Brain Machine Interfaces for Robotic Control in Space Applications, Phase I

This SBIR will study the application of a brain machine interface (BMI) to enable crew to remotely operate and monitor robots from inside a flight vehicle, habitat and/or during an extra-vehicular activity (EVA). The goal is to improve robot operator productivity, situational awareness, and effectiveness.

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Field	Value
Groups	AmeriGEOSS National Provider North America
Tags	amerigeo amerigeoss ckan geo geoss national north-america united-states
isopen	False
license_id	us-pd
license_title	us-pd
maintainer	TECHPORT SUPPORT
maintainer_email	hq-techport@mail.nasa.gov
metadata_created	2025-12-01T03:13:00.236632
metadata_modified	2025-12-01T03:13:00.236635
notes	This SBIR will study the application of a brain machine interface (BMI) to enable crew to remotely operate and monitor robots from inside a flight vehicle, habitat and/or during an extra-vehicular activity (EVA). The goal is to improve robot operator productivity, situational awareness, and effectiveness.
num_resources	4
num_tags	8
title	Brain Machine Interfaces for Robotic Control in Space Applications, Phase I