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L-8: Using Human-Machine Interactions to Enhance Astronaut Performance and Adaptation in Reduced Gravity Environments.

机译：L-8：利用人机交互增强宇航员在减少重力环境中的性能和适应性。

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Burkhart, C.;
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年度 2016
页码 1-27
总页数 27
原文格式 PDF
正文语种 eng
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1. Adaptation to rotating artificial gravity environments. [J] . Lackner JR, DiZio PA Journal of vestibular research: equilibrium and orientation . 2003,第4a6期

机译：适应旋转的人工重力环境。
2. Development of the Digital Astronaut Project for the analysis of the mechanisms of physiologic adaptation to microgravity: Validation of the cardiovascular system module [J] . Richard Summers, Thomas Coleman, Janice Meck Acta astronautica . 2008,第7a10期

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3. Additive main effects and multiplicative interactions analysis of grain yield performances in rice genotypes across environments. [J] . Sanni K. A., Ariyo O. J., Ojo D. K., Asian Journal of Plant Sciences . 2009,第1期

机译：水稻在不同环境中基因型的增产主效应和乘性相互作用分析。
4. Reliability of Human-Machine Interaction in Distributed Information Environments. Models for Morphological Analysis and Optimization of Group Activities [C] . Evgeniy Lavrov, Olga Siryk, Nadiia Pasko, International Conference on Problems of Infocommunications. Science and Technology . 2020

机译：分布式信息环境中人机交互的可靠性。组分分析模型和群体活动优化
5. An Unpowered Exoskeleton to Reduce Astronaut Hand Fatigue during Microgravity EVA. [D] . Carey, Alan John. 2016

机译：无动力外骨骼，可减少微重力EVA期间宇航员的手部疲劳。
6. Per-Cooling (Using Cooling Systems during Physical Exercise) Enhances Physical and Cognitive Performances in Hot Environments. A Narrative Review [O] . Wafa Douzi, Olivier Dupuy, Dimitri Theurot, 2020

机译：每次冷却（在体育锻炼中使用冷却系统）可提高炎热环境中的身体和认知能力。叙事评论
7. A 20-year evolution of cardiac performance in microgravity in a male astronaut [O] . Ulrich Limper, Stefan Moestl, Jens Tank, 2020

机译：在男性宇航员中的微重力中的心脏表现20年的演变

L-8: Using Human-Machine Interactions to Enhance Astronaut Performance and Adaptation in Reduced Gravity Environments.

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