Graduate Certificate in Engineering Management Overview
The online Graduate Certificate in Engineering Management develops specialized expertise to help you take charge of complex projects and guide innovation. University of Arizona faculty designed this program for full-time professionals who are interested in starting or advancing their careers as leaders in technology-based organizations. Learn the skills to manage human and material resources, make decisions under uncertain conditions, and reach your career goals.
As a student in the University of Arizona engineering management program, you’ll examine the inner workings of financial modeling and project management and gain hands-on experience in working with the latest software and technical tools used by companies around the globe. This program can help you build a strong foundation for your future as a management professional and lead into earning your master’s degree.
After completing your engineering management certificate online, you’ll be positioned to pursue leadership positions with groundbreaking companies and technological innovators. Focus on the skills that fit your career path by choosing from electives in high-demand fields like quality engineering, simulation modeling, optimization, or technical sales.
According to the US Bureau of Labor Statistics, the top employers for engineering managers include the following industries:
- Manufacturing
- Professional, technical, and scientific services
- Information sector
- Finance and insurance
- Accommodation and food services
- Construction
The online engineering management certificate program benefits from the University of Arizona’s well-established history of academic excellence in engineering, providing access to expert faculty and comprehensive material in an accelerated, flexible format. Take advantage of the same resources as on-campus students, including comprehensive career services, while preparing to achieve your long-term objectives.
Total units of credit: 12
Learn the business side of engineering through this program designed specifically for those who want to lead technological organizations and projects. With courses that cover analytics, project management, decision-making, and financial modeling, this certificate is a convenient, accelerated path to becoming an effective leader.
These 100% online courses are made for professionals who want to increase their skills while working full time. The online Graduate Certificate in Engineering Management takes less time than a master’s program — complete three core courses and one elective course to earn your credential.
Core courses (9 units required): Engineering Decision Making Under Uncertainty, Project Management, Financial Modeling for Innovation
Elective courses (3 units required): Choose one elective.
Core Courses (9 units)
Application of principles of probability and statistics to the design and control of engineering systems in a random or uncertain environment. Emphasis is placed on Bayesian decision analysis. Graduate-level requirements include a semester research project.
Foundations, principles, methods, and tools for effective design and management of projects in technology-based organizations. This course focuses on the scope, time, cost, performance, and quality concerns of engineering projects characterized by risk and uncertainty. Initiating, planning, executing, monitoring, controlling, and closing processes are addressed. Students design and complete a project from concept through completion. Project management software is utilized. Graduate-level requirements include completing a more complex project which will include more tasks and will be characterized by greater risk and uncertainty.
Financial modeling and simulation of new technology ventures. Topics include Pro Forma financial statements construction, time value of money, accounting, valuation, and technology-ownership issues. Entrepreneurship issues related to forming a company will be discussed. This course is intended for graduate students in science or engineering with little or no prior background in engineering economics.
Elective Courses (3 units)
Quality, improvement, and control methods with applications in design, development, manufacturing, delivery, and service. Topics include modern quality management philosophies, engineering/statistical methods (including process control, control charts, process capability studies, loss functions, experimentation for improvement) and TQM topics (customer driven quality, teaming, Malcolm Baldridge, and ISO 9000). Graduate-level requirements include additional readings and assignments/projects.
Principles of the engineering sales process in technology-oriented enterprises; selling strategy, needs analysis, proposals, technical communications, electronic media, time management, and ethics; practical application of concepts through study of real-world examples. Graduate-level requirements include a term paper on a course topic selected from a short list of topics, other graded components of the course, and creation of a PowerPoint presentation to the class.
Discrete event simulation, model development, statistical design and analysis of simulation experiments, variance reduction, random variate generation, and Monte Carlo simulation. Graduate-level requirements include a research report.
Survey of methods including network flows, integer programming, nonlinear programming, and dynamic programming. Model development and solution algorithms are covered. Graduate-level requirements include additional assigned readings and a project paper.
Focuses on principles of cost estimation and measurement systems with specific emphasis on parametric models. Approaches from the fields of hardware, software, and systems engineering are applied to a variety of contexts (risk assessment, judgment and decision making, performance measurement, process improvement, adoption of new tools in organizations, etc.). Material is divided into five major sections: cost estimation fundamentals, parametric model development and calibration, advanced engineering economic principles, measurement systems, and policy issues. Graduate-level requirements include a final paper.
