Argall Presented with NSF CAREER Award

Prof. Argall is among a select number of Northwestern University faculty members to receive the prestigious distinction.

Prof. Brenna Argall

Prof. Brenna Argall has been awarded the prestigious Faculty Early Career Development (CAREER) Award from the National Science Foundation (NSF).

Prof. Argall is among a select number of Northwestern University faculty members to receive the prestigious distinction. With her CAREER award project, Prof. Argall's goal is to study algorithmic approaches tailored specifically to the unique constraints of learning from motor-impaired users, and an evaluation of these algorithms by end-users.

The CAREER award, the NSF’s highest honor for junior faculty members, supports early career development of individuals who exemplify the role of teacher-scholar through outstanding research, excellent education and the integration of education and research. Begun in 1995, the program provides promising faculty the opportunity to pursue outstanding research, education and the integration of education and research within the context of the mission of their organizations. 

The minimum CAREER award size is $400,000 for a five-year period. Prof. Argall’s grant award totals $525,000 and will be directed toward advancing human ability through the introduction of robotics-inspired automation and adaptation to human-assistive devices.

“A significant paradox exists,” said Prof. Argall. “The more severe a person’s motor impairment, the more challenging it is for him or her to operate the very assistive machines meant to enhance their quality of life. We are spearheading a new area of research at the intersection of autonomous robots and rehabilitation, incorporating robotics autonomy and intelligence into assistive machines, offloading some of the control burden from the user to the machine.”

Prof. Argall's further research, includes how autonomous robots already synthetically sense the world, generate motion and compute cognition—any of which might be adapted to help address sensory, motor and cognitive impairments in humans. In order to achieve widespread adoption, her algorithm will adapt to the varied and variable needs of users. Patient populations who are poised to benefit from such advances include those with Amyotrophic Lateral Sclerosis (ALS), Muscular Dystrophy (MD), Multiple Sclerosis (MS), high level Spinal Cord Injury (SCI), Spinal Muscular Atrophy (SMA), Cerebral Palsy (CP), Traumatic Brain Injury (TBI), Parkinson Disease and stroke survivors, among others.

“We will treat motor impairments as an advantage rather than a constraint for machine leaning algorithms, enabling the customization of the machines’ control by the end-users themselves,” said Prof. Argall. “RIC—touting a diverse population of patients, clinicians and researchers—is uniquely poised to transform rehabilitation science with this work.”

To read a detailed profile of Prof. Argall on RIC’s website, please click here.

Read a McCormick News article, titled, "Brenna Argall Receives CAREER Award."

McCormick News Article