KR102301156B1 - Data protocol transmission system according to wireless communication network response speed - Google Patents

Abstract

The present invention relates to a data protocol transmission system in accordance with a wireless communication network response speed, comprising: a server (200); and a client (100) which synthesizes a communication request speed and a communication response speed on a wireless communication network with respect to the server (200) to selectively classify setting and target sensor data in accordance with the communication speed, and merges and generates a data protocol to transmit the protocol in accordance with the transmission time interval. Therefore, the present invention can minimize the amount of data in a state in which a network state is incomplete to guarantee data stability and efficiency by synthesizing the communication request speed and communication response speed on a wireless communication network to selectively classify setting and target sensor data in accordance with a communication speed, and merging and generating a data protocol to transmit the protocol in accordance with the transmission time interval.

Description

Data protocol transmission system according to wireless communication network response speed

The present invention relates to a data protocol transmission system according to a wireless communication network response speed, and more specifically, to a data protocol by synthesizing a communication request speed and a communication response speed in a wireless communication network to select and classify settings and target sensor data according to the communication speed. A data protocol transmission system according to the wireless communication network response speed to ensure the stability and efficiency of data by minimizing the amount of data in an incomplete network condition by merging, generating, and transmitting the protocol according to the transmission time interval will be.

Currently, many industries use wireless communication networks to collect data through various hardware devices and data protocol communication.

In the case of wireless networks and communication protocols applied to industrial sites, the communication situation may be unstable depending on the applied site environment and hardware configuration specifications. there is

Accordingly, in the technical field, there is a demand for technology development according to various wireless communication situations.

Domestic Registered Patent Publication No. 10-0249516 (Announcement on Mar. 15, 2000) A method of processing a call to a subscriber to a comprehensive information network using the primary group speed interface signaling method in a large-capacity communication processing system

The present invention is to solve the above problems, and an object of the present invention is to provide a data protocol transmission system according to the response speed of a wireless communication network for transmitting by minimizing the amount of data to be transmitted according to the response speed state of the wireless communication network.

Another object of the present invention is to provide a data protocol transmission system according to a wireless communication network response speed for preventing loss of important data and securing data reliability and stability even in an unstable environment when processing sensor data of a monitoring system.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a data protocol transmission system according to a wireless communication network response speed according to an embodiment of the present invention includes: a server 200; And for the server 200, by synthesizing the communication request speed and the communication response speed on the wireless communication network, select and classify the setting and target sensor data according to the communication speed, and merge the data protocol and generate the data protocol to transmit the protocol according to the transmission time interval. client 100; It may be characterized in that it comprises a.

At this time, when the software side of the client 100 requests the communication setting value stored in the server 200, the communication setting value set at the server 200 side is transmitted to the client 100 side. have.

In addition, it may be characterized in that the client 100 transmits the current time to the server 200 to check the response speed.

In addition, it may be characterized in that the arrival time value is obtained by comparing the sending time of the client 100 with the current server 200 time in the server 200 receiving the sending time (client time).

In addition, it may be characterized in that the arrival time calculated by the server 200 and the response time (server time), which is the current time of the server 200, are added and transmitted to the client 100 side.

The data protocol transmission system according to the response speed of a wireless communication network according to an embodiment of the present invention provides an effect of minimizing the amount of data to be transmitted according to the response speed of the wireless communication network.

In addition, the data protocol transmission system according to the wireless communication network response speed according to another embodiment of the present invention can prevent the loss of important data even in an unstable environment when processing sensor data of the monitoring system and secure the reliability and stability of the data provides

1 is a diagram showing the structure and implementation process of a data protocol transmission system 1 according to a wireless communication network response speed according to an embodiment of the present invention.
2 is a response speed check module 130 in each of the client 100 and the server 200 to obtain the result value of the communication network response speed in the data protocol transmission system 1 according to the wireless communication network response speed according to the embodiment of the present invention. , 220) is a diagram showing the processing procedure.
3 is a diagram illustrating a processing process of the protocol merge generation module 160 to generate a protocol to be transmitted in the data protocol transmission system 1 according to a wireless communication network response speed according to an embodiment of the present invention.
4 is a flowchart illustrating a process performed by the dispatch timer module 170 in the data protocol transmission system 1 according to the wireless communication network response speed according to an embodiment of the present invention.
5 is a diagram illustrating an operation form of the database input module 250 in the server 200 in the data protocol transmission system 1 according to the wireless communication network response speed according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, detailed description of preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

In the present specification, when one component 'transmits' data or signal to another component, the component may directly transmit the data or signal to another component, and through at least one other component This means that data or signals can be transmitted to other components.

1 is a diagram showing the structure and implementation process of a data protocol transmission system 1 according to a wireless communication network response speed according to an embodiment of the present invention. Referring to FIG. 1 , a data protocol transmission system 1 according to a wireless communication network response speed has a structure in which a client 100 , a server 200 , and an external database 300 are connected through a wireless communication network.

Meanwhile, the client 100 includes a user event module 110 , a communication set value module 120 , a response speed check module 130 , a data processing algorithm 140 , a real-time sensor data collection module 150 , and a protocol merge generation module. 160 , a sending timer module 170 , and a communication sending/receiving module 180 , and the server 200 includes a communication setting value module 210 , a response speed checking module 220 , and a data processing algorithm 230 . , a communication transmission/reception module 240 , and a database input module 250 .

Through this configuration, the data protocol transmission system 1 according to the response speed of the wireless communication network minimizes the amount of transmission data to be transmitted through the response speed of the wireless communication network, and the user event module 110 sends the user when the user clicks the communication start button The data processing algorithms 140 and 230 are algorithms that control all functions used in the present invention to be sequentially operated, and the communication transmission/reception modules 180 and 240 are TCP & UDP communication methods. is a data transmission/reception module of , and the communication setting value modules 120 and 210 can manage a data table in which the sensor device and protocol settings to be transmitted are stored according to the speed of the communication network with the structure shown in Table 1 to be described later.

Through this configuration, the data protocol transmission system 1 according to the wireless communication network response speed according to the embodiment of the present invention will be described in detail.

First, when the software side of the client 100 requests the communication setting value stored in the server 200 (S11), the communication setting value set at the server 200 side is transmitted to the client 100 side (S12) ).

More specifically, when the user executes the client 100 software, a start command is transmitted through the user event module 110 and the data processing algorithm 140 of the client 100 receiving the start command is executed by the server 200 . When a communication setting value is requested from the communication setting value module 210 in By sending to the (100) side, it can be stored in the client 100 side communication setting value module 120 .

Here, the structure of the setting table stored in the communication setting value module 120 may be as shown in Table 1 below.

communication class communications network
response speed Collectable sensor
device number protocol
number of merges protocol
transmission interval Grade 1 min~50ms 1, 2, 3 ...N One 100ms 2nd grade 51-100ms 1, 2, 3...N 3 200ms 3rd grade 101~150ms 1, 2, 3 5 500ms 4th grade 151~200ms 1, 2 10 1000ms 5th grade 201~max ms One 100 5000ms

After the step (S12), the client 100 transmits the current time to the server 200 to check the response speed (S13).

More specifically, the transmission time (client time) corresponding to the current time is transmitted to the server 200 by the response speed checking module 130 of the client 100 .

After step S13, the received server 200 compares the transmission time of the client 100 with the current server 200 time to obtain an arrival time value (S14).

More specifically, the server 200 compares the received client sending time with the server time through the response speed checking module 200 to obtain the arrival time.

After step S14, the arrival time calculated by the server 200 and the response time (server time), which is the current time of the server 200, are added and transmitted to the client 100 side (S15).

After step S15, the client 100 compares the time sent by the server 200 with the time of the client 100 to obtain a second arrival time corresponding to the arrival time value again, and the arrival time sent by the server 200 The first arrival time and the average value are obtained and set as the communication network response speed (S16).

More specifically, the arrival time is obtained by comparing the response time received from the client 100 through the response speed check module 130 and the current client time, and the arrival time is The average value is calculated and the "network response speed result value" is transmitted to the data processing algorithm 140 .

That is, FIG. 2 is a view showing the processing procedures of the response speed checking modules 130 and 220 in the client 100 and the server 200, respectively, in order to obtain the result value of the communication network response speed. The message sending time of the client 100 is sent to the server 200 by communication to generate a first arrival time, which is the arrival time, and the second arrival time by sending the response message sending time from the server 200 to the client 100 by communication. save The average value of the first and second arrival times is set as the communication network response speed.

After the step (S16), the client 100 classifies the communication class according to the set communication network response speed result value and selects and classifies the monitoring target data according to the divided class, by adjusting the protocol merging process, and the protocol transmission interval, the transmission success rate It is possible to improve the transmission safety of important data by increasing the efficiency and increasing the efficiency.

That is, the data processing algorithm 140 compares the result value of the communication network response speed with the set value to check the corresponding communication class, the collection target device, the number of protocol merges, and the protocol transmission interval (S17 to S22).

More specifically, the data processing algorithm 140 reads the collection target sensor data that matches the communication level of the communication setting value stored in the client 100 side communication setting value module 120 from the real-time sensor data collection module 150 ( S17).

After the step S17, when the data processing algorithm 140 inputs the communication grade, the number of merges, and the transmission target sensor data to the protocol merge generation module 160 (S18, S19), the protocol merge generation module 160 is input The data is arranged in a first-in-first-out manner, merged with an average value according to the number of merges, converted into a protocol format to be transmitted through communication, and transmitted to the data processing algorithm 140 (S20).

3 is a diagram illustrating a processing process of the protocol merge generation module 160 to generate a protocol to be transmitted. Referring to FIG. 3 , the communication grade and the number of merging suitable for the current communication network response speed are stored in the [protocol merging result table] as shown in FIG. 3 .

On the other hand, the protocol merge generation module 160 stores the new sensor data in address 1 in the [first-in, first-out sensor data table] and deletes the address 100 data, and obtains an average of data from number 1 as many as the number of merges according to the communication grade, and [ Protocol Merge Result Table], and then add the merge result protocol CheckSum code to create it.

After step S20, when the data processing algorithm 140 inputs a transmission interval setting value corresponding to the protocol transmission interval in the structure of the setting table stored in the communication setting value module 120 to the transmission timer module 170 (S21) , the sending timer module 170 notifies the end of the timer to the data processing algorithm 140 after the transmission is delayed by the corresponding time (S22).

4 is a flowchart illustrating a process performed by the dispatch timer module 170 . Referring to FIG. 4 , when the sending timer module 170 receives a protocol transmission interval according to the communication level from the data processing algorithm 140, the timer is reset. When the timer operates for a set time and ends, the data processing algorithm 140 ) to notify the timer end.

After step S22, the data processing algorithm 140 of the client 100 transmits the protocol to the server 200 through the communication transmission/reception module 180 (S23).

After the step (S23), the data processing algorithm 230 inputs the data received through the communication/transmission module 240 in the server 200 to the database input module 250 (S24).

After step (S24), the database input module 250 transmits and stores the input protocol in the form of an SQL statement to the external database 300 after error checking and string parsing (S26).

4 shows an operation form of the database input module 250 in the server 200 . Referring to FIG. 5 , it is checked whether the protocol received from the client 100 is in a normal protocol format through the checkSum character. After that, the protocol string is divided into sensor-specific data through a comma and cut. According to the number of cut data, a SQL statement, which is a command to be input to the database, is generated, and the SQL statement is sent to the database for storage processing.

Accordingly, the client 100 side sending time, the server 200 side arrival time measuring the response time, classifying the communication status by response time, and merging the protocol, then transferring the data to the server side and checking the protocol error in the server side database input module 250 and data parsing and sql command execution.

The present invention can also be implemented as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data readable by a computer system is stored.

Examples of computer-readable recording media include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical data storage device, etc. also includes

In addition, the computer-readable recording medium is distributed in a computer system connected through a network, so that the computer-readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers in the technical field to which the present invention pertains.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms are used, these are only used in a general sense to easily explain the technical contents of the present invention and to help the understanding of the present invention. , it is not intended to limit the scope of the present invention. It will be apparent to those of ordinary skill in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

1: Data protocol transmission system according to wireless communication network response speed
100 : client
110: user event module
120: communication set value module
130: response speed check module
140: data processing algorithm
150: real-time sensor data collection module
160: protocol merge creation module
170: dispatch timer module
180: communication transmit/receive module
200 : server
210: communication set value module
220: response speed check module
230: data processing algorithm
240: communication transmit/receive module
250: database input module
300 : external database

Claims (5)

A user event module 110 that the user operates by clicking the communication start button, A communication setting value module 120 that manages a data table in which the sensor device and protocol settings to be transmitted are stored according to the speed of the communication network, and a response speed check module that delivers the sending time (client time) corresponding to the current time to the server 200 ( 130), a data processing algorithm 140 that controls all functions to be sequentially operated, a real-time sensor that reads collection target sensor data that matches the communication class of the communication set value stored in the client 100 side communication set value module 120 The data collection module 150 arranges the input data in a first-in-first-out manner, merges them with an average value according to the number of merges, converts them into a protocol format to be transmitted through communication, and transmits them to the data processing algorithm 140. A protocol merge generation module 160 ), when the protocol transmission interval according to the communication level is input from the data processing algorithm 140, the timer is reset. ) and a client 100 including a communication transmission/reception module 180 for transmitting a protocol to the server 200 through the data processing algorithm 140 ;
a server 200 including a communication set value module 210 , a response speed check module 220 , a data processing algorithm 230 , a communication transmission/reception module 240 , and a database input module 250 ; and
An external database 300 for storing a protocol in the form of an SQL statement transmitted from the database input module 250; is a structure connected through a wireless communication network,
The client 100 synthesizes the communication request speed and the communication response speed on the wireless communication network for the server 200, selects and classifies the setting and target sensor data according to the communication speed, merges the data protocol, and generates the protocol transmission time Transmit at intervals,
When a start command is transmitted through the user event module 110 and the data processing algorithm 140 of the client 100 receiving the start command requests the communication set value from the communication set value module 210 in the server 200, The data processing algorithm 230 of the server 200 extracts the communication setting value stored in the server 200 side communication setting value module 210 and sends it to the client 100 side, so that the client 100 side communication setting value module ( 120), the client 100 sends the current time to the server 200 to check the response speed, and the server 200 receives the sending time (client time) with the sending time of the client 100 and The arrival time value is obtained by comparing the current server 200 time, and the arrival time calculated by the server 200 and the response time (server time), which is the current time of the server 200, are added and sent to the client 100 side. A data protocol transmission system according to the wireless communication network response speed. delete delete delete delete

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