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a photo of a big room with several people, some off to the side filming a woman standing on a treadmill wearing the Biomotim SPARK device on both legs.

RESEARCH
READY!

A 3D render of our powered ankle exoskeleton

ENGINEERED
FOR RESEARCH

For researchers and educators who study human mobility, movement disorders, and their underlying neurological and physiological function, we offer a wearable robotic assist device that provides efficient, on-demand joint torque at the ankle.

 

The Biomotum SPARK is an untethered,

go-anywhere research platform which provides dorsiflexion and plantarflexion assistance or resistance, and can be customized for a wide variety of applications, including bilateral and unilateral impairments and augmentation for non-impaired individuals.

a closeup of a woman's legs wearing the Biomotum SPARK device on both legs.

RESEARCH GRADE

Precise quantifiable ankle

joint assistance or resistance

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Matlab controller for data syncing and biofeedback integration

a boy walking up a set of stairs indoors wearing the Biomotum SPARK device on both legs

UNTETHERED

Stairs, uphill, downhill, gravel,

and uneven surfaces

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Ambulation assistance and data collection in laboratory and real-world settings

RAPID SETUP

Less than 3 minute to

donn, calibrate and configure​

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Intuitive and simple setup to maximize data collection and productivity 

a photo of the Biomotum SPARK waist pack

LIGHTWEIGHT

Engineered to minimize

weight of distal components​

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Provides optimal walking performance and efficiency in adults and children

a photo of the Biomotum SPARK device

RESEARCH PARTNERS

NIH Logo
NAU Logo
UW Logo
Gilette Children's Logo
University of Phoenix Logo
a closeup of a woman's legs wearing the Biomotum SPARK device on both legs.

SEE THE SCIENCE!

Our products are rigorously tested and validated through clinical studies for usability and effectiveness. See the evidence supporting robotic assisted walking.

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