Master in Industrial Engineering

General

Program Description

Industrial Engineering is about to see "the big picture" when one is dealing with complex processes and systems. The field focuses on analyzing the many 'wheels' that must work together so that an organization is able to function in the most efficient and effective way. As a student, you will get deep insights into diverse methodologies, techniques, and tools that you may apply to enhance the organization's performance. The capability you gain through this study makes you particularly well suited for both engineering and management positions.

Program description

  • Duration: 2 years
  • Credits (ECTS): 120
  • Admission requirements: Bachelor degree in Engineering program in mechanical, electrical power, electronics, mechatronics, material science, industrial engineering, process engineering or other equivalent majors with a minimum of 25 credits mathematics, 5 credits statistics and 7,5 credits physics topics
  • Degree Name: Master of Science in Technology/Sivilingeniør
  • Application code:
    • Norwegian and Nordic applicants: 4602
    • International applicants: 9007

A Master of Science degree in Industrial Engineering will provide students with the knowledge and capabilities to use appropriate techniques, skills, and tools to identify, formulate, analyze, and solve complex problems in both engineering and management. With normal progress, a student will be able to obtain a master's degree after two years, corresponding to 120 credits. If the student wants to combine the master's study with work in an external company, it is possible to extend the program to three or four years. A customized education plan will then be suggested. After finishing this education, students will have a solid foundation to enter a variety of positions at a global base. The typical positions are senior engineers, project managers, developers, consultants, managers, and researchers. Many of our former students are holding managerial or senior research positions in public organizations or private companies.

Learning outcomes

The aim of the program Industrial Engineering is to provide the students with knowledge, skills, and general competence in Computer-Aided Design and Manufacturing, Industrial Robotics, Optimization, Data Management, Computer Integrated, and Virtual Manufacturing, Lean Six Sigma, Production Logistics, and Supply Chain Management. Students will develop acting skills to meet the needs and challenges of the private and public sectors.

Knowledge:

  • K1: Has broad knowledge within the academic field of mathematics, physics, and engineering, and specialized and relevant knowledge within the field of industrial engineering.
  • K2: Has thorough knowledge of the different theories and methodologies that enhance industrial enterprise performance from a holistic perspective.
  • K3: Has specialized knowledge on different industrial processes especially related to manufacturing and relevant technologies, concepts, and systems such as robotics, CAD/CAM, CIM, virtual manufacturing, manufacturing logistics, supply chain management, operations research, quality management & improvement (Lean Six Sigma), project management as well as new development within the academic field of industrial engineering.
  • K4: Has broad knowledge of the history, traditions, distinctive character, and place in the society of the academic field of industrial engineering.

Skills:

  • S1: Can analyze and deal critically with various sources of information and use them to structure and formulate scholarly arguments.
  • S2: Can use existing theories and interpretations in the field of industrial engineering, work systematically, and team-oriented on practical and theoretical problems.
  • S3: Can use relevant methods in industrial engineering to perform research and development work in an independent and team-oriented manner.
  • S4: Can carry out an independent, limited research or development project within the field of industrial engineering under the supervision and in accordance with applicable norms for research ethics.

Competence:

  • GC1: Can analyze relevant academic, professional, and research ethical problems as an engineer and/or a manager.
  • GC2: Can apply the knowledge and skills within industrial.
  • engineering in order to carry out advanced assignments and projects, both as a team member and a project leader.
  • GC3: Can communicate about academic issues, analysis, and conclusions in the field of industrial engineering by using the terminology in the field to communicate with both specialists and the common public.
  • GC4: Can contribute to new thinking and innovation processes by using the knowledge from the methods and theories in industrial engineering.

Job prospectives

With an M.Sc. degree in Industrial Engineering, you will have excellent job opportunities as the study equips you with a comprehensive set of knowledge in dealing with technical and managerial challenges in manufacturing industries, i.e. automation, oil and gas, mechanical and electrical, logistics and shipping.

Program structure

Term 10 credits 10 credits 10 credits 10 credits 10 credits 10 credits
First semester (autumn)
INE-3605 Project Management
INE-3601 Robotics in Manufacturing Systems
INE-3600 Quality Management and Improvement
INE-3800 Operations Research 1
MAT-3802 Discrete Mathematics with Game- and Graph Theory
MAT-3800 Linear Algebra II
HMS-0501 Safety in the laboratory, workshop, and on sea and land expeditions.
and
HMS-0502 First aid in the laboratory, workshop, and on sea and land expeditions
Compulsory attendance
Second semester (spring)
INE-3608 Manufacturing Logistics
INE-3607 CAD/CAM
INE-3610 Computer Integrated Manufacturing
INE-3611 Virtual Manufacturing
TEK-3501 Innovation and Economy
INE-3609 Supply Chain Management
Third semester (autumn)
INE-3900 Thesis - M-IN
INE-3900 Thesis - M-IN
INE-3900 Thesis - M-IN
INE-3606 Operations Research 2
INE-3602 Project - Industrial Engineering TEK-3500 Innovation and Management
Fourth semester (spring)
INE-3900 Thesis - M-IN
INE-3900 Thesis - M-IN INE-3900 Thesis - M-IN INE-3900 Thesis - M-IN INE-3900 Thesis - M-IN INE-3900 Thesis - M-IN

Admission requirements

The basis of admission is

Bachelor's degree in Engineering program in mechanical, electrical power, electronics, mechatronics, material science, industrial engineering, process engineering, or other equivalent majors with minimum 25 credits mathematics, 5 credits statistics, and 7,5 credits physics topics. (Some of the courses in the bachelor engineering program may have a certain amount of physics included and can be accepted*)

In most bachelor's degrees in engineering, you must expect to take some elective science subjects to qualify for the master's degree. At UiT you can take TEK-2800 Mathematics 3 (5 ects) and TEK-2801 Physics 2 (5 ects) to meet the requirement of mathematics and physics.

*)Courses at UiT with the content of acceptable physics.

If the bachelor's degree has been taken at another university, confirmed documentation must be attached to which courses and the number of credits in physics are included.

Applicants from Norway or Nordic countries:

  • The application deadline for Norwegian and other Nordic applicants is April 15th for admission to the autumn semester.

General admissions requirements for Norwegian and Nordic applicants - Master.

The online application is via Søknadsweb, study code 4603

Applicants from outside the Nordic countries:

  • The application deadline for applicants outside the Nordic countries is December 1st for admission to the autumn semester.

Online application, study code 9006

Teaching and assessment

Refresher course:

In Week 33 a two-day refresher course in linear algebra is offered. In this course, central concepts and methods from previous linear algebra courses will be repeated. Experiences from previous years are that students who participate in this refresher course benefit greatly from this in SMN6190 Linear Algebra II.

All teachings in this program are in English.

The program involves lectured courses, as well as a high degree of problem-based education (i.e. learning-by-doing), where the students spend their time working on relevant projects under the supervision of highly qualified staff. The projects are concerned with relevant topics within the field of industrial engineering.

Form of assessment

Through the two-year master’s program of Industrial Engineering, students are evaluated in both theoretical knowledge and engineering skills. This evaluation is based on written or oral exams, in addition to written reports and presentation of project results. The program aims at being international and research-based, and the students will therefore acquire state-of-the-art competence in both technology and management.

Mandatory safety training in health, security, and environment (HSE)

All students must complete mandatory safety training before they are allowed access and given permission to work in laboratories, workshops, and the like. This also goes for participation in fieldwork/research cruises and similar. Please contact your immediate supervisor for the list of mandatory courses.

Access to further studies

UiT Narvik has a Ph.D. education within the field of Engineering Science and Technology.

Exchange

The students have great possibilities to take some parts of the study program at other universities abroad, especially in connection with the final master thesis. UIT Narvik has active collaborations with other universities in countries like China, Japan, the USA, Hungary, Sweden, Germany, and Spain.

Last updated Jan 2021

About the School

UiT The Arctic University of Norway is a medium-sized research university that contributes to knowledge-based development at the regional, national, and international levels.

UiT The Arctic University of Norway is a medium-sized research university that contributes to knowledge-based development at the regional, national, and international levels. Read less
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