Task Effect of Sensorimotor Adaptation Following Long-Duration Spaceflight on Perception and Control of Vehicular Motion (Wood) (Completed)
Last Published:  07/31/19 10:05:33 AM (Central)
Short Title: Manual Control - Wood
Responsible HRP Element: Human Health Countermeasures
Collaborating Org(s):
Other:
Research Operations and Integration (ROI)
Funding Status: Completed - Task completed and produced a deliverable
Procurement Mechanism(s):
Solicited
Aims:
1.The primary goals of this investigation are to quantify post-flight decrements in manual control performance during a rover simulation (both acute and recovery), and to examine the relationship between manual control errors and adaptive changes in sensorimotor function and motion perception.


This task informs BHP gaps: BMed3 and Sleep2.

Mappings
RiskRisk of Adverse Cognitive or Behavioral Conditions and Psychiatric Disorders
You are here!TaskEffect of Sensorimotor Adaptation Following Long-Duration Spaceflight on Perception and Control of Vehicular Motion (Wood)

RiskRisk of Impaired Control of Spacecraft/Associated Systems and Decreased Mobility Due to Vestibular/Sensorimotor Alterations Associated with Spaceflight
You are here!TaskEffect of Sensorimotor Adaptation Following Long-Duration Spaceflight on Perception and Control of Vehicular Motion (Wood)

RiskRisk of Performance Decrements and Adverse Health Outcomes Resulting from Sleep Loss, Circadian Desynchronization, and Work Overload
You are here!TaskEffect of Sensorimotor Adaptation Following Long-Duration Spaceflight on Perception and Control of Vehicular Motion (Wood)