As the field of systems engineering matures, engineers are finding that the complex problems that can effectively be addressed by systems engineering practices have expanded well beyond the traditional defense and aerospace industries.
As you consider seeking education beyond your undergraduate degree, you should have a clear understanding of what you want to do in your future career and learn how a graduate degree will help you reach your goals.
In any successful program, there is someone who is the
go to person, who ties it all together and makes magic happen. For more than fifteen years, Jacqueline Rowe has been that person for the Systems Engineering program at Johns Hopkins Engineering for Professionals.
Software systems engineering addresses software development from the early stages of systems specification through maintaining the system while in use. Software engineering applies the computer science theories and methods that underlie computers and networks to solve practical challenges and produce practical software.
Having a systems engineering master’s degree from Johns Hopkins University will by far provide the strongest evidence to any employer that an individual has the qualifications and skills to perform at the highest level in the field. A question often is raised as to whether industry-based credentials offer an employee or an organization added return-on-investment.
The Johns Hopkins University Whiting School of Engineering, in partnership with the INCOSE Foundation, has announced the opening of applications for this year's Alexander Kossiakoff Scholarship Award.
This scholarship recognizes and encourages students in master's or doctoral programs that are engaged in promising applied systems engineering research.
In 2008, Jim Conroy took his first class with Johns Hopkins Engineering for Professionals. It was a basic antennas course taught by Dr. Steven Weiss, an accomplished electrical engineer at the U.S. Army Research Laboratory.
Four years and a lot of calculations later, Conroy was inspired not only to take more advanced antennas courses but also to start pursuing an intensive independent study project with his now friend and mentor, Dr. Weiss.
Humans are a part of every complex system—even autonomous systems involve people. People set the mission, use the products, and maintain the technology. As such, systems engineering requires an understanding of human capabilities and limitations, both as individuals and as social groups. Methods to integrate humans and technology, and measurement of human integration effectiveness and efficiency of that integration, are critical skills in systems engineering.
Steve Topper has taught students at Johns Hopkins Engineering for Professionals for the past three years. His courses have been taught in the partnership program with industry in Arizona, California, Maryland, and Indiana, and have involved a mix of distance, online, and live learning. He has averaged teaching four courses a year.
Beyond gaining strong technical skills, today's systems engineers need to hone their presentation and communications skills. Without these skills, the best engineering designs are more difficult to implement and understand. Whether speaking to your technically diverse development team, your customer, or to the user—you need to be comfortable in front of the group.