnológico de Monterry)

01-09-23

13:15

15:00

HC2

Sustainability Thinking

Assoc. Prof. Mélanie Despeisse

36

05-09-23

13:15

15:00

HC2

 

Digital Twin & CPS

Digital Twin (System Level)

Prof. Anna Syberfeldt

 

05-09-23

15:15

17:00

HC1

Digital Twin (Factory Level)

06-09-23

13:15

15:00

HA2

CPS & Standardization, Virtual factory planning 

Prof. Björn Johansson

08-09-23

13:15

15:00

ML11

Work on your own

 

37

12-09-23

15:15

17:00

HC1

Automation

Human-centered Automation

Omkar Salunkhe

14-09-23

13:15

15:00

HC3

Cognitive Levels of Automation

Omkar Salunkhe

14-09-23

14:15

16:00

HC3

Digitalisation & cognitive automation

Omkar Salunkhe

15-09-23

13:15

15:00

HA3

Virtual Reality in production

Huizhong Cao, Henrik Söderlund

38

19-09-23

13:15

15:00

AWL-Studio (SB3)

Connectivity & 5G

Connectivity as an enabler of Industry 4.0

Dr. Maja Bärring

 

19-09-23

15:15

17:00

AWL-Studio (SB3)

Students work with their tasks/presentation

21-09-23

13:15

15:00

HC2

Presentations from students

21-09-23

15:15

17:00

HC2

Examples & lessons learned from previous industrial projects

22-09-23

15:15

17:00

No booked room

Work on your own

39

26-09-23

13:15

15:00

SB Multisal

Data

The role of data in maintenance in production systems

Prof. Anders Skoogh

26-09-23

15:15

17:00

SB-M415

Introduction to Data Science

Paulo Victor Lopes

 

 

28-09-23

13:15

15:00

HC2

Data Mining & Visualization, AI and ML

28-09-23

15:15

17:00

HC2

Preparation for presentations

29-09-23

13:15

15:00

HA3, MB

Presentations by students

Paulo Victor Lopes, Siyuan Chen

40

 

03-10-23

13:15

15:00

HC1

Sustainability

Business models for sustainable manufacturing

Clarissa González

03-10-23

15:15

17:00

HC1

Report

Report Preparation

Clarissa González & Greta Braun

05-10-23

13:15

17:00

SB Multisal

Sustainability

 

Sustainability Workshop (SVR)

 

Assoc. Prof. Mélanie Despeisse &

Clarissa González

 

41

10-10-23

13:15

15:00

Emerson

Company visit + Report

Emerson Study Visit Group A

Emelie Vikingsson, Mats Rosander

10-10-23

15:15

17:00

Emerson

Emerson Study Visit Group B

Emelie Vikingsson, Mats Rosander

12-10-23

13:15

15:00

no room booked

Presentation preparation, opposition preparation

 

 

12-10-23

15:15

17:00

no room booked

 

13-10-23

13:15

15:00

ML11

Presentation Preparation

Clarissa González & Greta Braun

42

17-10-23

13:15

17:00

ML11

Final stretch

Final Project Presentation

Clarissa González & Greta Braun

19-10-23

13:15

14:00

ML11

Summary of the course

Johan Stahre & Greta Braun

43

28-10-23

08.00

12:00

TBD

 

Exam

 

 

LITERATURE

Check the suggested literature for each module in the Files menu. The literature will be updated with the development of the course.