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Concordia University

Industrial Engineering MEng

Admission Requirements

  • Bachelor’s degree in engineering or equivalent with high standing.

Additional Admission Requirements

Option I. Engineering Management.

  • Those applicants who are currently employed as engineers must have a minimum two years full-time relevant work experience.
  • Those applicants who are currently not employed must have a minimum of five years work experience as an engineer.

Degree Requirements

The requirements described here are in addition to the general degree requirements for the Master/Magisteriate in Engineering (MEng)

Fully-qualified candidates are required to complete a minimum of 45 credits.

Please see the Engineering Courses page for course descriptions and prerequisites.

Industrial Engineering MEng (45 credits)

45

credits choosen from one of the following options:

Option I: Engineering Management

Option II: Lean Systems Engineering

Option III. Supply Chain Engineering

Option IV. Industrial Optimization and Systems Analytics

Option V. Reliability and Maintenance Engineering

If no option is selected, students must follow Option VI. Industrial Engineering General Stream

Courses must be selected as shown below.

Option I: Engineering Management (45 credits)

20

credits minimum chosen from Industrial Engineering Area Courses:

INDU 6121 Applied Optimization (4.00)
INDU 6151 Decision Models in Service Sector (4.00)
INDU 6211 Production Systems and Inventory Control (4.00)
INDU 6241 Lean Manufacturing (4.00)
INDU 6310 Applied Probability and Statistics for Engineers (4.00)
INDU 6311 Discrete System Simulation (4.00)
INDU 6321 Introduction to Six Sigma (4.00)
INDU 6391 Reliability and Maintenance for Design and Manufacturing (4.00)
INSE 6230 Total Quality Project Management (4.00)

3

credits of Management Area Core Courses

MBA 640 On Ramp (0.00)
MBA 641 Responsible Manager (3.00)

6

credits minimum chosen from Management Area Elective Courses

MBA 642 Financial Reporting for Responsible Decision Making (3.00)
MBA 643 Managerial Analytics (3.00)
MBA 645 Economics for Organizational Decision Making (3.00)

16

credits Industrial Stage, Project and Report

INDU 6991 Engineering Management Industrial Stage I (8.00)
INDU 6992 Engineering Management Industrial Stage II (8.00)

Industrial stages must be completed with a company, governmental organization or a non-government organization (NGO). Students are responsible for finding their projects. An industry supervisor is highly recommended. The course coordinator serves as the main academic supervisor.

Option II: Lean Systems Engineering (45 credits)

25

credits of Industrial Engineering Core Courses:

INDU 6121 Applied Optimization (4.00)
INDU 6211 Production Systems and Inventory Control (4.00)
INDU 6310 Applied Probability and Statistics for Engineers (4.00)
INDU 6311 Discrete System Simulation (4.00)
INDU 6990 Industrial Engineering Capstone (9.00)

16

credits Area Courses:

INDU 6221 Lean Enterprise (4.00)
INDU 6241 Lean Manufacturing (4.00)
INDU 6321 Introduction to Six Sigma (4.00)
INDU 6341 Advanced Concepts in Quality Improvement (4.00)

4

credits Elective Courses:

INDU courses (Topic Area E12 - Industrial Engineering)
MECH courses

ENCS courses (Topic Area E01 - Mathematical Methods)

Option III. Supply Chain Engineering (45 credits)

25

credits of Industrial Engineering Core Courses

INDU 6121 Applied Optimization (4.00)
INDU 6211 Production Systems and Inventory Control (4.00)
INDU 6310 Applied Probability and Statistics for Engineers (4.00)
INDU 6311 Discrete System Simulation (4.00)
INDU 6990 Industrial Engineering Capstone (9.00)

16

credits minimum chosen from Area Courses

INDU 6141 Logistics Network Models (4.00)
INDU 6151 Decision Models in Service Sector (4.00)
INDU 6161 Design and Operations of Supply Chain Networks (4.00)
INDU 6251 Facilities Planning and Warehouse Operations (4.00)

4

credits of Elective Courses:

INDU courses (Topic Area E12 - Industrial Engineering)
MECH courses
ENCS courses (Topic Area E01 - Mathematical Methods)

Option IV. Industrial Optimization and Systems Analytics (45 credits)

25

credits chosen from Industrial Engineering Core Courses

INDU 6121 Applied Optimization (4.00)
INDU 6211 Production Systems and Inventory Control (4.00)
INDU 6310 Applied Probability and Statistics for Engineers (4.00)
INDU 6311 Discrete System Simulation (4.00)
INDU 6990 Industrial Engineering Capstone (9.00)

16

credits of Area Courses

INDU 6111 Theory of Operations Research (4.00)
INDU 6361 Discrete Optimization (4.00)
INDU 6371 Stochastic Optimization (4.00)
INDU 6611 Applied Industrial Systems Analytics (4.00)

4

credits chosen from Elective Courses:

INDU courses (Topic Area E12 - Industrial Engineering)
MECH Courses

ENCS courses (Topic Area E01 - Mathematical Methods)

Option V. Reliability and Maintenance Engineering (45 credits)

25

credits of Area Core Courses

INDU 6121 Applied Optimization (4.00)
INDU 6211 Production Systems and Inventory Control (4.00)
INDU 6310 Applied Probability and Statistics for Engineers (4.00)
INDU 6311 Discrete System Simulation (4.00)
INDU 6990 Industrial Engineering Capstone (9.00)

16

credits of Area Courses:

INDU 6351 System Reliability (4.00)
INDU 6381 Applications of Reliability Engineering (4.00)
INDU 6391 Reliability and Maintenance for Design and Manufacturing (4.00)
INDU 6421 Systems Safety Engineering and Management (4.00)

4

credits chosen from Elective Courses:

INDU courses (Topic Area E12 - Industrial Engineering)
MECH courses
ENCS courses (Topic Area E01 - Mathematical Methods)

Option VI. Industrial Engineering General Stream (45 credits)

25

credits of Industrial Engineering Core Courses

INDU 6121 Applied Optimization (4.00)
INDU 6211 Production Systems and Inventory Control (4.00)
INDU 6310 Applied Probability and Statistics for Engineers (4.00)
INDU 6311 Discrete System Simulation (4.00)
INDU 6990 Industrial Engineering Capstone (9.00)

20

credits chosen from Elective Courses:

INDU courses (Topic Area E12 - Industrial Engineering)

MECH courses

ENCS courses (Topic Area E01 - Mathematical Methods)

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