KR20230045951A - Real-time message processing apparatus and method for safety management system - Google Patents

Abstract

The present invention relates to a real-time message processing apparatus and method for a safety management system, to process a message received from a site to be transmitted to a manager in real time, especially process an emergency message to be transmitted faster than a regular message. According to one aspect of the present invention, the real-time message processing method comprises: a step (a) of establishing a first criterion for a message buffering size and a second criterion for a message waiting time; a step (b) of processing a received message into a message to be transmitted, and buffering the message to be transmitted; a step (c) of performing first determination on whether the size of the buffered message satisfies the first criterion or performing second determination on whether the waiting time of the buffered message satisfies the second criterion, wherein the second determination is performed when the first determination is not satisfied and the first determination is performed when the first and second determinations are not satisfied and an emergency message is not included in the buffered message; a step (d) of, when the first and second determinations are not satisfied and the emergency message is included in the buffered message, setting the first criterion and the second criterion in the step (a) downwardly; and a step (e) of transmitting the corresponding buffered message when the first determination is satisfied or the second determination is satisfied.

Description

Real-time message processing apparatus and method for safety management system

The present invention relates to a real-time message processing technology for a safety management system, and more particularly, detects a dangerous situation, such as a worker entering a dangerous area in an industrial site, and transmits an alarm (message) to a manager to prevent accidents. A real-time message processing device and method for efficiently processing messages in a safety management system having

In general, a safety management system uses a device (e.g. IoT sensor, management server, manager terminal, etc.) that detects whether a worker is wearing personal protective equipment or measures and transmits the surrounding situation of the worker to detect the risks present at the work site. It indicates a cloud system that monitors the monitoring and work status for factors and notifies through alarm broadcasting in the event of an abnormality.

However, since the conventional safety management system is in the form of generating an alarm when the state changes based on the state information stored in the DB, the risk (emergency) situation occurring in the field often cannot be quickly delivered to the manager in real time. there was

Therefore, there is a need for a real-time message processing technology in a safety management system to deliver a message related to a dangerous (emergency) situation received from the field to a manager in real time and process it.

Registered Patent Publication No. 10-2108368 (2020.04.29.)

The present invention was created in accordance with the above-mentioned needs, and its purpose is to process messages received from the field to be transmitted to the manager in real time, but in particular, to process emergency messages so that they can be transmitted more quickly than general messages, a safety management system. It is to provide a real-time message processing device and method in

In order to achieve the above object, a real-time message processing method in a safety management system according to an aspect of the present invention is a real-time message processing method performed in a safety management system, including (a) a first criterion for message buffering size and a message setting a second criterion for waiting time; (b) processing the received message into a message to be transmitted and buffering the received message; (c) first determining whether the size of the buffered message satisfies the first criterion or second determining whether the waiting time of the buffered message satisfies the second criterion, wherein the first determination performing the second determination if the time is not satisfied, and performing the first determination when the emergency message is not included in the buffered message while the second determination is not satisfied; (d) setting the first criterion or the second criterion by downwardly changing the first criterion or the second criterion in the step (a), respectively, when the emergency message is included in the buffered message when the second determination is not satisfied; and (e) transmitting (optionally compressing) the corresponding buffered message when the first determination is satisfied or the second determination is satisfied.

The step (b) may process and buffer the message received from the safety management system as a message to be transmitted from the work site, and the step (e) may transfer the buffered message from the safety management system to the safety management control/monitoring terminal. (ie, manager terminal) side.

In order to achieve the above object, a real-time message processing device in a safety management system according to another aspect of the present invention is a real-time message processing device included in a safety management system, based on a first criterion for message buffering size and message waiting time. a setting unit for setting a second criterion for; a buffer unit for processing and buffering the received message as a message to be transmitted; A first determination is made as to whether the size of the buffered message satisfies the first criterion, or a second determination is made as to whether or not the waiting time of the buffered message satisfies the second criterion. a determination unit configured to perform the second determination, and to perform the first determination when the second determination is not satisfied and the emergency message is not included in the buffered message; a change unit for setting the first standard or the second standard by downwardly changing the first standard or the second standard in the setting unit when the emergency message is included in the buffered message without being satisfied at the time of the second determination; and a transmission unit configured to selectively compress and transmit the corresponding buffered message when the first determination is satisfied or the second determination is satisfied.

The buffer unit processes the message received from the work site to the safety management system as a message to be transmitted and buffers it, and the transmission unit transmits the buffered message from the safety management system to the safety management control/monitoring terminal (ie, manager terminal). there is.

According to another aspect of the present invention in order to achieve the above object, a computer-readable recording medium recording a program for executing a real-time message processing method in the safety management system in a computer may be provided.

According to another aspect of the present invention to achieve the above object, an application stored in a computer-readable recording medium can be provided to execute the real-time message processing method in the safety management system in combination with hardware.

According to another aspect of the present invention in order to achieve the above object, a computer program stored in a computer-readable recording medium may be provided to execute the real-time message processing method in the safety management system in a computer.

As described above, according to various aspects of the present invention, the message received from the field can be transmitted to the manager in real time, and in particular, the message transmission efficiency is increased by processing the message related to the danger (emergency) situation so that it can be transmitted more quickly than a general message. In addition, there is an effect of further improving transmission efficiency by buffering a message of a certain size or a certain time for transmission efficiency and then compressing and transmitting the message.

1 is a block diagram of a safety management system according to an exemplary embodiment of the present invention;
2 is a block diagram of a real-time message processing device in a safety management system according to an exemplary embodiment of the present invention;
3 is a flowchart of a real-time message processing method in a safety management system according to an exemplary embodiment of the present invention;
4-5 are diagrams for explaining an operation example of a real-time message processing device in a safety management system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In adding reference numerals to the components of each drawing, the same components should have the same numerals as much as possible, even if they are displayed on different drawings. In addition, when it is determined that a detailed description of a known configuration or function related to an embodiment of the present invention may obscure the gist of the present invention, the detailed description will be omitted.

1 is a block diagram of a safety management system according to an exemplary embodiment of the present invention, as shown in the figure, an IoT sensor 100, a safety management system 200, and a safety management control/monitoring terminal 400 ) may be included.

The IoT sensor 100 represents various IoT (Internet of Things) sensors installed at a work site, and may include, for example, a worker detection sensor installed in a dangerous area of the work site.

The safety management system 200 is a control system capable of processing and monitoring the detected data received from the operator detection sensor 100 in real time in the cloud and generating an alarm, and a message to transmit a safety-related general message or an emergency message received from the outside to the outside. It can be processed and transmitted, for example, the message received from the IoT sensor 100 can be processed as a message to be transmitted and transmitted to the safety management control / monitoring terminal 400.

The safety management system 200 is provided with a real-time message processing device 20 as shown in FIG. 2 and processes messages received from the field to be transmitted to the manager in real time, but in particular, urgent messages are processed so that they can be transmitted faster than normal messages. can do.

The safety management control/monitoring terminal 400 is a terminal device such as a computer or smartphone used by a manager, and receives safety-related general messages and emergency messages transmitted from the safety management system 200 so that the manager can control for safety management. and monitoring.

FIG. 2 is a block diagram of a real-time message processing device 20 in a safety management system according to an exemplary embodiment of the present invention. The configuration of the real-time message processing device 20 included in the safety management system 2 of FIG. 1 , and as shown in the figure, it may include a setting unit 21, a buffer unit 23, a determination unit 25, a change unit 27, and a transmission unit 29.

The setting unit 21 is for setting a transmission criterion for a message, a first criterion for message buffering size (i.e., message transmission size) and a second criterion for message waiting time (i.e., message transmission waiting time). can be set.

For example, the first criterion may be set in units of kilobytes (KB) in consideration of the transmission environment including the MTU (Maximum Transmission Unit) value of the network, and the second criterion may be set in units of msec.

The buffer unit 23 is for buffering by processing a message received from the outside into a message to be transmitted, and may process and buffer a message received from the work site to the safety management system 200 as a message to be transmitted.

For example, the buffer unit 23 generates a message to be transmitted from the safety management system 200 to the manager terminal 400 based on the message received from the IoT sensor 100 at the work site to the safety management system 200. It can be stored (buffered) in a memory buffer.

The determination unit 25 determines whether the message data buffered in the buffer unit 23 satisfies the transmission standard based on at least one of the first criterion and the second criterion set in the setting unit 21, For example, it is possible to determine whether the size of the message buffered in the buffer unit 23 satisfies the first criterion (hereinafter referred to as the first determination), and the waiting time of the message buffered in the buffer unit 23 is It is possible to determine whether or not the second criterion is satisfied (hereinafter referred to as second determination).

The determination unit 25 may, for example, perform a second determination when the first determination is not satisfied, and as another example, the emergency message is included in the message buffered in the buffer unit 23 while not being satisfied at the second determination. If not, the first judgment may be performed again.

The change unit 27 is for changing the transmission criteria set in the setting unit 21 under certain conditions, for example, when an emergency message is included in the message buffered in the buffer unit 23 without being satisfied at the time of the second determination. At least one of the first criterion and the second criterion of the unit 21 may be set by changing downward by a certain amount, for example, when the first criterion is set to 100 msec immediately before the change, 60 msec, 50 msec, or It can be set again by changing downward to 40 msec, etc., and if the second criterion is set to 20 KB, it can be reset by downward changing to 15 KB, 10 KB, or 5 KB lower than this. At this time, the degree of change (amount, size) takes into account specific conditions So you can dynamically set it differently.

That is, the change unit 27 comprehensively considers specific conditions such as the size and waiting time (amount) of messages buffered up to now, the size of received unit messages, and the reception interval, and determines whether the first or second criteria are met. It is possible to dynamically set the downshift amount (size) differently so that when an emergency message is received, it can be transmitted without waiting.

The transmission unit 29 transmits the buffered message of the buffer unit 23 when the first criterion is satisfied as a result of the first determination of the determination unit 25 or the second criterion is satisfied as a result of the second determination of the determination unit 25. To do this, for example, the message buffered in the buffer unit 23 may be transmitted from the safety management system 200 to the safety management control/monitoring terminal (ie, manager terminal) 400 side.

The transmission unit 29 may compress and transmit a message buffered for a certain time or a certain size according to selection, and may check the transmission result and perform transmission retry in case of transmission failure.

3 is a flowchart of a real-time message processing method in a safety management system according to an exemplary embodiment of the present invention, and since it is applied to the real-time message processing device 20 of the safety management system 200 of FIGS. 1-2, the corresponding device ( 200 and 20) and operations of the related devices 100 and 400 will be described in parallel.

First, in a state in which a first criterion for the transmission size of a message and a second criterion for a waiting time for transmission of a message are set through the setting unit 21 of the real-time message processing device 20 of the safety management system 200 (S301 ), the buffer unit 23 transmits a message from the safety management system 200 to the manager terminal 400 based on the message S303 received in real time from the IoT sensor 100 to the safety management system 200 at the work site. It is generated and stored (buffered) in real time in a memory buffer (S305).

Subsequently, the determination unit 25 determines whether the size of the message buffered through the buffer unit 23 in step S305 satisfies the transmission size standard, that is, the first standard (hereinafter referred to as the first determination) (S307). , If the determination result of step S307 does not satisfy the first criterion (transfer size criterion), it is determined whether the waiting time for transmission of the buffered message satisfies the transmission waiting time criterion, that is, the second criterion (hereinafter, the second criterion). ) (S309).

If the determination result of step S309 does not satisfy the second criterion (transmission waiting time standard), the judgment unit 25 determines whether an emergency message is included in the corresponding buffered message (S311), and as a result of determination of step S311, the determination unit 25 determines that an emergency message is included. If the message is not included, start again from step S303, and if the emergency message is included as a result of the determination in step S311, the first criterion (transmission size criterion) and the second criterion (transmission waiting time criterion) through the changer 27 After at least one of them is down-changed by a predetermined size, the process starts again from step S303 so that the changed criteria are applied when determining steps S307 and S309 (S313).

Finally, when the first criterion (transmission size criterion) is satisfied as a result of the first determination in step S307 or the second criterion (transmission waiting time criterion) is satisfied as a result of the second determination in step S309, the transmitter 29 buffers the buffer. The buffered message of unit 23 is transmitted from the safety management system 200 to the safety management control/monitoring terminal (ie, manager terminal) 400, but the message can be compressed and transmitted according to selection during transmission, and the transmission result It is possible to perform transmission retry in case of transmission failure by checking (S315-S319).

When the message transmission through the transmission unit 29 is completed in step S319, the corresponding message of the buffer unit 23 is deleted to empty the memory buffer, and the first standard (transmission size standard) and the second standard (transmission size standard) of the setting unit 21 are deleted. You can start again from the beginning by returning the standby time standard) to the initial setting value.

According to the above-described embodiment of the present invention, for example, as shown in FIG. 4, when the received messages #1 to #n have the same size, the buffered messages are accumulated at a constant rate, thereby reducing the waiting time of the buffered messages. 2 If the size of the buffered message meets the first criterion (transmission size criterion) after a certain amount of time (e.g. 80 msec) before reaching the criterion (transmission latency criterion) of 100 msec, the message is sent even though the transmission latency criterion can be transmitted even before reaching . In this case, by adjusting the first criterion (transmission size criterion), messages can be transmitted efficiently without delay, and messages related to dangerous (emergency) situations can be processed to be transmitted faster than normal messages.

As another example, as shown in FIG. 5 , when the sizes of received messages #1 to #n are not the same, buffered messages are accumulated at an irregular rate, and the waiting time of the buffered messages is the second criterion (based on the transmission waiting time). Even if the size of the buffered message does not reach the first criterion (transmission size criterion) until reaching 100 msec, the corresponding message can be transmitted because the second criterion (transmission latency criterion) is satisfied. In this case, if the second criterion (transmission waiting time criterion) is adjusted, the message can be transmitted efficiently without delay, and the message related to the dangerous (emergency) situation can be processed so that it can be transmitted more quickly than a general message.

On the other hand, according to the real-time message processing method in the safety management system described above, a computer-readable recording medium in which a program for executing the method in a computer is recorded can be implemented.

On the other hand, according to the real-time message processing method in the safety management system described above, an application stored in a computer-readable recording medium can be implemented in order to execute the corresponding method in combination with hardware.

On the other hand, according to the real-time message processing method in the safety management system described above, a computer program stored in a computer-readable recording medium may be implemented in order to execute the corresponding method on a computer.

For example, as described above, a real-time message processing method in a safety management system according to an exemplary embodiment of the present invention is a computer-readable recording medium including program instructions for performing various computer-implemented operations, or a recording thereof. It can be implemented as an application stored on a medium. The computer readable recording medium may include program instructions, local data files, local data structures, etc. alone or in combination. The recording medium may be specially designed and configured for the embodiment of the present invention, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks and magnetic tapes, optical recording media such as CD-ROMs and DVDs, magneto-optical media such as floptical disks, and ROMs, RAMs, flash memories, and the like. A hardware device specially configured to store and execute the same program instructions is included. Examples of program instructions may include high-level language codes that can be executed by a computer using an interpreter or the like as well as machine language codes generated by a compiler.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

20: real-time message processing device in safety management system
21: setting unit
23: buffer unit
25: judgment unit
27: change part
29: transmission unit
100: IoT sensor
200: safety management system
400: Safety management control/monitoring terminal, manager terminal

Claims (13)

A real-time message processing method performed in a safety management system,
(a) setting a first criterion for message buffering size and a second criterion for message waiting time;
(b) processing the received message into a message to be transmitted and buffering the received message;
(c) first determining whether the size of the buffered message satisfies the first criterion or second determining whether the waiting time of the buffered message satisfies the second criterion, wherein the first determination performing the second determination if the time is not satisfied, and performing the first determination when the emergency message is not included in the buffered message while the second determination is not satisfied;
(d) setting the first criterion or the second criterion by downwardly changing the first criterion or the second criterion in the step (a), respectively, when the emergency message is included in the buffered message when the second determination is not satisfied; and
(e) transmitting a corresponding buffered message when the first determination is satisfied or the second determination is satisfied;
Real-time message processing method in a safety management system comprising a. According to claim 1,
The real-time message processing method in a safety management system, characterized in that the step (e) compresses and transmits the corresponding buffered message. According to claim 1,
The real-time message processing method in a safety management system, characterized in that the first criterion is set based on a maximum transmission unit (MTU) value of the network. According to claim 1,
The second criterion is a real-time message processing method in a safety management system, characterized in that set in msec units. According to claim 1,
The step (b) processes the message received from the work site to the safety management system as a message to be transmitted and buffers it, and the step (e) transmits the buffered message from the safety management system to the safety management control/monitoring terminal side. A real-time message processing method in a safety management system, characterized in that for doing. A real-time message processing device included in a safety management system,
a setting unit for setting a first criterion for message buffering size and a second criterion for message waiting time;
a buffer unit for processing and buffering the received message as a message to be transmitted;
A first determination is made as to whether the size of the buffered message satisfies the first criterion, or a second determination is made as to whether or not the waiting time of the buffered message satisfies the second criterion. a determination unit configured to perform the second determination, and to perform the first determination when the second determination is not satisfied and the emergency message is not included in the buffered message;
a change unit for setting the first standard or the second standard by downwardly changing the first standard or the second standard in the setting unit when the emergency message is included in the buffered message without being satisfied at the time of the second determination; and
a transmission unit configured to transmit a corresponding buffered message when the first determination is satisfied or the second determination is satisfied;
A real-time message processing device in a safety management system comprising a. According to claim 6,
The real-time message processing device in the safety management system, characterized in that the transmitting unit compresses and transmits the corresponding buffered message. According to claim 6,
The real-time message processing device in the safety management system, characterized in that the first criterion is set based on the MTU (Maximum Transmission Unit) value of the network. According to claim 6,
The real-time message processing device in the safety management system, characterized in that the second criterion is set in units of msec. According to claim 6,
Safety management characterized in that the buffer unit processes and buffers the message received from the safety management system as a message to be transmitted from the work site, and transmits the buffered message from the safety management system to the safety management control / monitoring terminal side. Real-time message processing unit in the system. A computer-readable recording medium recording a program for executing the real-time message processing method in the safety management system according to any one of claims 1 to 5 in a computer. An application stored in a computer-readable recording medium in order to execute the real-time message processing method in the safety management system according to any one of claims 1 to 5 in combination with hardware. A computer program stored in a computer-readable recording medium in order to execute the real-time message processing method in the safety management system according to any one of claims 1 to 5 on a computer.

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