Study on the Impact of Different Behavioral Levels in Digital Main Control Rooms of Nuclear Power Plants on Operators’ Inhibition of Return Effect

Zheng Tengjiao; Xu Yunlong; Hou Jie; Duan Pengfei; Chen Shuai

doi:10.13832/j.jnpe.2024.070029

Volume 46 Issue 3

Jun. 2025

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Zheng Tengjiao, Xu Yunlong, Hou Jie, Duan Pengfei, Chen Shuai. Study on the Impact of Different Behavioral Levels in Digital Main Control Rooms of Nuclear Power Plants on Operators’ Inhibition of Return Effect[J]. Nuclear Power Engineering, 2025, 46(3): 173-178. doi: 10.13832/j.jnpe.2024.070029

Citation:

Zheng Tengjiao, Xu Yunlong, Hou Jie, Duan Pengfei, Chen Shuai. Study on the Impact of Different Behavioral Levels in Digital Main Control Rooms of Nuclear Power Plants on Operators’ Inhibition of Return Effect[J]. Nuclear Power Engineering, 2025, 46(3): 173-178. doi: 10.13832/j.jnpe.2024.070029

Citation:

Zheng Tengjiao, Xu Yunlong, Hou Jie, Duan Pengfei, Chen Shuai. Study on the Impact of Different Behavioral Levels in Digital Main Control Rooms of Nuclear Power Plants on Operators’ Inhibition of Return Effect[J]. Nuclear Power Engineering, 2025, 46(3): 173-178. doi: 10.13832/j.jnpe.2024.070029

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Study on the Impact of Different Behavioral Levels in Digital Main Control Rooms of Nuclear Power Plants on Operators’ Inhibition of Return Effect

doi: 10.13832/j.jnpe.2024.070029

1.
China Nuclear Power Engineering Co., Ltd., Beijing, 100840, China
2.
School of Management and Engineering, Capital University of Economics and Business, Beijing, 100070, China
3.
Hunan Institute of Technology, Hengyang, Hunan, 421002, China

Received Date: 2024-07-03
Rev Recd Date: 2024-09-19

Available Online: 2025-06-09

Publish Date: 2025-06-09

Abstract

Abstract

This study aims to explore the effects of different behavior levels (skill-based and rule-based) on the Inhibition of Return (IOR) of operators in a digital main control room of nuclear power plant, as well as the relationship between workload and IOR effect. The typical accident scenarios were simulated through a simulation platform, and the IOR effects and workload of operators with different behavior levels were compared and analyzed. The study found that different behavior levels have a significant impact on the IOR effect of operators. Skill-based behavior is effective in avoiding interference from non-target information during nuclear power plant status monitoring; while rule-based behavior is easily distracted by irrelevant information, with workload showing a positive correlation with IOR effect. This research can provide theoretical and data support for training nuclear power plant operators and personnel function allocation.
- Nuclear power plant,
- Skill-based behavior,
- Rule-based behavior,
- Inhibition of return(IOR),
- Workload

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References(26)

References

[1]	POSNER M I, COHEN Y. Components of visual orienting[J]. Attention and performance X: Control of Language Processes, 1984(32): 531-556.
[2]	KLEIN R M, MACINNES W J. Inhibition of return is a foraging facilitator in visual search[J]. Psychological Science, 1999, 10(4): 346-352. doi: 10.1111/1467-9280.00166
[3]	胡鸿. 数字化核电厂主控室操纵员监视行为及其可靠性研究[D]. 衡阳: 南华大学,2016.
[4]	SUN J, FENG B, XU W B. Particle swarm optimization with particles having quantum behavior[C]//Proceedings of the 2004 Congress on Evolutionary Computation. Portland: IEEE, 2004: 325-331.
[5]	刘艳艳,李杰,赵起超,等. 三维动静态场景下返回抑制的扩散[J]. 心理与行为研究,2022, 20(1): 22-28.
[6]	鲁亮. 驾驶疲劳对警觉注意的影响[D]. 漳州: 闽南师范大学,2017.
[7]	王芳,娄振山,朱霞. 飞行员返回抑制的时程特征及其与飞行绩效相关的研究[J]. 航天医学与医学工程,2012, 25(5): 345-349.
[8]	刘扬,杨伟,郑逢斌. 视觉选择性注意的认知神经机制与显著性计算模型[J]. 小型微型计算机系统,2014, 35(3): 584-589.
[9]	刘义杰,张湘平,谭霜. 基于视觉注意机制的交通路标检测方法[J]. 计算机应用研究,2012, 29(10): 3960-3963,3975.
[10]	胡鸿,张力,蒋建军,等. 核电厂数字化人-机界面监视转移路径预测方法及其应用[J]. 核动力工程,2014, 35(3): 105-110.
[11]	张力,李林峰,卢长申,等. 数字化核电厂主控室操纵员监视行为转移规律研究[J]. 核动力工程,2013, 34(6): 92-96.
[12]	张力,胡鸿,李鹏程,等. 数字化核电厂操纵员监视行为可靠性分析及其应用[J]. 原子能科学技术,2015, 49(5): 921-929.
[13]	贺雯. 数字化核电厂操纵员监视行为注意力有效性检测实验研究[D]. 衡阳: 南华大学,2012.
[14]	SWAIN A D, GUTTMANN H E. Handbook of human reliability analysis with emphasis on nuclear power plant applications: NUREG/CR-1278[R]. Washington: Nuclear Regulatory Commission, 1980.
[15]	COOPER S E, RAMEY-SMITH A M, WREATHALL J, et al. A technique for human error analysis (ATHEANA): NUREG/CR-6350[R]. Washington: Nuclear Regulatory Commission, 1996.
[16]	XING J, CHANG Y J, DE JESUS SEGARRA J. The general methodology of an integrated human event analysis system (IDHEAS-G): NUREG-2198[R]. Washington: Nuclear Regulatory Commission, 2021.
[17]	MANZEY D, LORENZ B, POLJAKOV V. Mental performance in extreme environments: results from a performance monitoring study during a 438-day spaceflight[J]. Ergonomics, 1998, 41(4): 537-559. doi: 10.1080/001401398186991
[18]	YENN T C, CHUANG C Y, HSU C C, et al. An experience study for advanced MCR of Lungmen project with human factors regulations: NUREG-0711[C]//18th International Conference on Nuclear Engineering. Xi’an: ASME, 2011.
[19]	RASMUSSEN J. Information processing and human-machine interaction: an approach to cognitive engineering[M]. New York: North-Holland, 1986: 251.
[20]	蒋英杰,孙志强,宫二玲,等. 一种认知行为模式的概率化确定方法[J]. 计算技术与自动化,2011, 30(1): 75-80.
[21]	WOODS D D, POPLE JR H E, ROTH E M. Cognitive environment simulation: a tool for modeling intention formation for human reliability analysis[J]. Nuclear Engineering and Design, 1992, 134(2-3): 371-380. doi: 10.1016/0029-5493(92)90153-M
[22]	沈学泽,张力,青涛,等. 核电厂事故规程信息化系统对操纵员工作负荷的影响研究[J]. 工业工程,2022, 25(6): 146-151,159.
[23]	国家核安全局. 核动力厂运行安全规定: HAF103[S]. 北京: 国家核安全局,2004: 1-25.
[24]	姚明亮,祁神军,成家磊,等. 工作负荷与建筑工人不安全行为的结构关系研究[J]. 建筑经济,2019, 40(1): 30-35.
[25]	MAYLOR E A, HOCKEY R. Effects of repetition on the facilitatory and inhibitory components of orienting in visual space[J]. Neuropsychologia, 1987, 25(1A): 41-54.
[26]	LUPIÁÑEZ J, MILÁN E G, TORNAY F J, et al. Does IOR occur in discrimination tasks? yes, it does, but later[J]. Perception & Psychophysics, 1997, 59(8): 1241-1254.