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Biocybernetic Adaptation Strategies: Machine Awareness of Human Engagement for Improved Operational Performance

机译:生物纤维适应策略:机器对人类参与的认识,提高运营表现

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Human operators interacting with machines or computers continually adapt to the needs of the system ideally resulting in optimal performance. In some cases, however, deteriorated performance is an outcome. Adaptation to the situation is a strength expected of the human operator which is often accomplished by the human through self-regulation of mental state. Adaptation is at the core of the human operator's activity, and research has demonstrated that the implementation of a feedback loop can enhance this natural skill to improve training and human/machine interaction. Biocybernetic adaptation involves a "loop upon a loop," which may be visualized as a superimposed loop which senses a physiological signal and influences the operator's task at some point. Biocybernetic adaptation in, for example, physiologically adaptive automation employs the "steering" sense of "cybernetic," and serves a transitory adaptive purpose - to better serve the human operator by more fully representing their responses to the system. The adaptation process usually makes use of an assessment of transient cognitive state to steer a functional aspect of a system that is external to the operator's physiology from which the state assessment is derived. Therefore, the objective of this paper is to detail the structure of biocybernetic systems regarding the level of engagement of interest for adaptive systems, their processing pipeline, and the adaptation strategies employed for training purposes, in an effort to pave the way towards machine awareness of human state for self-regulation and improved operational performance.
机译:人力操作员与机器或计算机交互不断适应系统的需求,理想地导致最佳性能。然而,在某些情况下,性能恶化是结果。适应情况是人类运营商的强度,这是通过人类通过精神状态的自我调节来实现的。适应是人类运营商活动的核心,研究表明,反馈回路的实施可以增强这种自然技能,以改善培训和人机互动。生物纤维适应涉及“循环循环”,其可以被视为叠加环,这感测生理信号并影响操作员的任务在某些时候。例如,生理自适应自动化的生物纤维适应使用“转向”的“网络感染”,并在暂时的自适应目的中服务 - 以更充分地代表对系统的反应更好地为人类运营商提供服务。适应过程通常利用瞬态认知状态的评估来转向操作者生理学外部的系统的功能方面。因此,本文的目的是详细介绍了对自适应系统,处理管道的感兴趣的接合水平的生物纤维系统的结构,以及用于训练目的的适应策略,以努力为机器意识铺平人为的自我调节和改善的业务表现。

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