LU503916B1

LU503916B1 - A multi-channel data uploading system for industrial Internet

Info

Publication number: LU503916B1
Application number: LU503916A
Authority: LU
Inventors: Bin Xu; Min Han
Original assignee: Jiangsu Tuoyou Information Intelligence Tech Research Institute Co Ltd
Priority date: 2022-03-29
Filing date: 2022-10-11
Publication date: 2023-10-06
Also published as: CN114630450A; WO2023184929A1

Abstract

Disclosed is a multi-channel data uploading system for industrial Internet in the invention. The system is composed of three parts: a data acquisition module, a data processing module and a data receiving module. The system adopts multi-channel technology and overlays wireless transmission modules to improve the wireless information channel bandwidth and ensure the transmission quality of multimedia data. The invention has superior data transmission capacity and ensures the quality of multimedia data transmission; in addition, compared with the traditional data transmission method, the method in the invention is more suitable to the data transmission in the industrial Internet environment, and the faster data transmission rate is achieved.

Description

A multi-channel data uploading system for industrial Internet 0508916

Technical field

The invention relates to the communication area, in particular to a multi-channel data uploading system for industrial Internet.

Background technology

With the concept of the industrial 4.0, the intellectualization has become an irresistible trend of the industrial development, and the industrial Internet emerges as the times require. As the further development of the industrial Internet, there are more and more network equipments and sensors in the industrial environment, a lot of heterogeneous data types are produced; however, single channel data transmission is adopted in traditional data transmission, resulting in information channel congestion, accidents may be caused and the serious losses as well. At present, the network data uploading method mainly has the following problems: 1. the traditional single channel and single mode data uploading method has small coverage range, poor stability, low bandwidth and so on; 2. the problem of multi-channel simultaneous transmission is not considered in the traditional single channel and single mode data uploading method, 3. different data is not distributed to different networks reasonably by the traditional single channel and single mode data uploading method, and the user fairness and network congestion control can not be balanced.

The mobile communication is more and more popular with the continuous development of technology, and the integration between networks are applied in more fields. The problems of small coverage range, poor stability, low bandwidth and so on in traditional single channel and single mode data uploading method has been solved by the multi-channel and multi-mode data uploading method. A multi-channel data uploading system for industrial Internet is provided in the invention; the integration of wireless communication network can be achieved by using the multi-channel and multi-mode data transmission method, by which, the problems of small coverage range, poor stability, low bandwidth and so on in traditional single channel and single mode data uploading method has been solved; and the stable and high-speed transmission of the network data can be achieved.

Summary of the invention

The object of the invention is to provide a multi-channel data uploading system for industrial Internet, which provides strong support for stable and high-speed transmission of multimedia data.

The technical solution to achieve the invention is:

a multi-channel data uploading system for industrial Internet, comprising a data acquisitid:#503916 module, a data processing module and a data receiving module.

Further, the data such as image and video are obtained through the devices as camera and sensor by the data acquisition module; and the collected data is sent to the data processing module.

Further, the data processing module initializes the priority of each module to select the optimal network information channel, then packages the data and adds packet header information and CRC check value; and then transmits the data to the data receiving module.

The main steps to select the optimal network information channel are as follows: step 1. calculating the decision matrices of the three network information channels with the following formula:

Z = [zy] wherein, z,, is determined by Satty scaling method, step 2. obtaining subjective determination of weight through calculating with the following formula: w=" [I Zw v normalization: ‘Wa

Wy = Tw wherein, W, is the weight of each network parameter; w, is the result of normalization; step 3. obtaining objective determination of weight through calculating with the following formula: su SE 2; Ij

Ex =— x}, Sp IN sy

WEW _ 1—Erx 2, (1 — Ex) w=vw +(1—v)wEW wherein, s,, is the standardized processing result of the network parameter value ry; after normalized processing in the previous section; E, is the information entropy of the evaluation parameter; WE" is the weight vector of the calculated parameter; w is the final actual weight; Kis a constant that taken as 1, v € [0,1];

step 4. obtaining the comprehensive evaluation value a of the wireless network; selectirt&/503916 the a network information channel with the maximum value as the optimal network information channel, the formula is in the following: o = > WT k wherein, o; is the comprehensive evaluation value of the network j; wy is the actual comprehensive weight of the evaluation parameter k; ry; is the value of the evaluation parameter k of the standardized network j.

Further, the data receiving module is mainly used to perform CRC calculation and check code comparison on the data packet; the data packet 1s ranked after removing the duplicate packet; and the completed data is displayed finally.

The invention provides a multi-channel data uploading system for industrial Internet, the system adopts multi-channel technology and overlays wireless transmission modules to improve the wireless information channel bandwidth and ensure the transmission quality of multimedia data.

Compared with the prior art, the invention has the following beneficial effects: 1. has the advantages of wide coverage area, strong stability, high-bandwidth and so on; 2. the problem of multi-channel simultaneous data transmission is considered; and the transmission burden of the single channel is reduced through multi-channel data uploading; 3. through multi-channel data uploading method, the user fairness and network congestion control can be balanced, video distortion to the user is reduced and the data transmission quality is improved.

Description of attached drawings

Figure 1 is a structural diagram of a multi-channel data uploading system for industrial

Internet in the invention; figure 2 is a flow diagram of the multi-channel information channel selection strategy in data processing module; figure 3 is a flow diagram of the data receiving module.

Embodiments

It should be noted that the detailed description below are exemplary and are to provide a further explanation of the invention. Unless otherwise specified, all technical and scientific terms used herein have the same meaning as those generally understood by ordinary skilled in the technical field to which the invention belongs.

A multi-channel data uploading system for industrial Internet provided in the invention,

comprising a data acquisition module, a data processing module and a data receiving modulle#503916 and the stable and high-speed uploading of the multimedia data can be achieved.

As shown in figure 1, the data such as image and video are obtained through the devices as camera and sensor by the data acquisition module; the data processing module initializes the priority of each module to select the optimal network information channel; then packages the data and adds packet header information and

CRC check value; the data receiving module is mainly used to perform CRC calculation and check code comparison on the data packet; the data packet is ranked after removing the duplicate packet; and the completed data is displayed finally.

As shown in figure 2, the data processing module initializes the priority of each module to select the optimal network information channel; then packages the data and adds packet header information and CRC check value; the main steps are in the following: step 1. calculating the decision matrices of the three network information channels with the following formula:

Z = [zy] wherein, z,, is determined by Satty scaling method; step 2. obtaining subjective determination of weight through calculating with the following formula: w=" [I Zw v normalization: ' Wy

Wy = Tw wherein, W, is the weight of each network parameter; w, is the result of normalization ; step 3. obtaining objective determination of weight through calculating with the following formula: js

E, =— KY Sp In sy j

WEW _ 1 — Ey 2, (1 — Ex) w=vw +(1—v)wEW wherein, sy; is the standardized processing result of the network parameter value rk 503916 after normalized processing in the previous section, Ex is the information entropy of the evaluation parameter; WE" is the weight vector of the calculated parameter; w is the final actual weight; Kis a constant that taken as 1, v € [0,1]; 5 step 4. obtaining the comprehensive evaluation value a of the wireless network; selecting the a network information channel with the maximum value as the optimal network information channel, the formula is in the following: o = > Wilk k wherein, o; is the comprehensive evaluation value of the network j; wy is the actual comprehensive weight of the evaluation parameter k; ry; is the value of the evaluation parameter k of the standardized network j.

As shown in figure 3, the data receiving module is mainly used to perform CRC calculation and check code comparison on the data packet; the data packet is ranked after removing the duplicate packet; and the completed data is displayed at length; the main steps are in the following: step 2. after receiving the data packet, the data packet is performed CRC calculation and is compared with the check code at the end of the data packet; step 2. obtaining the complete data through unpacking header information of the data packet passed by the CRC check code; otherwise, the packet is discarded, step 3. displaying the completed data.

The embodiments above are only to describe the technical thought of the invention, not to limit the protection scope of the invention. Any technical thoughts provided according to the invention, and any modifications, equivalent replacements and improvements should be covered within the protection scope of the invention.

Claims

CLAIMS LU503916

1. A multi-channel data uploading system for industrial Internet, characterized by, the system consists of three parts: a data acquisition module, a data processing module and a data receiving module.

2. A multi-channel data uploading system for industrial Internet of claim 1, characterized by, the data such as image and video are obtained through the devices as camera and sensor by the data acquisition module; and the collected data is sent to the data processing module.

3. A multi-channel data uploading system for industrial Internet of claim 1, characterized by, the data processing module initializes the priority of each module to select the optimal network information channel; then packages the data and adds packet header information and CRC check value; the main steps to select the optimal network information channel are in the following: step 1. calculating the decision matrices of the three network information channels with the following formula: Z = [zy] wherein, Zyy is determined by Satty scaling method, step 2. obtaining subjective determination of weight through calculating with the following formula: wy ="|] [zu v normalization: wy, Wy =o — CE Vu wherein, W,, is the weight of each network parameter; w, is the result of normalization; step 3. obtaining objective determination of weight through calculating with the following formula: Tk Sk, = e— / > j Tk, Ex =— KY SpjlNSkj j

WEW _ 1—E, LU503916 2, (1 — Ex) W = vw + (1 — v)wEW wherein, si; is the standardized processing result of the network parameter value r,; after normalized processing in the previous section; Ex is the information entropy of the evaluation parameter; wi" is the weight vector of the calculated parameter; w is the final actual weight; K is a constant that taken as 1, v € [0,1]; step 4. obtaining the comprehensive evaluation value a of the wireless network; selecting the a network information channel with the maximum value as the optimal network information channel, the formula 1s in the following: a; = > WT) k wherein, a; is the comprehensive evaluation value of the network j; wy is the actual comprehensive weight of the evaluation parameter k; r,, is the value of the evaluation parameter k of the standardized network j.

4. A multi-channel data uploading system for industrial Internet of claim 1, characterized by, the data receiving module is mainly used to perform CRC calculation and check code comparison on the data packet; the data packet is ranked after removing the duplicate packet; and the completed data is displayed finally.