Specialization electives

The specialization electives are specific for each stream. If you are in the Mechanical Engineering stream, then you have to choose three courses from a selection of the core courses and specialization electives in the master's program Mechanical Engineering. In the Operations Management & Logistics stream, you have to choose from a selection of the core courses, track core courses and specialization electives in the master's program Operations Management & Logistics.

Specialization electives for the Operations Management & Logistics stream

The list below contains the specialization electives for the Operations Management & Logistics stream in the Manufacturing Systems Engineering  program:

  • E-business
  • Advanced Maintenance and Service Logistics
  • Multivariate statistics
  • Business process management
  • Modeling and analysis of manufacturing systems
  • Retail operations
  • Decision Making in Transport and Logistics
  • Business information systems architecture
  • Integrated financial & operations management
  • Game theory with applications to supply chain management
  • Management of Organizational Change and Innovation 
  • Business Intelligence
  • Design of Operations Planning and Control Systems
  • Design of Service Operations
  • Design for Transport and Logistics
  • Multi-Echelon Inventory Management
  • Innovations in global freight transport
  • Software requirements management: quality and functionality
  • Sustainable supply chains
  • Designing effective performance management systems
  • System Dynamics 

Specialization electives for the Mechanical Engineering stream

The list below contains the specialization electives for the Mechanical Engineering stream in the Manufacturing Systems Engineering program:

  • Control Engineering
  • Micro Fabrication
  • Adv. Eng. Math for MW
  • Composites and Light-weight Materials
  • System Theory for Control
  • Multibody and Non-linear Dynamics
  • Structural Dynamics and Vibro-acoustics
  • Experimentation
  • Hybrid Systems and Control 
  • Polymer Processing
  • Heat and Flow in Microsystems 
  • Optimisation
  • Scientific Computing
  • Non-linear Control
  • Microfluidics put-to-work
  • Supervisory Control 
  • Physical Modelling
  • Structural Integrity and Reliability
  • Modelling and Control of Manufacturing Systems
  • Advanced Motion Control
  • Deformation and Failure
  • Mechanics of Micro-electronics
  • Dynamics and Control of Cooperation
  • Control of Distributed Parameter Systems
  • Intro Petroleum Production