The state of ΒιΆΉΣ³» has long had a thriving aerospace industry, and now the ΒιΆΉΣ³» has an aerospace engineering program that can provide educated employees and research and development partnership to that industry. A minor in aerospace is in effect for Fall 2021, and plans are in the works for bachelor’s and graduate degrees in the following years.
The aerospace program is led by Petros Voulgaris, Department of Mechanical Engineering Chair, Founding Aerospace Engineering Program Director and Victor LaMar Lockhart Professor, who joined the University in January 2020.
“At this stage in my career I felt it will be exciting to challenge myself in assuming a leadership role to build from ground zero a new academic program in aerospace,” Voulgaris said. “The ΒιΆΉΣ³» presented such an interesting opportunity from several angles and gave me a very positive impression about its commitment to start the program. Also, there is great growth in the area of the aerospace industry, and so there is high promise for a successful aerospace engineering program.”
The program’s goal is to support the region’s well-established and startup aerospace industries and attract companies from other locations by producing well-trained employees and interns and developing research programs in aerospace engineering.
Program to support ΒιΆΉΣ³»'s aerospace industry
ΒιΆΉΣ³», which is home to Nellis and Creech Air Force Bases, as well as Naval Air Station Fallon, has played an important role in developing security technologies since World War II. In 2013, the Federal Aviation Administration designated the state as a UAS test site, which encouraged research to integrate autonomous systems into the nation’s airspace.
That same year, in response to growing industry demand, the College of Engineering launched a minor in unmanned autonomous systems. And thanks to new research opportunities opened up by ΒιΆΉΣ³»’s test site designation, the College has hired a number of faculty in recent years with expertise in aerial robotics and aerial systems, putting the pieces in place to develop the aerospace engineering program.
Over the next several years, the Department of Mechanical Engineering plans to hire a number of faculty to create new classes and establish aerospace engineering research programs. According to Voulgaris, the program will start with a minor in aerospace engineering with a bachelor’s degree and graduate degree programs in aerospace engineering soon to follow. For Voulgaris, a high priority will be continue hiring new faculty who will teach new aerospace engineering courses and develop related research programs.
“I believe that faculty candidates will be very attracted to the ΒιΆΉΣ³», and I plan to put most of my effort in hiring more highly qualified AE applicants,” he said. “With the simultaneous development of suitable lab spaces for the new hires, I envision that an ABET accredited program can be in place in the next five to six years.”
Aerospace program will emphasize interdisciplinary research
Voulgaris also sees promising possibilities for interdisciplinary research collaborations within the mechanical engineering department and around the College of Engineering.
“FAA’s designation of ΒιΆΉΣ³» as a UAS test site is an example of an opportunity that is conducive to interdisciplinary research,” Voulgaris said. “You need to design and manufacture such systems, aerodynamically test, develop control algorithms and software, check for security and safety, etc. All of this can involve mechanical, aerospace and computer science faculty. The existence of a UAS minor fits well into the overall scheme of an interdisciplinary approach to education, which also leads to AE-related research.”
Voulgaris brings 30 years of experience as a faculty member and researcher in aerospace engineering to the job. His research focuses on the control and coordination of dynamical systems with an emphasis on aerospace applications. Of particular interest to Voulgaris are autonomous UAVs that can perform numerous coordinated tasks related to surveillance, fire protection, defense or transportation.
“A significant aspect of my work is centered on the efficiency and security of these multi-agent systems,” Voulgaris said. “The cyber-physical nature of these applications makes it necessary to have, on top of system efficiency, effective failure/malicious attack detection and recovery to safety mechanisms. The analysis and synthesis for resiliency and high performance in such systems are extremely challenging problems. New developments in AI and machine learning can provide some partial solutions but lots remains to be done.”