Research on identification of flight cadets' cognitive load based on multi-source physiological data and CGAN-DBN model.

IF 2 3区工程技术 Q3 ENGINEERING, INDUSTRIAL

Ergonomics Pub Date : 2024-07-17 DOI:10.1080/00140139.2024.2380340

Ting Pan, Haibo Wang, Haiqing Si, Yixuan Li, Gen Li, Yijin Zhu

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引用次数: 0

Abstract

Modern aircraft cockpit system is highly information-intensive. Pilots often need to receive a large amount of information and make correct judgments and decisions in a short time. However, cognitive load can affect their ability to perceive, judge and make decisions accurately. Furthermore, the excessive cognitive load will induce incorrect operations and even lead to flight accidents. Accordingly, the research on cognitive load is crucial to reduce errors and even accidents caused by human factors. By using physiological acquisition systems such as eye movement, ECG, and respiration, multi-source physiological signals of flight cadets performing different flight tasks during the flight simulation experiment are obtained. Based on the characteristic indexes extracted from multi-source physiological data, the CGAN-DBN model is established by combining the conditional generative adversarial networks (CGAN) model with the deep belief network (DBN) model to identify the flight cadets' cognitive load. The research results show that the flight cadets' cognitive load identification based on the CGAN-DBN model established has high accuracy. And it can effectively identify the cognitive load of flight cadets. The research paper has important practical significance to reduce the flight accidents caused by the high cognitive load of pilots.

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基于多源生理数据和 CGAN-DBN 模型的飞行学员认知负荷识别研究。

现代飞机驾驶舱系统是高度信息密集型的。飞行员往往需要在短时间内接收大量信息并做出正确的判断和决策。然而，认知负荷会影响他们准确感知、判断和决策的能力。此外，过度的认知负荷会诱发错误操作，甚至导致飞行事故。因此，对认知负荷的研究对于减少人为因素造成的错误甚至事故至关重要。利用眼动、心电、呼吸等生理采集系统，获取飞行学员在模拟飞行实验中执行不同飞行任务时的多源生理信号。根据从多源生理数据中提取的特征指标，结合条件生成对抗网络（CGAN）模型和深度信念网络（DBN）模型，建立了CGAN-DBN模型，用于识别飞行学员的认知负荷。研究结果表明，基于所建立的 CGAN-DBN 模型的飞行学员认知负荷识别具有较高的准确性。研究结果表明，基于 CGAN-DBN 模型的飞行学员认知负荷识别具有较高的准确性，能有效识别飞行学员的认知负荷。该研究论文对减少因飞行员认知负荷过高而导致的飞行事故具有重要的现实意义。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Ergonomics 工程技术-工程：工业

CiteScore

4.60

自引率

12.50%

发文量

147

审稿时长

6 months

期刊介绍： Ergonomics, also known as human factors, is the scientific discipline that seeks to understand and improve human interactions with products, equipment, environments and systems. Drawing upon human biology, psychology, engineering and design, Ergonomics aims to develop and apply knowledge and techniques to optimise system performance, whilst protecting the health, safety and well-being of individuals involved. The attention of ergonomics extends across work, leisure and other aspects of our daily lives. The journal Ergonomics is an international refereed publication, with a 60 year tradition of disseminating high quality research. Original submissions, both theoretical and applied, are invited from across the subject, including physical, cognitive, organisational and environmental ergonomics. Papers reporting the findings of research from cognate disciplines are also welcome, where these contribute to understanding equipment, tasks, jobs, systems and environments and the corresponding needs, abilities and limitations of people. All published research articles in this journal have undergone rigorous peer review, based on initial editor screening and anonymous refereeing by independent expert referees.