DavidÌýTemple
- (He, His)
- Postdoctoral Associate
- BIOSERVE SPACE TECHNOLOGIES
Office Location: AERO 340-C
Education
PhD, Kinesiology, University of Houston, 2019
MS, Kinesiology,ÌýTexas A&M University-Corpus Christi, 2010
BS, Kinesiology, Texas A&M University-Corpus Christi, 2008
AA, Liberal Arts, Del Mar College, 2005
Professional Experience
2022 - 2024, TRISH Postdoctoral 91ÃÛÌÒ¸ó Fellow, Aerospace Engineering Sciences, 91ÃÛÌÒ¸ó
2021 - 2022, Postdoctoral Associate, Aerospace Engineering Sciences, 91ÃÛÌÒ¸ó
2014 - 2014, Summer Apprentice, National Space Biomedical 91ÃÛÌÒ¸ó Institute (NSBRI)
2011 - 2019, 91ÃÛÌÒ¸ó Affiliate, Center for Neuromotor and Biomechanics 91ÃÛÌÒ¸ó (CNBR), University of Houston
Awards (selected)
2022, Outstanding Mentor Award, Aerospace Engineering Sciences, 91ÃÛÌÒ¸ó
2022, Translational 91ÃÛÌÒ¸ó Institute forÌýSpace Health (TRISH) Postdoctoral Fellow
91ÃÛÌÒ¸ó Interests
Aerospace human factors, human sensorimotor/proprioceptive/vestibular function and adaptation, spatial orientation perception and motion sickness, pilot spatial disorientation, artificial gravity
Recent Publications
Temple, D.R., Klausing, L.N., Hogoboom, B.C., Datta, A., & Clark, T.K. (2025). Exploring GVS as a display modality: cutaneous sensations and cue association maintenance. Experimental Brain 91ÃÛÌÒ¸ó. 243, 97.
Stone, T., Clark, T.K., &ÌýTemple, D.R. (2025). Noisy galvanic vestibular stimulation induces stochastic resonance in vestibular perceptual thresholds assessed efficiently using confidence reports. Experimental Brain 91ÃÛÌÒ¸ó. 243, 34.
Temple D.R., Pepper S., Hogoboom B.C., Klausing, L.N., Datta A., Burkhart, C., & Clark, T.K. (2024) Exploring GVS as a display modality: signal amplitude and polarity, in various environments, impacts on posture, and with dual-tasking. Experimental Brain 91ÃÛÌÒ¸ó. 242, 2443-2455.