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A researcher tests a prototype ankle exoskeleton adapted with machine learning capabilities to adaptively and intelligently provide assistance.
STRIVE Center
Researchers at the STRIVE Center are developing a fluid, intuitive exoskeleton system to improve the technology’s use in operational environments.
A participant walks on the treadmill in a virtual hospital hallway while the platform applies a rotation perturbation.
STRIVE Center
Researchers at the STRIVE Center are improving methods for identifying the mechanisms underlying balance impairments in patients with mild traumatic brain injury (mTBI).
Model-Based Systems Engineering Analysis image of warfighter
systems engineering
We are developing a tool to evaluate the landscape of wearable sensors, algorithms, and technologies and apply them to warfighter health and performance monitoring.
A screenshot of the NetProf mobile interface shows two words (the Farsi word for capacity, and the Ukranian word for self-defense), with each word broken down by phoneme.
speech recognition
Powered by our automatic speech recognition technology, the Networked Pronunciation Feedback (NetProF) software application helps students practice pronunciation in foreign languages.
Psychological disorders have been shown to impact speech patterns. The PTSD screening tool will be able to detect these patterns and therefore inform military healthcare monitoring.
health
Psychological disorders have been shown to impact speech patterns. The PTSD screening tool will be able to detect these patterns and therefore inform military healthcare monitoring.
An image of the handheld AI-Guide tool. it consists of a grey plastic device, with a small screen and a needle cartrige; a white ultrasound probe; and an orange application-specific guidewire cartridge.
health
Hemorrhage causes 90% of preventable battlefield deaths. AI-GUIDE is designed to address this issue by enabling medics to catheterize a major blood vessel, through which life-saving aid can be delivered, in a pre-hospital setting.
The Laboratory's advanced work in miniaturized electronics enabled the development of EnteroPhone™.
biomedical
A wireless, ingestible device monitors heart and breathing rates by listening to the body's sounds and senses core temperature, all from within the gastrointestinal tract.
The commercial chest strap is equipped with the Laboratory-prototyped sensor hub. The sensor hub takes physiological measurements, which are used to estimate a strain index. This index indicates if the wearer is at risk for a heat-related illness.
biometrics
New sensors that gather data on a soldier's physiological state can help prevent heat-related injuries.

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