JP2021017689A - Control system, operation control management device, operation control management method, program - Google Patents

Abstract

To provide a technology that enhances the operational accuracy of a construction machine used at construction sites.SOLUTION: An automatic operation device outputs a first control signal for automatically controlling a construction machine. A manual operation device outputs a second control signal for manually controlling the construction machine. An operation control management device outputs either the first control signal or the second control signal to the construction machine. The operation control management device acquires the first control signal and the second control signal, and determines whether the second control signal is a signal output from the manual operation device by human operation based on the state of the second control signal. Then, the operation control management device switches to either the first control signal or the second control signal and outputs the signal to the construction machine based on the result of the determination.SELECTED DRAWING: Figure 1

Description

The present invention relates to a control system, an operation control management device, an operation control management method, and a program.

At construction sites, automatic control and remote control of construction machinery are aimed at reducing the labor of workers, eliminating the shortage of workers, and ensuring the safety of workers at sites with dangerous conditions such as poor ground conditions. Construction work is carried out using. As a related technique, Patent Document 1 discloses a technique for improving the accuracy of driving operation.

Japanese Patent No. 3835222

There is a demand for technology for improving the operating accuracy of construction machines used at construction sites as described above.

Therefore, an object of the present invention is to provide a control system, an operation control management device, an operation control management method, and a program that solve the above-mentioned problems.

According to the first aspect of the present invention, the control system outputs an automatic operation device that outputs a first control signal for automatically controlling the construction machine and a second control signal for manually controlling the construction machine. The operation control management device includes the manual operation device and the operation control management device that outputs either one of the first control signal and the second control signal to the construction machine, and the operation control management device includes the first control signal and the first control signal. A determination unit that acquires the second control signal and determines whether or not the second control signal is a signal output from the manual operation device by human operation based on the state of the second control signal. And, based on the result of the determination, it is characterized by including a switching unit that switches between the first control signal and the second control signal and outputs the output to the construction machine.

According to the second aspect of the present invention, the operation control management device is output from the first control signal output from the automatic operation device that automatically controls the construction machine and the manual operation device that manually controls the construction machine. A determination unit that acquires a second control signal and determines whether or not the second control signal is a signal output from the manual operation device by human operation based on the state of the second control signal. It is characterized by including a switching unit that switches to either one of the first control signal and the second control signal and outputs the output to the control device of the construction machine based on the result of the determination.

According to the third aspect of the present invention, the operation control management method acquires a first control signal for automatically controlling the construction machine and a second control signal for manually controlling the construction machine, and the above-mentioned Based on the state of the second control signal, it is determined whether or not the second control signal is a signal output from the manual operation device by human operation, and based on the result of the determination, the first control signal. It is characterized in that it switches to either one of the above and the second control signal and outputs it to the control device of the construction machine.

According to the fourth aspect of the present invention, the program includes a step of acquiring a first control signal for automatically controlling the construction machine and a second control signal for manually controlling the construction machine, and the first step. (Ii) Based on the state of the control signal, the step of determining whether or not the second control signal is a signal output from the manual operation device by human operation, and the first control based on the result of the determination. It is characterized in that a step of switching to either a signal or the second control signal and outputting to the control device of the construction machine is executed.

According to the present invention, it is possible to provide a technique for improving the operation accuracy of a construction machine used at a construction site.

It is a 1st block diagram which shows the structure of the control system by this Embodiment. It is a second block diagram which shows the structure of the control system by this Embodiment. It is a hardware block diagram of the operation control management apparatus by this Embodiment. It is a functional block diagram of the operation control management apparatus by this embodiment. It is the first figure which shows the processing flow of the operation control management apparatus by this Embodiment. It is a 2nd figure which shows the processing flow of the operation control management apparatus by this Embodiment. It is a figure which shows the minimum structure of the operation control management apparatus by this embodiment. It is a figure which shows the processing flow by the operation control management apparatus of the minimum configuration by this embodiment.

Hereinafter, the operation control management device according to the embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a first block diagram showing a configuration of a control system including an operation control management device according to the same embodiment. As shown in this figure, the control system 100 includes an operation control management device 1, a construction machine 2, an automatic operation device 3, and a remote control device 4. The operation control management device 1 communicates with the construction machine 2. Further, the operation control management device 1 also communicates with the automatic operation device 3 and the remote control device 4.

FIG. 2 is a second block diagram showing the configuration of the control system.
The construction machine 2 includes a control device 21 and an actuator 22.
The automatic operation device 3 transmits a first control signal for automatically controlling the construction machine 2 to the operation control management device 1. The remote control device 4 is an aspect of the manual operation device, and transmits a second control signal for manually controlling the construction machine 2 to the operation control management device 1. Then, the operation control management device 1 selects either one of the first control signal and the second control signal and outputs it to the control device 21 of the construction machine 2. As a result, the control device 21 controls the movement of the drive mechanism such as the actuator 22 that drives the construction machine 2. According to the configuration of the control system 100 of FIG. 2, the operation control management device 1 is provided outside the construction machine 2, but the operation control management device 1 is provided in the construction machine 2. Good. Similarly, although the automatic operation device 3 also shows an aspect of being provided outside the construction machine 2, the automatic operation device 3 may also be provided in the construction machine 2. In the following description, when the first control signal and the second control signal are not distinguished, they are simply described as control signals. Further, according to the configuration of the control system 100 of FIG. 2, the control device 21 and the actuator 22 are provided one by one, but there may be a plurality of actuators. For example, if the construction machine 2 is a hydraulic excavator, it is provided with six actuators of turning, boom, arm, bucket, left traveling, and right traveling. When a plurality of actuators are provided, the control device 21 controls the movement of each actuator.

FIG. 3 is a hardware configuration diagram of the operation control management device.
As shown in FIG. 3, the operation control management device 1 is a computer provided with hardware such as a CPU (Central Processing Unit) 101, a ROM (Read Only Memory) 102, a RAM (Random Access Memory) 103, and a communication module 104. Is. The control device 21, the automatic operation device 3, and the remote control device 4 are also computers having the same hardware configuration.

FIG. 4 is a functional block diagram of the operation control management device.
The operation control management device 1 executes an operation control program stored in advance. As a result, the operation control management device 1 exerts the functions of the control unit 11, the acquisition unit 12, the determination unit 13, and the switching unit 14.
The control unit 11 controls each functional unit.
The acquisition unit 12 acquires a control signal. Specifically, the acquisition unit 12 receives the first control signal output from the automatic operation device 3 and the second control signal output from the remote control device 4. When the acquisition unit 12 continuously receives the control signal for a predetermined time or longer, the acquisition unit 12 determines that the control signal has been acquired. The predetermined time may be set individually for the first control signal and the second control signal.
The acquisition unit 12 may determine whether or not the control signal has been acquired according to the received control signal. For example, the acquisition unit 12 determines that the control signal has been acquired when the value indicated by the received control signal is larger than a predetermined value. When the value indicated by the received control signal is smaller than a predetermined value, the acquisition unit 12 determines that the control signal has not been acquired. The value indicated by the control signal is the amount of operation of the actuator 22 for driving the construction machine 2 included in the control signal. For example, if the construction machine 2 is a hydraulic excavator, the swivel, boom, arm, bucket, and left. The amount of operation for running and running to the right.

Based on the state of the second control signal, the determination unit 13 determines whether or not the second control signal is a signal output from the remote control device 4 by human operation. Specifically, the determination unit 13 determines that the second control signal is a signal output from the remote control device 4 by human operation, based on the dispersion of the values indicated by the second control signal per unit time. .. Alternatively, the determination unit 13 determines that the second control signal is a signal output from the remote control device 4 by human operation, based on the dispersion of the displacement of the value indicated by the second control signal over time. .. The determination unit 13 determines whether or not the second control signal is a signal output from the remote control device 4 by human operation, triggered by the case where the second control signal is continuously acquired for a predetermined time or longer. You may.

The switching unit 14 selects a control signal to be input to the control device 21. When the switching unit 14 determines that the second control signal is a signal output from the remote control device 4 by human operation, the switching unit 14 gives priority to the second control signal and outputs it to the control device 21 of the construction machine 2. On the other hand, when the switching unit 14 determines that the second control signal is not a signal output from the remote control device 4 by human operation, the switching unit 14 gives priority to the first control signal and outputs it to the control device 21 of the construction machine 2. To do. When the switching unit 14 determines that the second control signal is not a signal output from the remote control device 4 by human operation, the switching unit 14 may stop the output of the second control signal to the control device 21. ..

According to such an operation control management device 1, the operation accuracy of the construction machine used at the construction site can be improved. The details of the processing of the operation control management device 1 will be described below.

In the following description, when the first control signal and the second control signal are not distinguished, they are simply described as control signals.

FIG. 5 is a first diagram showing a processing flow of the operation control management device.
FIG. 6 is a second diagram showing a processing flow of the operation control management device.
The acquisition unit 12 of the operation control management device 1 determines whether or not the first control signal has been acquired from the automatic operation device 3 (step S101). Further, the acquisition unit 12 determines whether or not the second control signal has been acquired from the remote control device 4 (step S102). The acquisition unit 12 outputs the first control signal acquired from the automatic operation device 3 and the second control signal acquired from the remote control device 4 to the determination unit 13.

When the determination unit 13 has acquired both the first control signal and the second control signal, the determination unit 13 operates the timer after acquiring the control signals to determine whether or not the timer value has reached a predetermined time. After determining, the switching unit 14 is instructed to output a control signal having a higher priority. The switching unit 14 outputs the first control signal or the second control signal instructed to output to the control device 21. Hereinafter, a case where the second control signal acquired from the remote control device 4 by the determination unit 13 has a higher priority than the first control signal will be described.

When the determination unit 13 acquires the first control signal and determines that the second control signal has not been acquired, the value of the timer is set for a predetermined time after the timer is operated after acquiring the first control signal. Is determined (step S103). The predetermined time may be a time such as 1 millisecond. The determination unit 13 operates the timer after acquiring the first control signal, and when the value of the timer reaches a predetermined time, instructs the switching unit 14 to output the first control signal. The switching unit 14 outputs the first control signal to the control device 21 (step S104).

When the determination unit 13 acquires the second control signal and determines that the first control signal has not been acquired, the value of the timer is set for a predetermined time after the timer is operated after acquiring the second control signal. Is determined (step S105). This predetermined time may also be a time such as 1 millisecond. The determination unit 13 operates the timer after acquiring the second control signal, and when the value of the timer reaches a predetermined time, the second control signal is a signal output from the remote control device 4 by human operation. It is determined whether or not it is (step S106). When the determination unit 13 determines that the second control signal is a signal output from the remote control device 4 by human operation, the determination unit 13 instructs the switching unit 14 to output the second control signal. The switching unit 14 switches so as to output the second control signal to the control device 21 (step S107).

Normally, when a person operates an operation lever provided in a remote control device 4 for remotely controlling a construction machine 2, the drive range of the actuator 22 of the construction machine 2 is adjusted while slightly shaking the operation lever according to the human sense. Therefore, when a person is operating, the value indicated by the second control signal fluctuates, and the variance σ1 of the value per unit time becomes large. On the other hand, when something hits the operation lever of the remote control device 4, the operation lever moves from the reference position to the operation input position, and stops in that state, the remote control device 4 does not change the operation amount. Alternatively, a small second control signal is output to the operation control management device 1. Therefore, as an example of the case where no human is operating, the fluctuation of the value indicated by the second control signal is no or small, and the variance σ1 of the value per unit time is small. For example, it is assumed that a person who operates the remote control device 4 falls down by covering his / her body with an operation lever due to a sudden illness. In such a case, the operation control management device 1 acquires a second control signal having a constant value, and the determination unit 13 determines that the second control signal is a signal output from the remote control device 4 by human operation. It can be determined that it is not.

In order to perform this process, in step S106 described above, the determination unit 13 calculates the variance σ1 per unit time of the value indicated by the second control signal while acquiring the second control signal. The determination unit 13 determines whether or not the variance σ1 is larger than the variance threshold value σa (step S161). When the variance σ1 is larger than the variance threshold value σa, the determination unit 13 determines that the second control signal is a signal output from the remote control device 4 by human operation (step S162).

Further, when a person normally operates an operation lever provided in the remote control device 4 for remotely controlling the construction machine 2, the drive range of the actuator 22 of the construction machine 2 is adjusted while slightly shaking the operation lever according to the human sense. Therefore, when a person is operating and the drive range is increased or decreased, the variance σ2 of the displacement (per unit time) according to the time change of the second control signal becomes large. On the other hand, when some object hits the operation lever of the remote control device 4, the operation lever moves from the reference position to the operation input position, and the force applied to the input position gradually changes linearly, the remote control device 4 is remotely controlled. The operation device 4 outputs a second control signal having no or little displacement according to the time change to the operation control management device 1. Therefore, as an example of the case where no human is operating, there is little or no displacement of the value of the second control signal with the passage of time, and the variance σ2 of the displacement with the passage of time becomes small. On the other hand, when an object hits the remote control device 4 and the object keeps changing the position of the operation lever gradually, the operation control management device 1 has a second value whose displacement is constant according to the passage of time. The control signal will be acquired, and the determination unit 13 can determine that the second control signal is not a signal output from the remote control device 4 by human operation.

In order to perform this process, the determination unit 13 may calculate the variance σ2 of the displacement according to the passage of time of the value indicated by the second control signal while the second control signal is being acquired. The displacement according to the passage of time is, for example, the displacement per unit time, and is the slope (increase amount) of the value indicated by the second control signal in the unit time. The determination unit 13 determines whether or not the variance σ2 is larger than the dispersion threshold value σb of the displacement (step S163). When the displacement variance σ2 is larger than the displacement variance threshold σb, the determination unit 13 determines that the second control signal is a signal output from the remote control device 4 by human operation (step S162). When the determination unit 13 determines in step S162 that the variance σ1 is the variance threshold value σa, or in step S163 it determines that the displacement dispersion σ2 is equal to or less than the displacement dispersion threshold value σb, the second control It is determined that the signal is not a signal output from the remote control device 4 by human operation (step S164).
The determination in step S161 and the determination in step S163 may be performed both or only one of them. Further, in the above-described processing, the determination in step S163 is performed after the determination in step S161, but the order of this determination may be reversed.

When the determination unit 13 determines that the second control signal is not a signal output from the remote control device 4 by human operation, the determination unit 13 instructs the switching unit 14 to stop the output of the second control signal. The switching unit 14 stops the output of the second control signal and switches to output the first control signal to the control device 21 (step S104). At this time, if the operation control management device 1 has not acquired the first control signal, the output of the control signal to the control device 21 is stopped.

By such processing, when the operation control management device 1 determines that the second control signal is an abnormal signal other than the signal output from the remote control device 4 by human operation, the operation control management device 1 outputs the second control signal. Can be stopped. As a result, the operation accuracy of the construction machine used at the construction site can be improved.

In the above processing, the remote control device 4 outputs the second control signal to the operation control management device 1, but the remote control device 4 is not provided in the control system 100, and the manual operation device provided in the construction machine 2 is provided. , The second control signal may be output to the operation control management device 1. In this case as well, the operation control management device 1 acquires the second control signal output from the manual operation device instead of the second control signal output from the remote control device 4 described in the above processing, and is similar. Processing may be performed.

In the above processing, when the determination unit 13 of the operation control management device 1 analyzes the control signal and determines that it is a control signal indicating an abnormal operation based on the control signal, the determination unit 13 further further controls the control device 21. The output of the control signal to may be stopped.

For example, when the second control signal acquired from the remote control device 4 is analyzed and the drive directions indicated by the front and rear second control signals are completely opposite, the second control signal is output to the control device 21. May be stopped. Alternatively, the determination unit 13 uses machine learning to generate a learning model that detects a change in the value when the second control signal is in an abnormal state, and inputs the newly acquired second control signal to the learning model. At that time, when the information indicating that the abnormal state is output is output, the output of the control signal to the control device 21 may be stopped.

Further, for example, when the determination unit 13 switches from the state of outputting the first control signal to the control device 21 to the state of outputting the second control signal to the control device 21, the value indicated by the first control signal , If the deviation of the value indicated by the second control signal is large, it may be determined as abnormal. If the deviation is large, the operation of the construction machine 2 becomes discontinuous or unstable, and the safety and stability of the construction machine 2 may be lost. Therefore, when switching from the output of the first control signal to the output of the second control signal, the determination unit 13 sets the value indicated by the second control signal when the deviation of the value of each control signal is equal to or greater than a predetermined threshold value. The gain characteristic value may be multiplied and output to the control device 21. The gain characteristic value is information for correcting the second control signal by using, for example, the characteristics of the operation input by the operation lever of the person who operates the remote control device 4 as an index, and is based on the past operation input of the person in advance. It may be a value calculated by using the gain characteristic value calculation formula calculated in the above. Instead of the gain characteristic value, the determination unit 13 calculates the time constant of the control device 21 that can be calculated by using the characteristic of the operation input by the past operation lever of the person who operates the remote control device 4 as an index, and thereby the second A time constant may be applied to the output of the control signal and output to the control device 21.

As a result, in the operation control management device 1, when the deviation between the value indicated by the first control signal and the value indicated by the second control signal is large, the operation of the construction machine 2 becomes discontinuous or unstable. It can be suppressed. Further, for example, when the operation control management device 1 wants to quickly switch the construction machine 2 automatically controlled by the first control signal to a manual remote operation, the operation of the operation input after the switching (for example, the arm of the construction machine 2). If the responsiveness of the control device 21 is high, it is possible to switch to the remote operation by the second control signal by performing the amplitude motion) quickly (at a high frequency). On the other hand, if you want to gently switch the operation of the construction machine 2 that operates at high speed, which is automatically controlled by the first control signal, by remote control, if you slowly perform the operation input operation after switching, the response on the control device 21 Gender switches dull. This makes it possible to control the response of the operation of the construction machine 2 when switching from the operation by the automatic operation device 3 to the operation by the remote control device 4 according to the intention of the person who operates the remote control device 4.

When switching from the output of the second control signal to the output of the first control signal, the determination unit 13 applies a gain to the first control signal when the deviation of the value of each control signal is equal to or greater than a predetermined threshold value. Or, by applying a time constant, even if the phenomenon of discontinuity or unstable operation when switching from manual control by the second control signal to automatic control by the first control signal is suppressed. Good.

Although the present embodiment describes the case where the control target is the construction machine 2, the automatic operation device 3, the remote control device 4, and the operation control management device 1 are other control targets such as a robot instead of the construction machine 2. It may control the device.

FIG. 7 is a diagram showing a minimum configuration of the operation control management device according to the present embodiment.
FIG. 8 is a diagram showing a processing flow by the operation control management device having the minimum configuration according to the present embodiment.
The operation control management device 1 includes at least a determination unit 13 and a switching unit 14.
The determination unit 13 acquires the first control signal output from the automatic operation device that automatically controls the control target device and the second control signal output from the manual operation device that manually controls the control target device. Based on the state of the control signal, it is determined whether or not the second control signal is a signal output from the manual operation device by human operation (step S701).
Based on the result of the determination, the switching unit 14 switches to either the first control signal or the second control signal and outputs the output to the control device of the control target device (step S702).

Each of the above devices may have a computer system inside. The process of each process described above is stored in a computer-readable recording medium in the form of a program, and the process may be performed by the computer reading and executing this program. Here, the computer-readable recording medium refers to a magnetic disk, a magneto-optical disk, a CD-ROM, a DVD-ROM, a semiconductor memory, or the like. Further, this computer program may be distributed to a computer via a communication line, and the computer receiving the distribution may execute the program.

Further, the above program may be for realizing a part of the above-mentioned functions. Further, a so-called difference file (difference program) may be used, which can realize the above-mentioned functions in combination with a program already recorded in the computer system.

Some or all of the above embodiments may also be described, but not limited to:

(Appendix 1)
An automatic operation device that outputs the first control signal for automatically controlling construction machinery,
A manual operation device that outputs a second control signal for manually controlling the construction machine, and
The construction machine includes an operation control management device that outputs either the first control signal or the second control signal.
The operation control management device is
Whether the first control signal and the second control signal are acquired and the second control signal is a signal output from the manual operation device by human operation based on the state of the second control signal. A judgment unit that determines whether or not
Based on the result of the determination, a switching unit that switches between the first control signal and the second control signal and outputs the output to the construction machine.
Control system with.

(Appendix 2)
The determination unit determines that the second control signal is a signal output from the manual operation device by a human operation based on the variance of the value indicated by the second control signal per unit time. The control system described.

(Appendix 3)
The determination unit determines that the second control signal is a signal output from the manual operation device by a human operation based on the dispersion of the displacement of the value indicated by the second control signal with the passage of time. The control system according to Appendix 1 or Appendix 2.

(Appendix 4)
When the switching unit determines that the second control signal is a signal output from the manual operation device by human operation, the switching unit gives priority to the second control signal and outputs it to the control device of the construction machine. The control system according to any one of Supplementary note 1 to Supplementary note 3.

(Appendix 5)
When the switching unit determines that the second control signal is not a signal output from the manual operation device by human operation, the switching unit gives priority to the first control signal and outputs it to the control device of the construction machine. The control system according to any one of Supplementary note 1 to Supplementary note 4.

(Appendix 6)
The switching unit stops the output of the second control signal to the control device when it is determined that the second control signal is not a signal output from the manual operation device by human operation. The control system according to any one of Appendix 5.

(Appendix 7)
When the second control signal is continuously acquired for a predetermined time or longer, the determination unit determines whether or not the second control signal is a signal output from the manual operation device by a human operation. The control system according to any one of Supplementary note 1 to Supplementary note 6.

(Appendix 8)
An acquisition unit that acquires the second control signal from the remotely provided manual operation device, and
The control system according to any one of Supplementary note 1 to Supplementary note 7, further comprising.

(Appendix 9)
When the determination unit determines that the deviation between the first control signal and the second control signal is equal to or greater than a predetermined deviation threshold value, the determination unit of the construction machine in switching between the first control signal and the second control signal. The control system according to any one of Supplementary notes 1 to 8, which suppresses discontinuity or stability of operation.

(Appendix 10)
The first control signal output from the automatic operation device that automatically controls the construction machine and the second control signal output from the manual operation device that manually controls the construction machine are acquired, and the state of the second control signal is set. Based on this, a determination unit that determines whether or not the second control signal is a signal output from the manual operation device by human operation, and
Based on the result of the determination, a switching unit that switches between the first control signal and the second control signal and outputs the output to the control device of the construction machine.
Operation control management device including.

(Appendix 11)
The first control signal output from the automatic operation device that automatically controls the control target device and the second control signal output from the manual operation device that manually controls the control target device are acquired, and the second control signal of the second control signal is acquired. A determination unit that determines whether or not the second control signal is a signal output from the manual operation device by human operation based on the state.
Based on the result of the determination, a switching unit that switches between the first control signal and the second control signal and outputs the output to the control device of the control target device.
Operation control management device including.

(Appendix 12)
The first control signal for automatically controlling the construction machine and the second control signal for manually controlling the construction machine are acquired.
Based on the state of the second control signal, it is determined whether or not the second control signal is a signal output from the manual operation device by human operation.
An operation control management method that switches to either one of the first control signal and the second control signal and outputs the output to the control device of the construction machine based on the result of the determination.

(Appendix 13)
A step of acquiring a first control signal for automatically controlling a construction machine and a second control signal for manually controlling the construction machine, and
Based on the state of the second control signal, a step of determining whether or not the second control signal is a signal output from a manual operation device by human operation, and
Based on the result of the determination, a step of switching to either one of the first control signal and the second control signal and outputting to the control device of the construction machine.
A program to run.

1 ... Operation control management device 2 ... Construction machinery (device to be controlled)
3 ... Automatic operation device 4 ... Remote control device (manual operation device)
11 ... Control unit 12 ... Acquisition unit 13 ... Judgment unit 14 ... Switching unit 21 ... Control device 22 ... Actuator 100 ... Control system

Claims (10)

An automatic operation device that outputs the first control signal for automatically controlling construction machinery,
A manual operation device that outputs a second control signal for manually controlling the construction machine, and
The construction machine includes an operation control management device that outputs either the first control signal or the second control signal.
The operation control management device is
Whether the first control signal and the second control signal are acquired and the second control signal is a signal output from the manual operation device by human operation based on the state of the second control signal. A judgment unit that determines whether or not
Based on the result of the determination, a switching unit that switches between the first control signal and the second control signal and outputs the output to the construction machine.
Control system with. Claim 1 determines that the second control signal is a signal output from the manual operation device by a human operation based on the variance of the value indicated by the second control signal per unit time. The control system described in. The determination unit determines that the second control signal is a signal output from the manual operation device by a human operation based on the dispersion of the displacement of the value indicated by the second control signal with the passage of time. The control system according to claim 1 or 2. When the switching unit determines that the second control signal is a signal output from the manual operation device by human operation, the switching unit gives priority to the second control signal and outputs it to the control device of the construction machine. The control system according to any one of claims 1 to 3. When the switching unit determines that the second control signal is not a signal output from the manual operation device by human operation, the switching unit gives priority to the first control signal and outputs it to the control device of the construction machine. , Or the control system according to any one of claims 1 to 4, which stops the output of the second control signal to the control device. When the second control signal is continuously acquired for a predetermined time or longer, the determination unit determines whether or not the second control signal is a signal output from the manual operation device by a human operation. The control system according to any one of claims 1 to 5. When the determination unit determines that the deviation between the first control signal and the second control signal is equal to or greater than a predetermined deviation threshold value, the determination unit of the construction machine in switching between the first control signal and the second control signal. The control system according to any one of claims 1 to 6, which suppresses discontinuity or stability of operation. The first control signal output from the automatic operation device that automatically controls the construction machine and the second control signal output from the manual operation device that manually controls the construction machine are acquired, and the state of the second control signal is set. Based on this, a determination unit that determines whether or not the second control signal is a signal output from the manual operation device by human operation, and
Based on the result of the determination, a switching unit that switches between the first control signal and the second control signal and outputs the output to the control device of the construction machine.
Operation control management device including. The first control signal for automatically controlling the construction machine and the second control signal for manually controlling the construction machine are acquired.
Based on the state of the second control signal, it is determined whether or not the second control signal is a signal output from the manual operation device by human operation.
An operation control management method that switches to either one of the first control signal and the second control signal and outputs the output to the control device of the construction machine based on the result of the determination. A step of acquiring a first control signal for automatically controlling a construction machine and a second control signal for manually controlling the construction machine, and
Based on the state of the second control signal, a step of determining whether or not the second control signal is a signal output from a manual operation device by human operation, and
Based on the result of the determination, a step of switching to either one of the first control signal and the second control signal and outputting to the control device of the construction machine.
A program to run.

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