James E. Hubbard Jr.

Dr. James E. Hubbard Jr
Born	December 21, 1951 Danville, Virginia
Education	B.S., M.S., and Ph.D. in mechanical engineering from Massachusetts Institute of Technology
Occupation	Mechanical engineer
Known for	Founding father of the field of adaptive structures

Dr. James E. Hubbard Jr (born December 21, 1951) is a mechanical engineer who has made significant contributions to the field of aerospace engineering throughout a career spanning more than four decades in academia and industry.^[1]

Hubbard is considered a pioneer in the field of adaptive structures having developed piezo-film sensors and piezoelectric actuation systems for suppressing vibration and noise, surface morphing, and other applications.^[2] Hubbard has published more than 100 technical papers and three books in the areas of adaptive structures and photonics.^[3] He cofounded three companies and has received 24 U.S. and worldwide patents, leading to technological advances benefiting the aerospace, medical, defense, and other industries.^[4]

In 2016, Hubbard was elected a member of the National Academy of Engineering for advances in the modelling, design, analyses, and application of adaptive structures.^[5] He has also received the International Society for Optics and Photonics' Smart Structures Product Innovation Award (1999)^[6] and the Lifetime Achievement Award (2016).^[7]

Career

Following graduation from Baltimore Polytechnic Institute (an engineering high school), Hubbard began his career in 1971 as an engineering officer in the U.S. Merchant Marine shipping munition and equipment to the war effort in Vietnam.^[8] He was one of only a handful of African Americans serving in the U.S. Merchant Marine fleet, and at 19, he became one of the youngest servicemen licensed by the U.S. Coast Guard as a marine engineer.^[8] Hubbard graduated from Massachusetts Institute of Technology (MIT) with his B.S. and M.S. degrees in mechanical engineering in 1977 and 1979, respectively.^[9] For his doctorate, Hubbard researched helicopter aeroacoustics, and in 1982, he became MIT's first black Ph.D. in mechanical engineering.^[9]

Hubbard served on the faculty at MIT researching active vibration control of structures.^[10] Hubbard's research in the early 1980s led to what many consider the first example of an adaptive structure,^[11] one that can change its structural characteristics in response to external stimuli. Mechanical vibrations can cause systems – particularly large spacecraft structures such as telescopes and satellites – to fail or affect their precision. In 1985, Hubbard and coauthor Thomas Bailey published a seminal paper describing how a thin, continuous piezoelectric film could both sense vibration and apply its own electric force to dampen the vibrations of a steel beam.^[12] Hubbard was granted two patents for this research.^[13][14] Today, he is considered the founding father of the field of adaptive structures,^[11] which has numerous applications ranging from damping vibrations to morphing aircraft to deployable space structures. As an assistant professor at MIT, Hubbard received one of five nationwide IBM Young Faculty Development Awards.^[15] For his teaching and mentoring efforts, Hubbard earned the Goodwin Medal for "conspicuously effective" teaching^[16] and the Steward Award for outstanding service to the community.^[17] He was also recognized as a Scott Foundation Fellow and Vertical Flight Foundation Fellow.^[18] While lecturing at MIT, Hubbard also held positions at two research and development organizations, Charles Stark Draper Laboratory and Optron Systems, Inc. As chief of adaptive sensors at Charles Stark Draper Laboratory, he was recognized with annual awards for best technical patent, best paper, and best invention.^[19]

In 1995, he accepted a position at Boston University's newly founded Photonics Center, a research institution and high-tech incubator.^[20] While at the Photonics Center, Hubbard cofounded two companies – PhotoSense, Inc. and iProvica Inc. – and developed 12 patents, including one for Smart Skin technology.^[21] Smart Skin is a large-area sensing surface with a wide range of applications from hospital beds that can track a patient's medical indicators to car seats that sense the size and weight of a passenger.^[22]

In 2004, Hubbard joined the University of Maryland as director to both the Morpheus Laboratory and the Center of Adaptive Aerospace Vehicle Technology at NASA's National Institute of Aerospace.^[23] The research program focused on improving the aerodynamic efficiency of modern air vehicles by enabling radical shape change – for example, improving the fuel efficiency and range of drones by designing wings that morph as aerodynamic conditions change.^[24] Hubbard is currently a Texas A&M Engineering Experiment Station Eminent Professor^[25] and Hagler Institute for Advanced Studies Fellow at Texas A&M University in College Station, Texas.^[26] He is leading the StarLab at the RELLIS Campus where researchers are advancing the science of autonomous vehicles and human–robot teaming.^[27] This work becomes increasingly important as autonomous vehicles are used in a growing number of applications, from self-driving cars to crop surveys to search-and-rescue missions.^[28]

References

1. Grauer, Jared A. and James E. Hubbard Jr. (2013) "About the authors." Flight dynamics and system identification for modern feedback control. Woodhead Publishing Limited: Cambridge, UK. xxi-xxii. Print.
2. University of Maryland A. James Clark School of Engineering (2016) "Hubbard Elected to the National Academy of Engineering."
3. Google Scholar. James E. Hubbard Jr. Accessed 2019-08-22.
4. Hagler Institute for Advanced Study at Texas A&M University. Dr. James E. Hubbard Jr. Accessed 2019-08-22.
5. National Academy of Engineering (2016) "National Academy of Engineering Elects 80 Members and 22 Foreign Members."
6. Texas A&M University J. Mike Walker ’66 Department of Mechanical Engineering. James Hubbard Jr. Accessed 2019-08-22.
7. University of Maryland A. James Clark School of Engineering (2015) "Hubbard Named SPIE 2016 Smart Structures and Materials Lifetime Achievement Award Recipient."
8. The HistoryMakers. James Hubbard Jr. Accessed 2019-08-22.
9. MIT Black History. Faculty Notes: Teaching While Black at MIT. Accessed 2019-08-22.
10. University of Maryland A. James Clark School of Engineering (2013) "Hubbard Chosen for HistoryMakers Oral History Collection."
11. Clark, Robert, William Saunders, Gary Gibbs (1998) Adaptive Structures: Dynamics and Control. John Wiley & Sons, Inc.: New York, NY
12. T. Bailey and J.E. Hubbard (1985) "Distributed Piezoelectric-Polymer Active Vibration Control." J. Guidance. 8(5): 605–611. doi.org/10.2514/3.20029
13. Method and Apparatus Using a Piezoelectric Film for Active Control of Vibrations: U.S. Patent Number 4,565,940. January 21, 1986.
14. Method and Apparatus for Active Control of Vibrations: U.S. Patent Number 4,626,730. December 2, 1986.
15. National Institute of Aerospace (2016) "NIA Samuel P. Langley Distinguished Professor from UMD Elected to National Academy of Engineering."
16. MIT Office of Graduate Education. The Goodwin Medal. Accessed 2019-08-22.
17. MIT Black History (2016) Distinguished Scholar, Scientist, Engineer, Faculty Member, & Mentor. Accessed 2019-08-22.
18. MIT Black History. NASA Figures an MIT Constellation. Accessed 2019-08-22.
19. University of Maryland (2005) "Hubbard Named UM Langley Professor." Engineering at Maryland. 5(1): 4.
20. Craig, David (2002) "Photonics Center's Hubbard wins a Black Engineer of the Year award." B.U. Bridge. V(20)
21. A Smart Skin Sensor for Real-Time Side Impact Detection and Off-Line Diagnostics: U.S. Patent Number 5,797,623. September 3, 1998.
22. President’s Award: James E. Hubbard, Ph.D. (2002) U.S. Black Engineer & Information Technology. 26(1): 42.
23. University of Maryland A. James Clark School of Engineering (2015) "Hubbard Named ASME Fellow."
24. Morpheus Laboratory, University of Maryland Department of Aerospace Engineering. Morpheus Director. Accessed 2019-08-22.
25. Reiley, Jennifer (2018) "Hubbard joins the Department of Mechanical Engineering." Texas A&M Engineering News.
26. Totzke, Deana (2019) "Three College of Engineering faculty among Hagler Institute’s first permanent members." Texas A&M Engineering News.
27. Kuhlmann, Steve (2019) "Pursuing the future of autonomous vehicle technology at Texas A&M's StarLab." Texas A&M Engineering News.
28. "James E. Hubbard Jr". National Institute of Aerospace. Retrieved 2019-08-30.