A Theoretical Framework Unifying Handling Qualities, Workload, Stability and Control

E. Bachelder, B. Aponso
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引用次数: 1

Abstract

The concepts and principle developed in this work offer a novel and integrative approach for exploring fundamental issues surrounding pilot performance, handling qualities (HQs), and workload. Fundamental laws of sensory perception are extended to multi-input sensing, showing that multiple sensory inputs add logarithmically. It is proposed rather than being just a sensational response, a pilot’s perception of workload is a skill that is acquired and used for the purpose of modulating system stability (i.e., phase margin) during a tracking task. Evidence is presented indicating than an operator perceives workload and behaves such that workload is linearly related to phase margin (PM). It is also shown that this behavior associated with PM linearization serves to reduce workload. PM-workload linearization would enable a straightforward transformation of workload to PM, allowing PM to be set by the pilot to facilitate loop control. A perceptual transformation of the variables available to the pilot (control activity, error) couples with the behavioral conditioning to complete the linearization between PM and sensed workload. Two contrasting sets of experimental data were used to examine pilot response, indicating that pilot compensation is conducted via both frequency modulation (lead-lag) and temporal modulation (pure time delay). HQ sensing is treated as multi-input perception, where time delay and the lead-lag ratio are the stimuli for compensation sensing, and tracking error is the stimulus for performance sensing. A HQ metric arising from the logarithmic addition of these two sensations is shown to yield promising results. A cost function representing pilot behavioral objectives is developed that serves to modulate the following four items: 1) Tracking error; 2) Workload; 3) Linearity between workload and PM; and 4) Setting a reference PM. The pilot cost function was implemented in an optimal pilot which produced pilot time delay and pilot compensation estimates that closely matched the actual pilot data.
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一个统一处理质量、工作量、稳定性和控制的理论框架
在这项工作中发展的概念和原则为探索围绕飞行员表现、处理质量(hq)和工作量的基本问题提供了一种新颖的综合方法。将感官知觉的基本规律扩展到多输入感测,表明多个感官输入以对数方式相加。有人建议,飞行员对工作量的感知不仅仅是一种耸人听闻的反应,而是一种技能,可以在跟踪任务期间获得并用于调节系统稳定性(即相位裕度)。有证据表明,操作员对工作量的感知和行为使工作量与相位裕度(PM)线性相关。它还表明,这种与PM线性化相关的行为有助于减少工作量。PM-工作负载线性化将使工作负载到PM的直接转换成为可能,允许PM由导频器设置以促进循环控制。飞行员可用的变量(控制活动,误差)的感知转换与行为调节相结合,以完成PM和感知工作量之间的线性化。两组对比实验数据被用来检验导频响应,表明导频补偿是通过频率调制(先导滞后)和时间调制(纯时间延迟)进行的。HQ感知被视为多输入感知,其中时滞和前导滞后比是补偿感知的刺激,跟踪误差是性能感知的刺激。由这两种感觉的对数相加产生的HQ度量显示出有希望的结果。开发了一个代表飞行员行为目标的成本函数,用于调节以下四个项目:1)跟踪误差;2)工作负载;3)工作量与PM之间的线性关系;4)设置参考PM。试验成本函数在最优试验中实现,该试验产生了与实际试验数据密切匹配的试验时滞和试验补偿估计。
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