JP3038520B2 - Event reproduction device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a process monitoring device (including a driving training simulator), and more particularly to an event reproducing device in cooperation with a multimedia input / output device.

[0002]

2. Description of the Related Art Conventionally, a process computer is mainly used for process monitoring in online real time.
In order to reproduce the event, analog signals and contact state change signals that have been periodically input in advance are stored including time information, and the specific input information is used as a trigger in the event of emergency or emergency of the plant. Necessary plant information is printed on a printer or displayed on a CRT based on the stored signals. For example, Reference: Hitachi Review, April 1984, P3
The functions are introduced in 9-44 "Improvement of Performance of Central Monitoring and Control System". As another example, even in a driving training simulator, there is a replay function that constantly stores the simulator state and the trainee's operation information including time information, and reproduces the training situation according to the instruction from the instructor. Is described in the literature: Hitachi Review, October 1990, pages 71 to 76, "BWR Driving Training Advanced Simulator Technology". Further, as a device for digitizing, storing, and reproducing video information, various devices based on multimedia in recent years have been announced. One example is a document: Nikkei Computer, February 11, 1991, “Multi Takeoff. Media PC ". According to the prior art, a signal from a process input device of a plant (an operator operation signal of a simulator is also interpreted as a process signal) is not synchronized with a conventional video signal and input, and the ITV Even if there is a video signal recorded by the above method, the synchronization during this period has been manually adjusted by humans. For this reason, first, there is a problem that a time lag occurs in reproduction, that is, (1) a start timing lag occurs between the two, a synchronization shift occurs, and (2) a delicate error occurs in both reproduction speeds. However, as the time elapses, the gap between the reproduction contents of the two becomes larger. (3) If an attempt is made to increase or decrease the reproduction speed in the middle of the reproduction, the reproduction speed is increased or decreased at the same ratio. Or need to
This ratio is not necessarily the same for both. In addition, it is necessary to synchronize with human hands, which makes the operation complicated.
And the range of use was considerably limited.

[0003]

SUMMARY OF THE INVENTION It is an object of the present invention to reproduce a process signal and video information (video information includes audio information if necessary), and to restrict the ratio between the two due to the synchronization deviation and speed change. It is to solve the conditions such as.

[0004]

An object of the present invention is to digitize video information, add time to this digital information, and also add time information to a process signal. That is, it is achieved by reproducing and displaying in a synchronized manner.

[0005]

By digitizing the video signal and adding a time signal, when an abnormality occurs in the plant ,
The computer accesses both the video data corresponding to the time and the data on the process computer side, and it is possible to continue reproduction by adjusting both times. For this reason,
There is no synchronization deviation between the two signals, and even if the reproduction speed is set higher or lower than real time at the request of the operator, the data access interval between the two is similarly increased or decreased. Does not occur, and the video information and the process information are associated with each other in a clickable manner, so that a reproducible apparatus configuration can be realized.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows a first embodiment of the present invention, and shows an example in which the event reproducing device of the present invention is applied to a process monitoring device of a nuclear power plant. FIG. 1 shows the overall configuration of the process monitoring device 1a and the event reproducing device 1b. An analog signal of the plant 11,
The digital signal is input to the process computer 51a via the process input device 21a. Also, the video information from the ITV 31a and the acoustic information from the sound collecting microphone 31b are:
The data is digitized by the digitizing device 41 and input to the data collection / replay computer 51b. As shown in the flow chart, the process computer 51a constantly monitors the trigger condition of the occurrence of the blunt abnormality, for example, the occurrence of the reactor scram, and when the condition is satisfied, the data collection / replay computer 51b notifies the data collection / replay computer 51b of the occurrence of the blunt abnormality to the network line 1.
Notify via 0. Further, a collection time is added to the input data from the process input device 21a, and the data is periodically transmitted to the data collection / replay computer 51b via the network line 10. On the other hand, the data collection / replay computer 5
1b, as shown in the flow in the figure, monitors whether there is a notification of the satisfaction of the trigger condition, and if there is no notification, deletes the old data while adding new data to the normal data collection area, thereby making the process computer The transmission data from the 51a and the image / video data from the ITV 31a and the microphone 31b are collected as replay data until T minutes before the current time. If the condition satisfaction notification is received, the transmission data from the process computer 51a, the ITV 31a and the microphone 3
The image / video data from 1b is collected for an additional t minutes in the data collection area when a blunt abnormality occurs. After the saving of the data for t minutes is completed, the collected data at the normal time and at the time of the occurrence of the blunt abnormality are saved as replay data. FIG. 3 shows a configuration of the collected data and the replay data stored in the storage device 61 (FIG. 1) at the time of normal operation and at the time of occurrence of a brand error . Normally, data T minutes before the current time is stored in the normal time data collection area, and when a blunt error occurs, the data in the normal time data collection area for T minutes before the trigger condition is satisfied and the data in the data collection area when a blunt error occurs for t minutes. Indicates a state in which collected data is stored. Also , a state is shown in which the data in the normal data collection area and the data in the data collection area when a blunt error occurs are stored in the replay data area. In this case, the data portion may include the transmission data from the process computer 51a, the image data from the ITV 31, and the audio data from the microphone 31b together or separately. The replay data created in this way is stored in the data collection / replay computer 5.
1b, the display 71 (FIG. 1)
Can be reproduced on. In FIG. 1, 81
a indicates a keyboard, 81b a mouse, and 91 indicates a speaker.

As shown in FIG. 4, a video data window 71 displayed in a window format is displayed on the display 71.
1. An analog signal data window 712, a digital signal data window 713, a system diagram window 714, and a replay control window 715 are provided. Here, for example, the video data window 71
Reference numeral 1 denotes video data of an ITV for confirming whether or not there is a leak of the safety valve in the containment vessel. The analog signal data window 712 displays the reactor pressure, the reactor water level,
Display important plant data such as total steam flow and APRM level in trend format. Digital signal data window 713
LPCPA stop, HPCP B stop, HPCP A
Stop, T / D RFP A stop, T / D RFP B stop, Reactor scram, Reactor water level low L3 and other plant status changes are displayed in the form of an alarm window in color change, and important warnings are scrolled in the message format indicate. The latest message at the replay time (xx: xx) is displayed at the bottom of the message window. Further, a system diagram window 714 displays an entire plant diagram based on analog signal data and digital signal data. Note that the speaker 91
Reproduces the sound of the rotation of the water supply pump and the recirculation pump. The replay control window 715 for fully utilizing the replay data includes a replay operation window 715.
a, replay speed adjustment window 715b, replay time change window 715c, replay time window 715 for recognizing time
d, providing a current time window 715e. Here, the contents of the replay control window 715 will be described with reference to FIG. The replay operation window 715a displays functions such as start, stop, fast forward, rewind, pause, and frame advance in the form of operation buttons like a VCR, and operates the replay by operating a pointing device such as a mouse 81b. Control. The replay speed adjustment window 715b
The replay speed can be set to be faster or slower, and can be adjusted by moving the scroll bar with a pointing device such as the mouse 81b so that the setting can be changed quickly. The replay time change window 715c is used for quickly moving to a portion to be replayed. The replay time change window 715c has a scroll bar in a time axis direction of the trend display, displays a main parameter which can be arbitrarily selected, and replays the trend data. After confirming a desired part, the user can move the mouse by using a pointing device such as the mouse 81b. The actual display form is displayed on the CRT display 71 in a multi-window format as shown in FIG. As described above, according to the present embodiment, in the analysis at the time of occurrence of a plant abnormality, the video information (including the audio information) is stored in synchronization with the storage of the process signal. Since conditions such as restrictions on the ratio due to the speed change and the speed change can be solved, and the condition of the site can be confirmed by video and sound, it is possible to greatly improve the analysis effect in the event of a plant abnormality.

Next, FIG. 7 shows a second embodiment of the present invention. The event reproducing apparatus of the present invention is applied to a system for evaluating the behavior of an operator at the time of a plant abnormality using a driving training simulator. Here is an example of application. As shown in FIG.
In the evaluation room 12, the eye camera 12 attached to the operator
monitor 52a, operation 52b, the operation of the switch 12b of the operator, the image of the video camera 12c showing the operation of the operator, the coordinates of the position sensor 12d indicating the position of the operator, and the sound of the microphone 12e. 52c, digitized as voice information 52d and input to the computer 52. The plant simulation information 52e is added to the information, and all the information is time-stamped by the data recording function 52f and recorded in the storage device 62. The recorded data is stored in the monitor 62a stored as driving situation reproduction data,
The operation 62b, the action 62c, the voice 62d, and the simulation data 62e are referred to as replay data 62f. In order to evaluate the result after the driving operation, the result replay function 52g in the computer 52
The replay data 62f is reproduced on the CRT display 72, and the behavior of the operator is evaluated. Here, 82a indicates a keyboard, 82b indicates a mouse, and a 92-blade speaker.

Hereinafter, referring to FIG.
2 will be described. The replay data 62f is displayed on the CRT display 72 in a window (window) format. As shown in FIG. 8, the monitoring replay window 721 displays the operator's eye camera video data. A simulation board image is displayed on the operation replay 1 window 722a to confirm which side of the switch the operator is operating. The operated switch is displayed in a message format. The operation target switches registered in advance are displayed in the operation replay 2 window 722b in a trend format, and the status of the switch operation is grasped as time elapses. In the action replay 1 window 723a, an image of the training scene by the video camera is displayed. Also, Action Replay 2 Window 7
At 23b, a flow line replay indicating the operation progress of the operator is displayed based on the coordinate data input by the position sensor. Simulator data trend display and system diagram are displayed in the simulator 1 window 724a and the simulator 2 window 724b, respectively. As replay control windows for fully utilizing the replay data 62f, a replay operation window 725a, a replay speed adjustment window 725b, a replay time change window 725c, a simulator time window 725d,
It has a current time window 725e. The contents of the replay control window are as described in the first embodiment. Further, as an advanced replay method, as shown in FIG. 9 , the superimposition 726 of the action replay 2 is displayed on the CRT display using the accumulated data shown in the replay data 62f, and the training record of the own group is recorded a plurality of times. Compare the flow line results and the flow line results of the training record of your group with the model operation group. In addition, an overlap 727 of the operation replay 2 and the simulator replay 1 is displayed, and the movement of the simulator and the timing of the switch operation are compared based on a trend. Further, a plurality of replay data of the user's group or the model operation group are displayed a plurality of times.
8 and find more evaluation results. As described above, according to the present embodiment, the user's own operation results and exemplary operation results can be confirmed including not only the switch operation of the control panel but also the action, so that the evaluation of the behavior of the operator can be significantly improved. it can. In this embodiment, the system for evaluating the behavior of the operator has been described. However, in a normal driving training system, the same system as described above can be constructed without using an eye camera, a position sensor, and the like.

[0010]

As described above, according to the present invention, the process signal and the video information captured in real-time on-line are stored in synchronization with each other. Can be solved. Further, since the process signal and the video information can be reproduced in synchronization with time, it is extremely effective in analyzing and evaluating the result.

[Brief description of the drawings]

FIG. 1 is an overall view of an event reproduction device in a process monitoring device according to a first embodiment of the present invention.

FIG. 2 is a flowchart illustrating functions of the first embodiment.

FIG. 3 is a reproduction data collection method in a process monitoring device.

FIG. 4 is a specific example of a display window in the process monitoring device.

FIG. 5 is a detailed view of a replay control window.

FIG. 6 is an example of an actual display on a CRT display.

FIG. 7 is an overall view of an event reproduction device in an operator behavior evaluation system according to a second embodiment of the present invention.

FIG. 8 is a specific example of a display window in the operator behavior evaluation system.

FIG. 9 is an advanced specific example of a display window in the operator behavior evaluation system.

[Explanation of symbols]

 1a Process monitoring device 1b Event reproduction device 11 Plant 21a Process input device 31a ITV 31b Microphone 41 Digitizing device 51a Process computer 51b Data collection / replay computer 61 Storage device 71 Display 91 Speaker

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. ⁷ identification code FI G09B 9/00 G06F 15/20 D G21C 17/00 G21C 17/00 WR (58) Fields investigated (Int.Cl. ⁷ , (DB name) G08B 23/00 510 G01D 21/00 G05B 23/02 301 G06F 3/14 320 G06F 17/00 G09B 9/00 G21C 17/00

Claims (4)

(57) [Claims] A process input device for inputting a process signal.
And collect the process signal from this process input device.
The first computer that adds the time and the video signal (audio signal
The second total which digitizes (including
Computer and storage device for storing process signals and video signals
And display means for reproducing and displaying.
Storage of video and video signals as replay data
In both cases, the process signal with the collection time added from the first computer is transmitted to the second computer, and when an abnormality occurs in the plant, the occurrence of the abnormality is notified, and the process signal and the video signal are timed.
An event reproduction device characterized in that the output is displayed synchronously . 2. The computer according to claim 1, wherein the second computer collects transmission data and a video signal from the first computer, which are normal times and a predetermined time before the current time, as replay data,
An event reproducing apparatus, which, upon receiving a notification of occurrence of an abnormality, collects and stores, as replay data, transmission data and a video signal from a first computer after a predetermined time from a current time. 3. A driving training simulator, a computer for inputting a plurality of driving training information and plant simulation information and adding a collection time to each of them, a storage device for storing output data of the computer, and display means. During operation, a plurality of operation training information and plant simulation information are stored as replay data, and after the operation is completed, the specified operation training information and plant simulation information are output and displayed in time synchronization. An event reproduction apparatus characterized by: 4. The display device according to claim 3, wherein the display means superimposes and displays the same type of replay data, superimposes and displays different types of replay data, or displays a plurality of replay data of the same type. Event reproduction device.