• You can click here for further information about the master’s program:
• Master of Industrial Systems and Engineering: Download Handbook
• Master of Logistics and Supply Chain Management: Download the handbook
• Bachelor’s-Master’s combined degrees (BS-MS program): Download the handbook

• Program Curriculum for LSCM Master program Batch 2022 forward: Click here for the download

Within 2-3 years of graduation, the graduates of the Master of Engineering in Industrial and Systems Engineering Program are capable of:

Practicing at an advanced level in industrial and systems engineering roles across manufacturing, service, healthcare, and other complex enterprises, who:

• Design, optimize, and integrate large-scale socio-technical systems.
• Manage and improve operations using systems thinking, analytics, and digital transformation tools.
  Transform complex industrial systems through systems-level innovation, quantitative modeling, and engineering judgment.
• Support decision-making in complex systems using analytics, optimization, and engineering judgment.

Pursuing lifelong learning and professional development, including advanced certification, specialization, or doctoral studies, to remain current with emerging technologies and methodologies in industrial and systems engineering.

Leading interdisciplinary teams and projects, demonstrating strategic thinking, communication, and professional integrity in global and multicultural environments

Contributing to the advancement of industry and society, particularly in Vietnam and the region, by applying systems thinking and engineering methodologies to improve organizational performance with ethical and sustainable considerations.

(1)An ability to identify, formulate, and solve complex industrial and systems engineering problems by applying advanced principles of engineering, analytics, and systems thinking.
(2) An ability to design and improve socio-technical systems that integrate people, processes, technology, and information to meet specified performance, safety, quality, and sustainability objectives.
(3) An ability to communicate effectively with a range of audiences, including engineering professionals, executives, and academic stakeholders
(4) An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
(5) An ability to function effectively on cross-functional teams, providing leadership and strategic systems thinking to address enterprise-level challenges in diverse industries.
(6) An ability to develop and apply advanced analytics in complex systems and use engineering judgment to optimize their performance.
(7) An ability to independently acquire and apply new knowledge, demonstrating autonomy, initiative, and adaptability to evolving technologies, analytical tools, and global practices in industrial and systems engineering.

• The academic program for enrollment batch from 2022: Click here for the download

• Thesis Implementation Plan for the First Semester of the Academic Year 2025–2026. 
• List of Graduate Courses 2014
• List of graduate courses 2015
• List of Graduate Courses 2016