MSc in Engineering Systems and Management

About the Program

The Master of Science in Engineering Systems and Management (MSc ESM) is an interdisciplinary program that brings together experts in engineering, design, economics, management and policy to teach and undertake research into large-scale complex systems. The mission of the MSc ESM is to create corporate and government leaders that can effectively deal with global energy and sustainability challenges that involve large scale systems. MSc ESM graduates are trained in strategy, industrial operations, operations research, and systems thinking. As such, they will be ideally positioned to take leadership positions in the private or public sector and guide research and implementation of advanced technologies, and optimize the operations and design of complex systems.

Program Educational Objectives

The objectives of the MSc in Engineering and Systems Management program are to produce graduates who have an:

Ability to identify and respond to complex engineering systems problems (involving technical and socioeconomic components).
Ability to apply advanced systems analysis tools in a multi-disciplinary setting in order to bound, plan, analyze, design and implement solutions to engineering systems problems, while advancing professionally and be recognized as leaders in their chosen fields.
Understanding of the complex interactions between the engineering system solutions and their implications on larger scale (regional, national, global) technological, economic, societal and environmental systems with a view on long-term sustainability.
Understanding of the value of technical and scientific scholarship, service to society, leadership and life-long learning required to further their career aspirations in support of the needs of the community.

Learning Outcomes

MSc in Engineering and Systems Management graduates will be able to:

Successfully apply appropriate combinations of advanced concepts of engineering, economics, system theory, management and policy to identify, formulate and address engineering systems problems, and acquire knowledge of contemporary issues in the field of engineering systems and management.
Successfully use advanced system analysis, operations research methodology, data management, and design tools (e.g. optimization, simulation, architecture, statistical analysis, surveys, applied principles and heuristics etc.) to design, develop, implement, integrate and improve systems and processes, and make educated objective decisions.
Understand and apply the relationships between the management tasks of planning, organization, leadership, control, and the human element in production, research, and service organizations along with an understanding of and dealing with the stochastic nature of organizational systems.
Assess the direct and indirect impact of engineering solutions on sustainable development (e.g., economic, environmental, and social factors) with a focus on engineering systems contemporary issues such as energy and health care delivery systems, while developing an aptitude for continuous improvement.
Use appropriate advanced methods to design, conduct and analyze experimental studies and manage data for engineering systems with a strong sociotechnical component.
Communicate effectively in written and oral form, both, individually and as a member of a multidisciplinary team, while conducting research, documenting and defending the research results.