The Master of Engineering in Industrial and System Engineering (MISE) is designed to provide researchers, scholars, and managers for the industrial and manufacturing engineering. Our proposed learners will be enhanced their knowledge, advanced analytic of industrial techniques, and systematic management both in and out of the industry fields. These are related to problem solving in regional, national and global aspects. Modern competencies, especially learning agility, are fostered to the learners who integrate information technology and engineering technology to create manufacturing innovation for Industry 4.0.
MISE Curriculum Collaboration
The MISE program has been developed following the project of Curriculum Development of Master’s Degree Program in Industrial Engineering for Thailand Sustainable Smart Industry (MSIE4.0). The project is co-funded by the Erasmus+ Programme of the European Union in part of Erasmus+ Capacity Building in Higher Education. The MSIE4.0 focused on:
- Modernization of the education of industrial engineering discipline in Thailand by the development of a curriculum for Master’s degree in industrial engineering to support sustainable smart industry,
- Development of courses, learning and teaching tools, delivery processes and platform for student-centered learning of the curriculum,
- Implementation of modern ICT tools and methodologies for effective student-centered learning of the curriculum,
- Introductions of quality assurance and of the EQF approach for the delivery of the curriculum meeting international accepted education requirements,
- Establishment and continuation of partnerships among partner universities.
MISE Program Learning Outcomes
- Design smart production, co-create product design and development in efficiency.
- Analyze Big data for supporting production management and real-time product design and development.
- Apply the research methodology in project management and operation for industrial problem solving.
- Function effectively on a team both in the role of leader and follower.
- Communicate academically according to situations and work context.
- Recognize ethical and professional responsibilities, and public consciousness.
MSIE Program Courses
Compulsory
ID | MISE | MSIE4.0 |
EN 427 110 | Smart Operations Management | Smart Operations Management |
EN 427 111 | Digital Factory | Digital Factory |
EN 427 210 | Applied Data Analytics | Applied Data Analytics |
EN 427 112 | Advanced Optimization: Techniques and Industrial Applications | Advanced Optimization: Techniques and Industrial Applications |
Elective
ID | MISE | MSIE4.0 |
EN 427 113 | Enterprise Management in Digital Economy | Enterprise Management in Digital Economy |
EN 427 114 | Project Management for Industry 4.0 | Project Management for Industry 4.0 |
EN 427 115 | Quality Management for Extended Enterprise | Quality Management for Extended Enterprise |
EN 427 116 | Sustainable Supply Chain Management | Sustainable Supply Chain Management |
EN 427 117 | Intelligent Decision Support System | Intelligent Decision Support Systems |
EN 427 118 | Collaborative Manufacturing Systems | Collaborative Manufacturing Systems |
EN 427 119 | Additive Manufacturing in Industry 4.0 | Additive Manufacturing in Industry 4.0 |
EN 427 120 | Human-centric Design for Operator 4.0 | Human-centric Design for Operator 4.0 |
EN 427 211 | Cyber-physical Industrial Systems | Cyber-physical Industrial Systems |
EN 427 311 | Customer Experience-driven Design | Customer Experience-driven Design |
EN 427 510 | Innovative Product Design and Development | Innovative Product Design and Development |
EN 427 101 | Scheduling Theory | |
EN 427 105 | Advanced Computer Simulation | |
EN 427 204 | Six Sigma | |
EN 427 300 | Material Handling Systems | |
EN 427 301 | Plant Layout and Facility Planning | |
EN 427 402 | Marketing Management for Industrial Engineer | |
EN 427 403 | Agricultural and Food Logistics and Supply Chain Management | |
EN 427 404 | Green Manufacturing Management | |
EN 427 405 | Enterprise Resource Planning | |
EN 427 406 | Lean Manufacturing | |
EN 427 600 | Supply Chain Cost and Economics Analysis | |
EN 427 894 | Current Topics in Industrial Engineering | |
RECAP 4.0
A joint capacity building project between five universities and three EU partner universities that is proposed to enhance the capacity and ability of the non-university sector at the tertiary level in Thailand for the effective delivery of engineering and technology knowledge and skills related to Industry 4.0 support Thailand Sustainable Smart Industry and to strengthen a partnership among participating European and Thai universities as well as benefited non-university sector.
The training program will cover three major areas of competence development for teaching technology. The first area will be on Industry 4.0 knowledge extracted from some of the recently developed sixteen courses of MSIE 4.0 curriculum that is sufficient for our trainees to understand and to have a chance to experience hands-on activities. The second area will be teaching skills enhancement. The trainees will be introduced to innovative teaching and learning methods including project-based and problem-based learning and trained on mentoring and coaching as well as communications. The last area will be curriculum development. They will learn an innovative learning experience-focused course design and development that has been developed in MSIE 4.0 project. The 10 modules will complete with innovative training materials.