CN113329098A - High-efficiency networking communication method based on local area network - Google Patents

Abstract

The invention relates to a communication method, in particular to a local area network-based high-efficiency networking communication method. The invention aims to provide a networking communication method capable of improving the data information transmission efficiency, simplifying the work flow and reducing the management difficulty, which comprises the following steps: step 1: starting a networking tower crane monitoring system, and step 2: determining the number of networking equipment of the monitoring system, and step 3: determining networking sequence of the equipment, and step 4: determining unit waiting time length, and step 5: determining a waiting coefficient, step 6: an initial value is set. According to the invention, through mutual cooperation among all the steps and by utilizing an efficient networking communication method, the orderliness of effective data transmission is improved, the communication efficiency is improved, the data transmission flow is simplified, and the management difficulty is reduced in the tower crane operation process.

Description

High-efficiency networking communication method based on local area network

Technical Field

The invention relates to the field of information communication, in particular to a high-efficiency networking communication method based on a local area network.

Background

With the continuous development of the information communication industry, the information communication almost covers every industry, every field and every person. The construction industry is one of the main development industries in China, various construction projects are spread all over the world, and the tower crane is used as one of construction machines and plays a vital role in conveying construction materials. Therefore, in the building engineering industry, the use frequency of the tower cranes is extremely high, in the process of high-altitude operation, mutual information transmission during the operation of the tower cranes is realized by a local area network communication method in a master-slave mode, when a plurality of tower cranes operate simultaneously, a plurality of data information are sent simultaneously, managers cannot distinguish which equipment the received information corresponds to in time, and the information transmission efficiency is low. The management is difficult;

in summary, in order to solve the problems of low data information transmission efficiency, low networking efficiency and long networking communication time required when a plurality of tower cranes operate simultaneously, it is urgently needed to develop a local networking communication method in a non-master-slave mode, so that the data information transmission efficiency is improved, the networking communication time is reduced, and the networking communication efficiency is improved.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that when a plurality of tower cranes operate simultaneously, a plurality of data messages are sent simultaneously, managers cannot distinguish which equipment the received information corresponds to in time, the efficiency of information transmission is low, and networking communication needs long time.

(2) Technical scheme

In order to solve the above technical problems, the present invention provides an efficient networking communication method based on a local area network, comprising:

step 1: starting a networking tower crane monitoring system;

starting a tower crane monitoring system, and enabling the tower crane monitoring system to enter a working state;

step 2: determining the number of networking equipment of the monitoring system;

after the tower crane monitoring system enters a working state, acquiring the number of networking equipment of the tower crane monitoring system;

the number of the obtained networking equipment of the tower crane monitoring system is n, wherein n is a specific number;

and step 3: determining networking sequencing of the equipment;

sequencing the working equipment in the networking according to the number n of the networking equipment of the tower crane monitoring system in the step 2; after the sorting processing is finished, determining the arrangement serial number of the equipment in the networking equipment number n;

wherein, the arrangement serial number of the equipment is set as i;

and 4, step 4: determining unit waiting time length;

presetting the information sending duration according to the content sent by the message information; wherein the emission duration is set to t;

and 5: determining a waiting coefficient;

after the number n of the networking devices respectively send message information, preset waiting time is set, and the waiting time is set as a waiting coefficient k;

step 6: setting an initial value and circularly networking;

first cycle period after device turn on: setting an initial value x to be 1, and setting the delay waiting time length to be T1;

and the subsequent cycle period determines different values of the device x with the number i according to whether the data of other networking devices are received, and sets different waiting time lengths according to the different values of the x.

Preferably, the step 6 further comprises: judging whether message information sent by other networking equipment is received or not within the delay waiting time T1; if message information sent by other equipment in the networking is received, acquiring networking sequencing of the other networking equipment, wherein the networking sequencing of the other networking equipment is set as j; and if the message information sent by other equipment in the network is not received within the delay waiting time period T1, sending the equipment message information with the number i, continuously setting x to be 1, and recycling.

Preferably, the step 6 further comprises: judging whether the value of j is smaller than the value of i; if the value of j is smaller than the value of i, setting x to be 2, and setting the delay waiting time length to be T2; if the value of j is greater than the value of i, x is set to 3, and the delay waiting time period is T3.

Preferably, the step 6 further comprises: when the set value x is 1, the formula of the delay waiting time length is as follows: t1 ═ (n × k +1) × T; when the set value x is 2, the formula of the delay waiting time length is as follows: (i-j-1) k +1) t; when the set value x is 3, the formula of the delay waiting time length is as follows: t3 ═ ((i + n-j-1) × k +1) × T.

Preferably, the method comprises the following steps: and the number n of the networking equipment of the tower crane monitoring system obtained in the step 2 is more than or equal to 2.

Preferably, the method comprises the following steps: in step 4, the emission time t is 5 microseconds.

Preferably, the method comprises the following steps: in the step 5, the waiting coefficient k is greater than or equal to 1.

Has the advantages that:

by utilizing the high-efficiency networking communication method based on the local area network, the networking communication time can be shortened, the defects of a master-slave mode in the local area network communication are overcome, data information transmission is efficiently carried out, the working efficiency of tower crane operation is improved, and the networking communication efficiency is improved.

Drawings

FIG. 1 is a flow chart of the operational steps of the present invention.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A high-efficiency networking communication method based on local area network, as shown in fig. 1, the use steps are as follows:

step 1: starting a networking tower crane monitoring system;

starting a tower crane monitoring system in a working area, wherein the tower crane monitoring system can monitor all networking equipment;

step 2: determining the number of networking equipment of the monitoring system;

after the tower crane monitoring system enters a working state, acquiring the total amount of networking equipment of the tower crane monitoring system; setting the number of networking equipment of the tower crane monitoring system to be 5;

and step 3: determining networking sequencing of the equipment;

sequencing the working equipment in the networking according to the number of the networking equipment of the tower crane monitoring system in the step 2 being 5; wherein the sequence is as follows: 1. 2, 3, 4, 5; after the sorting processing is finished, determining the arrangement serial number of the equipment in 5 networking devices; setting the arrangement serial number of the equipment to be 3;

and 4, step 4: determining unit time length;

presetting the information sending duration according to the content sent by the message information; wherein, the sending time of the message information content is set as 5 microseconds;

and 5: determining a waiting coefficient;

after 5 devices in the group network respectively send message information, preset waiting time is set, and a waiting coefficient is set to be 1;

step 6: setting initial values and circulating network

If the specified value x set after the device is turned on is 1, the delay waiting time of the device 3 is: t1 ═ 5 × 1 × 5 ═ 30 microseconds;

judging whether message information sent by other networking equipment is received within the delay waiting time T1-30 microseconds; if message information sent by other networking equipment in the networking is received, acquiring networking sequencing of the other networking equipment, wherein if the networking sequencing of the other networking equipment is set to be 2; if the message information sent by other devices in the network is not received within the delay waiting time T1 of 30 microseconds, sending the message information of the device 3, and continuously setting x to 1, and recycling;

step 6, after the networking sequence of the other networking equipment is obtained to be 2, judging that 2 is less than 3; setting x to 2, and the delay waiting time length of x to 2 is T2 ═ ((3-2-1) × 1+1) × 5 ═ 5 microseconds; if the networking sequence of other networking devices is set to be 4, 4 is greater than 3, x is set to be 3, and the delay waiting time length of x being 3 is T3 ((3+5-4-1) × 1+1) × 5 ═ 20 microseconds;

when the waiting coefficient of k in step 5 is set to 1.1, and the rest steps and settings are not changed, T1 ═ 5.5 × 1+ 5 ═ 32.5 microseconds; t2 ═ ((3-2-1) × 1.1+1) × 5 ═ 5 microseconds; t3 ═ ((3+5-4-1) × 1.1+1) × 5 ═ 20.5 microseconds.

In summary, by using the efficient networking communication method based on the local area network, the networking communication time can be shortened, the defects of the master-slave mode in the local area network communication are overcome, data information transmission is efficiently performed, the work efficiency of tower crane operation is improved, and the networking communication efficiency is improved.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (7)

1. A high-efficiency networking communication method based on a local area network is characterized by comprising the following steps:

step 1: starting a networking tower crane monitoring system;

starting a tower crane monitoring system, and enabling the tower crane monitoring system to enter a working state;

step 2: determining the number of networking equipment of the monitoring system;

after the tower crane monitoring system enters a working state, acquiring the number of networking equipment of the tower crane monitoring system;

the number of the obtained networking equipment of the tower crane monitoring system is n, wherein n is a specific number;

and step 3: determining networking sequencing of the equipment;

sequencing the working equipment in the networking according to the number n of the networking equipment of the tower crane monitoring system in the step 2; after the sorting processing is finished, determining the arrangement serial number of the equipment in the networking equipment number n;

wherein, the arrangement serial number of the equipment is set as i;

and 4, step 4: determining unit waiting time length;

presetting the information sending duration according to the content sent by the message information; wherein the emission duration is set to t;

and 5: determining a waiting coefficient;

after the number n of the networking devices respectively send message information, preset waiting time is set, and the waiting time is set as a waiting coefficient k;

step 6: setting an initial value and circularly networking;

first cycle period after device turn on: setting an initial value x to be 1, and setting the delay waiting time length to be T1;

determining different values of the device x with the number i according to whether data of other networking devices are received or not in a subsequent cycle period, and setting different waiting time lengths according to the different values of the x; wherein the value of x is 3.

2. The method according to claim 1, wherein step 6 further comprises: judging whether message information sent by other networking equipment is received or not within the delay waiting time T1; if message information sent by other equipment in the networking is received, acquiring networking sequencing of the other networking equipment, wherein the networking sequencing of the other networking equipment is set as j; and if the message information sent by other equipment in the network is not received within the delay waiting time period T1, sending the equipment message information with the number i, continuously setting x to be 1, and recycling.

3. The method according to claim 2, wherein the step 6 further comprises: judging whether the value of j is smaller than the value of i; if the value of j is smaller than the value of i, setting x to be 2, and setting the delay waiting time length to be T2; if the value of j is greater than the value of i, x is set to 3, and the delay waiting time period is T3.

4. The method according to claim 3, wherein in step 6, when the set value x is 1, the formula of the delay waiting time duration is: t1 ═ (n × k +1) × T; when the set value x is 2, the formula of the delay waiting time length is as follows: (i-j-1) k +1) t; when the set value x is 3, the formula of the delay waiting time length is as follows: t3 ═ ((i + n-j-1) × k +1) × T.

5. The local area network-based efficient networking communication method according to claim 1, wherein the number n of networking devices of the tower crane monitoring system obtained in the step 2 is greater than or equal to 2.

6. The networking communication method for the tower crane operation as claimed in claim 1, wherein the sending time t in the step 4 is 5 microseconds.

7. The method as claimed in claim 1, wherein the waiting coefficient k in step 5 is greater than or equal to 1.

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