核电显控系统故障告警跨屏交互的注意捕获效应研究

doi:10.16265/j.cnki.issn1003-3033.2025.05.0826

中国安全科学学报 ›› 2025, Vol. 35 ›› Issue (5): 178-185.doi: 10.16265/j.cnki.issn1003-3033.2025.05.0826

核电显控系统故障告警跨屏交互的注意捕获效应研究

李琦桉¹(), 吴晓莉¹^,^**(), 杨星灿², 晏彪¹

¹ 南京理工大学设计艺术与传媒学院,江苏南京 210094
² 中广核工程有限公司核电安全技术与装备全国重点实验室,广东深圳 518172

收稿日期:2024-12-17 修回日期:2025-02-19 出版日期:2025-05-28
通信作者:
^** 吴晓莉(1980—),女,新疆伊宁人,博士,教授,主要从事工业系统人因失误、人机交互与工效学方面的研究。E-mail:wuxlhhu@163.com。
作者简介:
李琦桉 (2000—),女,广东江门人,硕士研究生,主要研究方向为设计工效学。E-mail:lqa_njust@163.com。
吴晓莉, 教授
杨星灿, 工程师
基金资助:
国家自然科学基金面上项目资助(52175469); 核电安全监控技术与装备国家重点实验室开放课题(K-A2021.419); 中广核智能核电战略专项(K-A2021.502.03); 江苏省自然科学基金面上项目资助(BK20221490)

Visual attention capture effect in cross-screen interaction of fault alarms in nuclear power display and control system

LI Qi'an¹(), WU Xiaoli¹^,^**(), YANG Xingcan², YAN Biao¹

¹ School of Design Art and Media, Nanjing University of Science and Technology, Nanjing Jiangsu 210094, China
² State Key Laboratory of Nuclear Power Safety Technology and Equipment, China Nuclear Power Engineering Co., Ltd., Shenzhen Guangdong 518172, China

Received:2024-12-17 Revised:2025-02-19 Published:2025-05-28

摘要/Abstract

摘要： 核电显控系统是典型的跨屏交互场景,为准确迅速地监测和响应多源故障告警,从跨屏交互和故障告警2个维度出发设计变量,单一试次中设置随机组合的跨屏数量、跨屏方位与告警数量、告警级别、告警位置变量,并通过眼动追踪技术和行为试验捕捉操纵员在不同交互条件下的视觉注意行为。结果表明:显示跨屏数量的增加会负面影响注意捕获效应,导致操纵员频繁转动视角来寻找目标刺激,降低任务效率。随着告警数量的增加,注视次数和注视持续时间出现下降趋势,说明过多的告警信号可能导致信息过载,并阻碍操纵员深入处理单个告警。高告警级别能够有效吸引注意力并促进快速响应。未来在跨屏行为场景中考虑用户注意力分布与任务效率,通过优化监控屏幕布局与故障告警系统,改进告警设计、减少视角转移需求,能够提升告警察觉任务操作的安全可靠性。

关键词: 核电显控系统, 故障告警, 跨屏交互, 注意捕获效应, 行为指标, 眼动指标

Abstract:

The nuclear power display control system is a typical cross-screen interaction scenario in which the manipulator must accurately and rapidly monitor and respond to multiple sources of fault alarms, and the attentional capture effect plays a critical role. This study designed variables from the two dimensions of cross-screen interaction and fault alerts. In a single trial, variables such as the number of cross-screens, cross-screen orientation, the number of alerts, alert level, and alert location were set in random combinations. Eye-tracking technology and behavioral experiments were conducted to capture operators' visual attention behavior under different interaction conditions. The research reveals that an increase in the number of cross-screen displays adversely affects the attention capture effect, causing operators to frequently shift their perspectives to locate target stimuli and reducing task efficiency. As the number of alerts increases, there is a declining trend in the number and duration of fixations, indicating that excessive alert signals may lead to information overload and hinder operators' in-depth processing of individual alerts. High-level alerts effectively capture attention and facilitate rapid responses. In the future, considering the distribution of users' attention and task efficiency in cross-screen behavior scenarios, by optimizing the layout of monitoring screens and the fault alert system, improving alert design, and reducing the need for perspective transfer, the safety and reliability of alert detection task operations can be enhanced.

Key words: nuclear power display and control system, fault alarm, cross-screen interaction, attentional capture effect, behavioral indicators, eye movement metrics

中图分类号:

X912.9安全人机学

李琦桉, 吴晓莉, 杨星灿, 晏彪. 核电显控系统故障告警跨屏交互的注意捕获效应研究[J]. 中国安全科学学报, 2025, 35(5): 178-185.

LI Qi'an, WU Xiaoli, YANG Xingcan, YAN Biao. Visual attention capture effect in cross-screen interaction of fault alarms in nuclear power display and control system[J]. China Safety Science Journal, 2025, 35(5): 178-185.

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指标类型	指标名称	指标说明	注意捕获效应指标描述
行为反应指标	RT	故障告警刺激出现到被试反应的用时	反应时越短,注意捕获效应越强
行为反应指标	ACC	故障告警视觉搜索任务的正确反应占比	正确率越高,注意捕获效应越强
眼动指标	注视持续时间	个体观察刺激时目标注视点的持续时长	特定区域注视时长与其他区域差异大, 或存在注意捕获效应
	注视次数	观察时眼睛停留位置数量	刺激相关区域注视点越多, 注意捕获效应越强
	平均瞳孔直径	特定时间或条件下测量得到的瞳孔大小均值	特定任务中直径明显增大, 或发生注意捕获效应
	眼跳次数	观察时注视点间快速移动次数	频繁眼跳且路径指向特定区域, 或发生注意捕获效应
	扫视路径	注视点连成的轨迹	分析路径可知视觉搜索顺序与注视点分布情况

模型	未标准化系数		标准化系数 Beta	检验统计量t	Sig.
模型	B	标准误差	标准化系数 Beta	检验统计量t	Sig.
常量	1.220 6×10^-4	0.000	—	21.686	0.000
告警级别	-3.276 2×10^-5	0.000	-0.230	-6.186	0.000
跨屏数量	2.485 1×10^-5	0.000	0.403	10.813	0.000

模型	未标准化系数		标准化系数Beta	t	Sig.
模型	B	标准误差	标准化系数Beta	t	Sig.
常量	9.693	2.027	—	4.783	0.000
告警级别	-5.558	1.781	-0.244	-3.120	0.002
跨屏数量	4.772	1.184	0.316	4.030	0.000

核电显控系统故障告警跨屏交互的注意捕获效应研究

Visual attention capture effect in cross-screen interaction of fault alarms in nuclear power display and control system

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