rootbrowseIAC-19A1session 22. Human Physiology in SpacePapers1. Assessment of the NASA Research Program Research Portfolio2. Individual locomotion strategies for different stages of a long-term space mission3. Evaluation of the effects of 60-days Head-Down Bed Rest and Nutritional Countermeasure on cardiac circadian rhythms4. Effect and recovery of long-duration spaceflight on the ventricles of the astronaut’s brain.5. Impact of long duration space flight on the brain structure of space crew measured with voxel and surface based morphometric methods using MRI6. Implementation of machine learning to gauge human response to noise to eliminate its adverse effects onboard spacecraft7. modeling forces of the mobile gravity suit for long-duration spaceflight8. The Acoustic Diagnostics Experiment Of The Mission Beyond: Advanced Otoacoustic Tests On The International Space Station9. Computational Fluid Dynamics Applied to the Study of Relative Motion Between Calcium Crystals and Endolymph.10. Novel approach to countermeasures using soft robotics11. Cognitive Function of Suborbital Spacecraft Pilots12. The effects of 7 days of whole body unloading using a hyper buoyancy flotation (HBF) bed on skeletal muscle mass13. Numerical simulation of cardiovascular system deconditioning in different microgravity mission scenarios. Risk assessment and countermeasures.14. Mitigating the Effects of Free-fall Adaptation Using Vestibular Yoga Training