Skip to content ↓

Josh McDermott receives NAS Troland Research Award

Cognitive scientist is recognized for groundbreaking research into how humans hear and interpret sound.

Press Contact:

Sara Cody
Phone: 617-253-1564
Department of Aeronautics and Astronautics
Close
Josh McDermott
Caption:
Josh McDermott
Credits:
Photo courtesy of the Department of Brain and Cognitive Sciences

Josh McDermott, assistant professor in the Department of Brain and Cognitive Sciences, is a recipient of the Troland Research Award from the National Academy of Sciences (NAS). McDermott, a cognitive scientist, is recognized for his unique engineering approach to study audition; the award cites his “groundbreaking discoveries about how people hear and interpret information from sound in order to make sense of the world around them.”

McDermott’s research goal is to better understand how the brain derives information from sound, by studying how it interprets signals from acoustic sensor arrays (in the ears) to make inferences about the environment. McDermott has pioneered new approaches to studying audition by applying a combination of cognitive principles (learning, memory, attention, etc.), neuronal and behavioral experimental data, and computational models.

His unique experimental approach to study audition has yielded important insights, such as the effects of reverberation on hearing, how humans extract pitch and perceive music across cultures, and a deeper understanding of the structure and function of the human auditory cortex. McDermott’s work has the potential to impact our ability to treat hearing impairment and build machines that can better interpret sound by mirroring human capabilities.

The Troland Research Award is given annually to two young investigators who further empirical research within the broad spectrum of experimental psychology. McDermott and 18 other investigators being honored by the NAS in various capacities will receive their awards in a ceremony on April 29 during the academy's 155th annual meeting. 

Related Links

Related Topics

Related Articles

More MIT News

Globular blue and white orbs "examining" single-stranded RNA products and marking them with green checks or red x's

Why are some bacterial genes high in purines?

In certain species of bacteria, the answer lies in shielding RNA transcripts from a quality-control factor called Rho. Understanding the requirements for expressible sequences is critical for expression engineering of therapeutic agents.

Read full story

Rich Nielsen, Volha Charnysh, Kevin Dorst, and Emily Richmond Pollock seated at a table, talking

Building a scholarly community

The SHASS Faculty Fellows Program, administered by the MIT Human Insight Collaborative, is fostering new research projects and creating space for supportive and interdisciplinary discussion.

Read full story