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Design method and system for man-machine interface of nuclear power plant control room

A technology of human-machine interface and design method, which is applied in the field of nuclear power, can solve the problems of increasing human error, increasing operator's physical load, operator's misoperation, reducing the efficiency of human-computer interaction and important prompt information, etc., so as to improve human factor adaptation Sexuality, reducing physical load, and improving the efficiency of human-computer interaction

Pending Publication Date: 2022-07-29
CHINA NUCLEAR POWER ENG CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The reasonable layout of the human-computer interface has a great influence on the efficiency of human-computer interaction. Poor layout results may lead to an increase in the probability of operator misoperation, a decrease in the efficiency of human-computer interaction, and an increase in the probability of ignoring important prompt information. negatively affect the safe operation of
For example, the unreasonable position of the alarm button indicator light will cause the operator to fail to detect high-level alarms in time; the unreasonable position of the navigation button will cause the operator's physical load to increase and increase human error

Method used

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  • Design method and system for man-machine interface of nuclear power plant control room
  • Design method and system for man-machine interface of nuclear power plant control room
  • Design method and system for man-machine interface of nuclear power plant control room

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Embodiment 1

[0027] like figure 1 As shown in the figure, this embodiment provides a method for designing a human-machine interface in a control room of a nuclear power plant, which is mainly used to guide the design of a digital human-machine interface in the control room of a nuclear power plant or to evaluate the design results of multiple digital human-machine interfaces. , the design method of the man-machine interface in the control room of the nuclear power plant includes:

[0028] Step 101: Obtain physiological parameters generated by the monitored object in at least two preset human-machine interface schemes monitored by the operator.

[0029] In this embodiment, the operator in the control room needs to monitor and manipulate the monitored objects (eg, manipulation buttons, indicator lights, etc.) that control the digital human-machine interface. The human-machine interface is usually divided into a functional area and a monitoring information display area. The monitoring inform...

Embodiment 2

[0050] This embodiment provides a design system for a man-machine interface in a control room of a nuclear power plant, including an acquisition device 21 and an analysis device 22 .

[0051] The acquiring device 21 is configured to acquire the physiological parameters generated by the monitored object in at least two preset human-machine interface schemes monitored by the operator. The analyzing device 22 is connected to the acquiring device 21 and is used for analyzing the physiological parameters, and determining a target human-machine interface solution from at least two preset human-machine interface solutions according to the analysis result.

[0052] Optionally, the physiological parameters include electromyography data, and the monitored object includes manipulation buttons.

[0053] The acquisition device includes a first arrangement unit and a first detection unit. The first arrangement unit is used to select the i-th position of the man-machine interface to arrange...

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Abstract

The invention provides a design method of a nuclear power plant control room man-machine interface. The design method comprises the following steps: acquiring physiological parameters generated by monitored objects in at least two preset man-machine interface schemes monitored by an operator; and analyzing the physiological parameters, and determining a target human-computer interface scheme from the at least two preset human-computer interface schemes according to an analysis result. Correspondingly, the invention further provides a design system of the nuclear power plant control room man-machine interface. According to the target man-machine interface scheme obtained through the design method, the man-machine interaction efficiency can be improved, the physical load of an operator is reduced, the human factor adaptability of the man-machine interface is improved, and therefore the safety of nuclear power plant operation management is improved.

Description

technical field [0001] The invention relates to the technical field of nuclear power, in particular to a method and system for designing a man-machine interface in a control room of a nuclear power plant. Background technique [0002] In the digital control room of the nuclear power plant, the operator uses the digital workstation to complete the process control and condition monitoring of the nuclear power plant. The digital workstation takes the display as the main man-machine interface, and provides the operator with the functions of process control and display, alarm, procedure, trend, navigation and management. [0003] The reasonable layout of the human-machine interface has a great impact on the efficiency of human-computer interaction. Poor layout results may increase the probability of operator misoperation, reduce the efficiency of human-computer interaction, and increase the probability of ignoring important prompt information. negatively affect the safe operatio...

Claims

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Application Information

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IPC IPC(8): G21D3/00
CPCG21D3/008
Inventor 邓士光徐一茹王志敏行郑腾蛟田晖李菁刘松林白江斌段鹏飞徐云龙李颖张帆
Owner CHINA NUCLEAR POWER ENG CO LTD