CN115460092A - Communication processing method and system based on multi-source heterogeneous equipment - Google Patents

Abstract

The invention provides a communication processing method and a system based on multi-source heterogeneous equipment, which comprises the following steps: step 1: determining a communication mode and a communication interface of each piece of equipment in the multi-source heterogeneous equipment, and constructing a communication pair of the same equipment; and 2, step: the communication requirements of each device in the multi-source heterogeneous devices are obtained, a requirement list is obtained, and an initial communication networking of the multi-source heterogeneous devices is established according to the requirement list; and 3, step 3: pre-analyzing the communication pair to obtain the communication condition of the same equipment, and adjusting the initial communication networking; and 4, step 4: and based on the adjustment of the communication networking, distributing a communication protocol to each piece of equipment in the multi-source heterogeneous equipment, and carrying out data interactive transmission based on the communication protocol. The communication networking is established according to the communication requirements, networking adjustment is carried out based on the communication pairs, the networking is guaranteed to be more attached to the multisource heterogeneous equipment, the communication reliability of each equipment is guaranteed through communication protocol distribution, and a reliable foundation is provided for data interaction transmission.

Description

Communication processing method and system based on multi-source heterogeneous equipment

Technical Field

The invention relates to the technical field of data processing, in particular to a communication processing method and system based on multi-source heterogeneous equipment.

Background

The development of intelligent manufacturing technology drives the increasing popularization of intelligent production lines. Whether flexible and reliable networking communication can be realized for heterogeneous equipment on a production line becomes an important mark for measuring the intelligent degree of the production line. The multi-source heterogeneous equipment is obtained by combining different types of equipment, and in the process of equipment management of the multi-source heterogeneous equipment, each piece of equipment is generally matched with a single network or matched with one network for all pieces of equipment according to the service of the equipment, so that the communication reliability is undoubtedly reduced, and further the communication efficiency is reduced.

Therefore, the invention provides a communication processing method and system based on multi-source heterogeneous equipment.

Disclosure of Invention

The invention provides a communication processing method and system based on multisource heterogeneous equipment, which are used for establishing a communication networking according to communication requirements, adjusting the networking based on communication pairs, ensuring that the networking is more suitable for multisource heterogeneous equipment, ensuring the communication reliability of each equipment by distributing communication protocols and providing a reliable basis for data interactive transmission.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which comprises the following steps:

step 1: determining a communication mode and a communication interface of each piece of equipment in the multi-source heterogeneous equipment, and constructing a communication pair of the same equipment;

step 2: the communication requirements of each piece of equipment in the multi-source heterogeneous equipment are obtained, a requirement list is obtained, and an initial communication networking of the multi-source heterogeneous equipment is established according to the requirement list;

and step 3: pre-analyzing the communication pair to obtain the communication condition of the same equipment, and adjusting the initial communication networking;

and 4, step 4: and distributing a communication protocol to each piece of equipment in the multi-source heterogeneous equipment based on the adjustment of communication networking, and performing data interactive transmission based on the communication protocol.

Preferably, determining a communication mode and a communication interface of each device in the multi-source heterogeneous device, and constructing a communication pair of the same device, includes:

calling a corresponding communication mode and a corresponding communication interface from an attribute database according to the equipment attribute of each piece of equipment in the multi-source heterogeneous equipment;

acquiring a communication identification code of each communication interface in the same equipment, constructing a communication identification list according to all the communication identification codes, and analyzing the allowable communication condition of the corresponding equipment;

and reversely matching a communicable interface in corresponding equipment based on the allowable communication condition, and constructing a communication pair based on the communicable interface and the communication mode.

Preferably, the obtaining of the communication requirement of each device in the multi-source heterogeneous device to obtain the requirement list includes:

the communication requirement of each device is obtained, and the communication requirement is disassembled based on a requirement disassembling mechanism, so that a disassembling array corresponding to each device is obtained;

and traversing the corresponding disassembled arrays in sequence based on the codes of the equipment in the blank list to complete result filling, thereby obtaining a requirement list.

Preferably, according to the requirement list, constructing an initial communication networking of the multi-source heterogeneous device includes:

counting the filled elements of each column in the requirement list, and meanwhile, counting the filled elements of each row in the requirement list;

calculating the column element communication weight of each column of information in the requirement list;

wherein G is _i A column element communication weight representing the ith column of information in the request list; m1 represents the row number of the requirement list and is equal to the total number of elements of the ith column of information; g is a radical of formula _i The number of filled elements corresponding to the ith column of information is represented; n1 represents the number of filling elements corresponding to the ith column of information, and the values of n1 corresponding to different columns of information are different; s _j1 The element weight of the row information to which the j1 st filling element in the ith column information belongs is represented; the value range of i is [1, m2 ]]M2 represents the total number of columns of the requirement list; is a direct change _i The weight increasing factor of all the repeated elements in the ith column of information is represented, and the value range is [0,0.2 ]]；

Calculating the equipment communication weight of each row of information in the requirement list;

wherein, F _i1 The device communication weight of the information of the i1 st line; g _i The column element communication weight of the ith element in the information of the ith row 1 is represented; delta _i The method comprises the steps that the situation that the ith element in the ith 1-row information is filled is shown, when the ith element is filled, the value is 1, and when the ith element is not filled, the value is 0; delta of _i1 Represents the adjustment weight determined based on the i1 th row information, and has the value range of 0,0.1]；

And constructing an equipment communication array based on the equipment communication weight and the preset network attribute of the corresponding equipment, and constructing to obtain an initial communication networking based on the initial framework.

Preferably, the pre-analyzing the communication pair to obtain the communication condition of the same device includes:

acquiring communicable interfaces and communication modes of the communication pairs, and constructing a first communication relation between each communicable interface and the communication mode, wherein the first communication relation is related to data interaction, data transmission, data capacity and network access;

acquiring an intersection relation and a non-intersection relation based on all the first communication relations;

analyzing an allowable maximum communication mechanism corresponding to the same equipment based on the intersection relation, and analyzing an allowable minimum communication mechanism corresponding to the same equipment based on the non-intersection relation;

and constructing the communication condition of the same equipment based on the maximum allowable communication mechanism and the minimum allowable communication mechanism.

Preferably, the adjusting the initial communication networking includes:

determining the network content of each network of the initial communication networking and obtaining corresponding content parameters;

matching the communication conditions with the corresponding content parameters in a communication way, and if the communication conditions are consistent with the corresponding content parameters, the network does not need to be adjusted;

otherwise, acquiring unmatched parameters, and screening the modified parameters from the unmatched parameters according to the modification rationality of the unmatched parameters on the content parameters;

and adjusting the corresponding network according to the modification parameters.

Preferably, based on adjusting communication networking, allocating a communication protocol to each device in the multi-source heterogeneous device, and performing data interactive transmission based on the communication protocol, including:

acquiring a data access element, a data interaction element and a data transmission element of each device in multi-source heterogeneous equipment, and determining an access attribute of the data access element, an interaction attribute of the data interaction element and a transmission attribute of the data transmission element;

based on an attribute determination result, constructing an access attribute list, an interaction attribute list and a transmission attribute list of the multi-source heterogeneous equipment, and acquiring a first high-frequency sub-attribute in the access attribute list, a second high-frequency sub-attribute in the interaction attribute list and a third high-frequency sub-attribute in the transmission attribute list;

constructing attribute factors based on the first high-frequency sub-attribute, the second high-frequency sub-attribute and the third high-frequency sub-attribute, performing comprehensive processing on the attribute factors and the element list of each device, and determining a first protocol bias factor of the corresponding device from a processing-protocol database;

acquiring a second protocol deviation factor of the corresponding equipment;

and acquiring the protocol with the highest matching degree with the first protocol deviation factor and the second protocol deviation factor from the adjusted communication networking, taking the protocol as a communication protocol distributed to corresponding equipment, and carrying out data interactive transmission based on the communication protocol.

Preferably, after the data interactive transmission is performed based on the communication protocol, the method further includes:

constructing a data table for interactive transmission among the multi-source heterogeneous devices;

determining first data corresponding to each unit table and a participation array list corresponding to the first data based on the data table, and calculating unit deviation and data deviation corresponding to the unit tables;

Y2＝max{y _i3 ,i3＝1,2,3,...,n3}

wherein Y1 represents a first calculation result of the corresponding unit table; m3 represents the number of the unit tables in the participatory array list acquired by the first data of the corresponding unit table; y is _i3 An index weight representing the i3 th interactive transmission index in the corresponding unit table; a. The _i3,j3 Representing the data characteristics of the ith 3 interactive transmission indexes in the jth 3 unit table in the corresponding participation array list; is a direct change _i,j A characteristic adjustment factor representing the data characteristic of the ith 3 interactive transmission index in the jth 3 unit table in the corresponding participation array list; n3 represents the number of interactive transmission indexes corresponding to the first data; max represents the maximum sign; y2 represents a second calculation result of the corresponding unit table;

determining unit deviation according to the first calculation result, and determining data deviation according to the second calculation result;

and carrying out early warning reminding based on all unit deviation and data deviation.

Preferably, based on all unit deviation and data deviation, carry out early warning and remind, include:

acquiring first deflection arrays of all unit deflections and simultaneously acquiring second deflection arrays of all data deflections;

comparing the first deflection array to a first standard array, while simultaneously comparing the second deflection array to a second standard array;

and obtaining a difference matrix according to the comparison result, analyzing the difference matrix based on an early warning analysis model, and performing early warning reminding.

The invention relates to a communication processing system based on multi-source heterogeneous equipment, which comprises:

the communication pair determining module is used for determining the communication mode and the communication interface of each piece of equipment in the multi-source heterogeneous equipment and constructing a communication pair of the same equipment;

the networking construction module is used for acquiring the communication requirement of each device in the multi-source heterogeneous devices to obtain a requirement list, and constructing an initial communication networking of the multi-source heterogeneous devices according to the requirement list;

the networking adjusting module is used for pre-analyzing the communication pairs to obtain the communication conditions of the same equipment and adjusting the initial communication networking;

and the protocol distribution module is used for distributing a communication protocol to each piece of equipment in the multi-source heterogeneous equipment based on communication network adjustment and carrying out data interactive transmission based on the communication protocol.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of a communication processing method based on multi-source heterogeneous equipment in an embodiment of the present invention;

fig. 2 is a structural diagram of a communication processing system based on multi-source heterogeneous devices in an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

The invention provides a communication processing method based on multi-source heterogeneous equipment, as shown in figure 1, comprising the following steps:

step 1: determining a communication mode and a communication interface of each piece of equipment in multi-source heterogeneous equipment, and constructing a communication pair of the same equipment;

step 2: the communication requirements of each piece of equipment in the multi-source heterogeneous equipment are obtained, a requirement list is obtained, and an initial communication networking of the multi-source heterogeneous equipment is established according to the requirement list;

and step 3: pre-analyzing the communication pair to obtain the communication condition of the same equipment, and adjusting the initial communication networking;

and 4, step 4: and based on the adjustment of communication networking, distributing a communication protocol to each piece of equipment in the multi-source heterogeneous equipment, and carrying out data interactive transmission based on the communication protocol.

In this embodiment, the multi-source heterogeneous device includes a plurality of different devices, and the communication pair is formed by a communication mode and a communication interface.

In this embodiment, a flexible networking communication platform for heterogeneous devices is designed and developed based on a client/server architecture for the interconnection and interworking requirements of various heterogeneous devices in an intelligent production line: a communication networking is constructed by using a Select model and a multithreading technology and facing three main stream interface protocols (TCP/UDP/serial ports), and the problem of interconnection and intercommunication of heterogeneous terminal equipment in a concurrent communication state is solved.

In the embodiment, the communication conditions are related to data transmission, data interaction and data access, and the networking is adjusted through the conditions, so that the adjusted networking can better meet the communication requirements of multi-source heterogeneous equipment, a communication protocol is further allocated, and data interaction transmission is performed according to the protocol.

In this embodiment, the protocol may be a protocol including: TCP protocol, interactive protocol, OPCUA, etc.

The beneficial effects of the above technical scheme are: the communication networking is established according to the communication requirements, networking adjustment is carried out based on the communication pairs, the networking is guaranteed to be more attached to the multisource heterogeneous equipment, the communication reliability of each equipment is guaranteed through communication protocol distribution, and a reliable foundation is provided for data interaction transmission.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which is used for determining a communication mode and a communication interface of each piece of equipment in the multi-source heterogeneous equipment and constructing a communication pair of the same piece of equipment and comprises the following steps:

calling a corresponding communication mode and a corresponding communication interface from an attribute database according to the equipment attribute of each piece of equipment in the multi-source heterogeneous equipment;

acquiring a communication identification code of each communication interface in the same equipment, constructing a communication identification list according to all the communication identification codes, and analyzing the allowable communication condition of the corresponding equipment;

and reversely matching a communicable interface in corresponding equipment based on the allowable communication condition, and constructing a communication pair based on the communicable interface and the communication mode.

In this embodiment, for example, there are communication interfaces 1, 2, and 3, at this time, the allowed communication condition is for interfaces 1 and 2, and interface 3 does not satisfy communication, at this time, a communication pair may be constructed based on interfaces 1 and 2 and the communication mode.

The beneficial effects of the above technical scheme are: an interface with guarantee is obtained by determining the equipment attribute and analyzing the allowable communication condition, and a communication pair is constructed by combining the interface with a communication mode, so that a basis is provided for subsequently obtaining communication conditions, and the communication reliability is indirectly improved.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which is used for acquiring the communication requirement of each piece of equipment in the multi-source heterogeneous equipment to obtain a requirement list and comprises the following steps:

acquiring a communication requirement of each device, and disassembling the communication requirement based on a requirement disassembling mechanism to obtain a disassembling array corresponding to each device;

and sequentially traversing the corresponding disassembled arrays based on the codes of the equipment in the blank list to complete result filling, thereby obtaining a requirement list.

In this embodiment, the disassembly mechanism is required to be preset, and the disassembling the array includes: several sub-requirements after disassembly.

In this embodiment, each cell in the blank list is set and what type of element the cell needs to place is determined in advance, except that element filling has not yet been performed.

The beneficial effects of the above technical scheme are: the requirements are disassembled and traversed, so that the list is conveniently filled, the requirement list is obtained, and the data basis is obtained.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which constructs an initial communication networking of the multi-source heterogeneous equipment according to a requirement list, and comprises the following steps:

counting the filled elements of each column in the requirement list, and meanwhile, counting the filled elements of each row in the requirement list;

calculating the communication weight of each column element of information in the requirement list;

wherein G is _i A column element communication weight representing the ith column of information in the request list; m1 represents the row number of the requirement list and is equal to the total number of elements of the ith column of information; g _i The number of filled elements corresponding to the ith column of information is represented; n1 represents the number of filling elements corresponding to the ith column of information, and the values of n1 corresponding to different columns of information are different; s _j1 The element weight of the row information to which the j1 st filling element in the ith column information belongs is represented; the value range of i is [1, m2 ]]M2 represents the total number of columns of the requirement list; is a direct change _i The weight increasing factor of all the repeated elements in the ith column of information is represented, and the value range is [0,0.2 ]]；

Calculating the equipment communication weight of each row of information in the requirement list;

wherein, F _i1 The device communication weight of the information of the i1 st line; g _i The column element communication weight of the ith element in the information of the ith row 1 is represented; delta _i The condition that the ith element in the ith row information is filled is shown, when the ith element is filled, the value is 1, and when the ith element is not filled, the value is 0; delta _i1 Represents the adjustment weight determined based on the i1 th row information, and has the value range of 0,0.1]；

And constructing an equipment communication array based on the equipment communication weight and the preset network attribute of the corresponding equipment, and constructing to obtain an initial communication networking based on the initial framework.

In this embodiment, the requirement list is m1 rows and n1 columns, each row corresponds to one coding device, each column corresponds to one element, and each column is the same column element, except that the values of the elements may be different.

In this embodiment, the cumulative sum of all the element weights corresponding to each row is 1.

In this embodiment, the device communication array includes: the device communication weight of each device and the preset network attribute are included, and the preset network attribute is related to the protocol.

The beneficial effects of the above technical scheme are: the column element communication weight and the equipment communication weight are calculated by counting the filled elements of the rows and the columns in the requirement list, and then the equipment communication array is constructed by combining with the preset network attribute, so that an effective basis is provided for constructing a network, and the effective interactive transmission of the multisource heterogeneous equipment based on the same network is ensured.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which is used for pre-analyzing a communication pair to obtain the communication conditions of the same equipment and comprises the following steps:

acquiring communicable interfaces and communication modes of the communication pairs, and constructing a first communication relation between each communicable interface and the communication mode, wherein the first communication relation is related to data interaction, data transmission, data capacity and network access;

acquiring an intersection relation and a non-intersection relation based on all the first communication relations;

analyzing an allowed maximum communication mechanism corresponding to the same equipment based on the intersection relation, and simultaneously analyzing an allowed minimum communication mechanism corresponding to the same equipment based on the non-intersection relation;

and constructing the communication condition of the same equipment based on the maximum communication mechanism and the minimum communication mechanism.

In this embodiment, the intersection relationship refers to a result that data interaction, transmission, capacity, and network access for the multi-source heterogeneous device all exist.

In this embodiment, all the communication relationships except the intersection relationship are regarded as non-intersection relationships.

In this embodiment, the maximum communication mechanism is determined based on an intersection relationship, and is mainly for maximally implementing communication between different devices, and the minimum communication mechanism is determined based on a non-intersection relationship, and is mainly for minimally implementing communication between different devices.

The beneficial effects of the above technical scheme are: by determining the communication relation and acquiring the intersection relation and the non-intersection relation, different communication mechanisms can be obtained, so that the communication condition of the same equipment can be obtained, the communication requirement can be met to the maximum extent, the communication range after the networking is built can be guaranteed to the maximum extent, and the reliability of the networking is guaranteed.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which adjusts the initial communication networking and comprises the following steps:

determining the network content of each network of the initial communication networking and obtaining corresponding content parameters;

the communication conditions are matched with the corresponding content parameters in a communication mode, and if the communication conditions are consistent with the corresponding content parameters, the network does not need to be adjusted;

otherwise, acquiring unmatched parameters, and screening modified parameters from the unmatched parameters according to the modification rationality of the unmatched parameters to the content parameters;

and adjusting the corresponding network according to the modification parameters.

In this embodiment, the network content refers to a network parameter and the like, and the content parameter is consistent with the network parameter.

In this embodiment, the communication conditions refer to various satisfied communication parameters, which are compared with the network parameters to determine the parameters to be adjusted.

In this embodiment, the modification rationality refers to whether the content parameter is rational after being modified according to the mismatch parameter, and the more unreasonable the content parameter is, the smaller the corresponding modification rationality is, at this time, the modification parameter needs to be screened, and the modification rationality is ensured to the greatest extent.

The beneficial effects of the above technical scheme are: the communication conditions are matched with the content parameters, and consistent adjustment is carried out, so that modification of inconsistent parameters is realized, adjustment of the network is further ensured, and reliability of networking adjustment is indirectly realized.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which is based on communication network adjustment, allocates a communication protocol to each piece of equipment in the multi-source heterogeneous equipment, and carries out data interactive transmission based on the communication protocol, and comprises the following steps:

acquiring a data access element, a data interaction element and a data transmission element of each device in multi-source heterogeneous equipment, and determining an access attribute of the data access element, an interaction attribute of the data interaction element and a transmission attribute of the data transmission element;

based on an attribute determination result, constructing an access attribute list, an interaction attribute list and a transmission attribute list of the multi-source heterogeneous equipment, and acquiring a first high-frequency sub-attribute in the access attribute list, a second high-frequency sub-attribute in the interaction attribute list and a third high-frequency sub-attribute in the transmission attribute list;

constructing attribute factors based on the first high-frequency sub-attribute, the second high-frequency sub-attribute and the third high-frequency sub-attribute, performing comprehensive processing on the attribute factors and the element list of each device, and determining a first protocol bias factor of the corresponding device from a processing-protocol database;

acquiring a second protocol deviation factor of the corresponding equipment;

and acquiring the protocol with the highest matching degree with the first protocol deviation factor and the second protocol deviation factor from the adjusted communication networking, taking the protocol as a communication protocol distributed to corresponding equipment, and carrying out data interactive transmission based on the communication protocol.

In this embodiment, the high-frequency sub-attribute is determined from different attribute lists according to the frequency of occurrence of the sub-attribute, such as: the access attribute list includes: sub-attributes 1, 2 of device 1, and sub-attributes 2, 3 of device 2, in which case the high-frequency sub-attribute is sub-attribute 2.

In this embodiment, the attribute factor is mainly determined based on three aspects of data access, data interaction, and data transmission.

In this embodiment, the process-protocol database, which includes various integrated processing results and corresponding protocols, may provide a reference.

In this embodiment, the communication protocol is obtained by combining the two bias factors.

The beneficial effects of the above technical scheme are: the attribute factors are constructed by acquiring the high-frequency sub-attributes related to access, interaction and transmission, the deviation factors are conveniently acquired through comprehensive processing, and the communication protocol is effectively acquired through the comprehensive processing of the deviation factors and the deviation factors of the equipment, so that the reliability of the communication protocol is ensured, and a foundation is provided for interactive transmission.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which further comprises the following steps after data interactive transmission is carried out based on a communication protocol:

constructing a data table for interactive transmission among the multi-source heterogeneous devices;

determining first data corresponding to each unit table and a participation array list corresponding to the first data based on the data tables, and calculating unit deviation and data deviation corresponding to the unit tables;

Y2＝max{y _i3 ,i3＝1,2,3,...,n3}

wherein Y1 represents a first calculation result of the corresponding unit table; m3 represents the number of the unit tables in the participation array list acquired by the first data of the corresponding unit table; y is _i3 An index weight representing the i3 th interactive transmission index in the corresponding unit table; a. The _i3,j3 Representing the data characteristics of the ith 3 interactive transmission indexes in the jth 3 unit table in the corresponding participation array list; is at a position of _i,j A characteristic adjustment factor representing the data characteristic of the ith 3 interactive transmission index in the jth 3 unit table in the corresponding participation array list; n3 represents the number of interactive transmission indexes corresponding to the first data; max represents the maximum sign; y2 represents a second calculation result of the corresponding unit table;

determining unit deviation according to the first calculation result, and determining data deviation according to the second calculation result;

and carrying out early warning reminding based on all unit deviation and data deviation.

In this embodiment, the value range of the characteristic adjustment factor is 0 to 0.1.

In this embodiment, the data table includes interactive transmission data content of each device in the multi-source heterogeneous device, and each device corresponds to one unit table.

The beneficial effects of the above technical scheme are: the interaction condition between different devices, namely the participation array list, is determined by constructing the data table, and the deviation of the calculation unit and the deviation of the data facilitate the good early warning of whether the communication problem exists in the device, the timely adjustment of the networking is facilitated, and the reliability of the networking is ensured.

The invention provides a communication processing method based on multi-source heterogeneous equipment, which is used for carrying out early warning reminding based on all unit deviation and data deviation and comprises the following steps:

acquiring first deflection arrays of all unit deflection, and simultaneously acquiring second deflection arrays of all data deflection;

comparing the first deflection array to a first standard array, while simultaneously comparing the second deflection array to a second standard array;

and obtaining a difference matrix according to the comparison result, analyzing the difference matrix based on an early warning analysis model, and performing early warning reminding.

In this embodiment, the deflection array is constructed according to the results of different deflections.

In this embodiment, the difference matrix includes: the comparison result of the first deflection array and the comparison result of the second deflection array are included.

The beneficial effects of the above technical scheme are: by acquiring the array, comparing the array with the standard and analyzing the array by the early warning analysis model subsequently, the communication problem of the corresponding equipment can be determined, the processing is convenient in time, and the reliability of networking is ensured.

The invention relates to a communication processing system based on multi-source heterogeneous equipment, as shown in fig. 2, comprising:

the communication pair determining module is used for determining the communication mode and the communication interface of each piece of equipment in the multi-source heterogeneous equipment and constructing a communication pair of the same equipment;

the networking construction module is used for obtaining the communication requirements of each device in the multi-source heterogeneous devices to obtain a requirement list, and constructing an initial communication networking of the multi-source heterogeneous devices according to the requirement list;

the networking adjusting module is used for performing pre-analysis on the communication pair to obtain the communication condition of the same equipment and adjusting the initial communication networking;

and the protocol distribution module is used for distributing a communication protocol to each piece of equipment in the multi-source heterogeneous equipment based on communication network adjustment and carrying out data interactive transmission based on the communication protocol.

The beneficial effects of the above technical scheme are: the communication networking is established according to the communication requirements, networking adjustment is carried out based on the communication pairs, the networking is guaranteed to be more attached to the multisource heterogeneous equipment, the communication reliability of each equipment is guaranteed through communication protocol distribution, and a reliable foundation is provided for data interaction transmission.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A communication processing method based on multi-source heterogeneous equipment is characterized by comprising the following steps:

step 1: determining a communication mode and a communication interface of each piece of equipment in the multi-source heterogeneous equipment, and constructing a communication pair of the same equipment;

step 2: the communication requirements of each piece of equipment in the multi-source heterogeneous equipment are obtained, a requirement list is obtained, and an initial communication networking of the multi-source heterogeneous equipment is established according to the requirement list;

and step 3: pre-analyzing the communication pair to obtain the communication condition of the same equipment, and adjusting the initial communication networking;

and 4, step 4: and distributing a communication protocol to each piece of equipment in the multi-source heterogeneous equipment based on the adjustment of communication networking, and performing data interactive transmission based on the communication protocol.

2. The communication processing method based on the multi-source heterogeneous equipment as claimed in claim 1, wherein determining the communication mode and the communication interface of each piece of equipment in the multi-source heterogeneous equipment and constructing the communication pair of the same piece of equipment comprises:

calling a corresponding communication mode and a corresponding communication interface from an attribute database according to the equipment attribute of each piece of equipment in the multi-source heterogeneous equipment;

acquiring a communication identification code of each communication interface in the same equipment, constructing a communication identification list according to all the communication identification codes, and analyzing the allowable communication condition of the corresponding equipment;

and reversely matching a communicable interface in corresponding equipment based on the allowable communication condition, and constructing a communication pair based on the communicable interface and the communication mode.

3. The communication processing method based on the multi-source heterogeneous equipment as claimed in claim 1, wherein the obtaining of the communication requirement of each equipment in the multi-source heterogeneous equipment and the obtaining of the requirement list comprises:

the communication requirement of each device is obtained, and the communication requirement is disassembled based on a requirement disassembling mechanism, so that a disassembling array corresponding to each device is obtained;

and sequentially traversing the corresponding disassembled arrays based on the codes of the equipment in the blank list to complete result filling, thereby obtaining a requirement list.

4. The communication processing method based on the multiple heterogeneous devices according to claim 1, wherein constructing the initial communication network of the multiple heterogeneous devices according to the requirement list comprises:

counting the filled elements of each column in the requirement list, and meanwhile, counting the filled elements of each row in the requirement list;

calculating the column element communication weight of each column of information in the requirement list;

wherein, G _i A column element communication weight representing the ith column of information in the request list; m1 represents the row number of the requirement list and is equal to the total number of elements of the ith column of information; g _i The number of filled elements corresponding to the ith column of information is represented; n1 represents the number of filling elements corresponding to the ith column of information, and the values of n1 corresponding to different columns of information are different; s _j1 Representing the element weight of the row information to which the j1 st padding element in the ith column information belongs; the value range of i is [1, m2 ]]M2 represents the total number of columns of the requirement list; is at a position of _i The weight increasing factors of all the repeated elements in the ith column of information are represented, and the value range is [0,0.2 ]]；

Calculating the equipment communication weight of each row of information in the requirement list;

wherein, F _i1 The device communication weight of the information of the i1 st line; g _i The column element communication weight of the ith element in the information of the ith row 1 is represented; delta _i The condition that the ith element in the ith row information is filled is shown, when the ith element is filled, the value is 1, and when the ith element is not filled, the value is 0; delta of _i1 Represents the adjustment weight determined based on the i1 th row information, and has the value range of 0,0.1]；

And constructing an equipment communication array based on the equipment communication weight and the preset network attribute of the corresponding equipment, and constructing to obtain an initial communication networking based on the initial framework.

5. The communication processing method based on the multi-source heterogeneous equipment according to claim 1, wherein the pre-analyzing of the communication pairs to obtain the communication conditions of the same equipment comprises:

acquiring communicable interfaces and communication modes of the communication pairs, and constructing a first communication relation between each communicable interface and the communication mode, wherein the first communication relation is related to data interaction, data transmission, data capacity and network access;

acquiring an intersection relation and a non-intersection relation based on all the first communication relations;

analyzing an allowable maximum communication mechanism corresponding to the same equipment based on the intersection relation, and analyzing an allowable minimum communication mechanism corresponding to the same equipment based on the non-intersection relation;

and constructing the communication condition of the same equipment based on the maximum allowable communication mechanism and the minimum allowable communication mechanism.

6. The communication processing method based on the multi-source heterogeneous device according to claim 1, wherein the adjusting the initial communication networking comprises:

determining the network content of each network of the initial communication networking and obtaining corresponding content parameters;

the communication conditions are matched with the corresponding content parameters in a communication mode, and if the communication conditions are consistent with the corresponding content parameters, the network does not need to be adjusted;

otherwise, acquiring unmatched parameters, and screening modified parameters from the unmatched parameters according to the modification rationality of the unmatched parameters to the content parameters;

and adjusting the corresponding network according to the modification parameters.

7. The communication processing method based on the multi-source heterogeneous device according to claim 1, wherein based on adjusting communication networking, allocating a communication protocol to each device in the multi-source heterogeneous device, and performing data interactive transmission based on the communication protocol, includes:

acquiring a data access element, a data interaction element and a data transmission element of each device in multi-source heterogeneous equipment, and determining an access attribute of the data access element, an interaction attribute of the data interaction element and a transmission attribute of the data transmission element;

based on an attribute determination result, constructing an access attribute list, an interaction attribute list and a transmission attribute list of the multi-source heterogeneous equipment, and acquiring a first high-frequency sub-attribute in the access attribute list, a second high-frequency sub-attribute in the interaction attribute list and a third high-frequency sub-attribute in the transmission attribute list;

constructing attribute factors based on the first high-frequency sub-attribute, the second high-frequency sub-attribute and the third high-frequency sub-attribute, performing comprehensive processing on the attribute factors and the element list of each device, and determining a first protocol bias factor of the corresponding device from a processing-protocol database;

acquiring a second protocol deviation factor of the corresponding equipment;

and acquiring the protocol with the highest matching degree with the first protocol deviation factor and the second protocol deviation factor from the adjusted communication networking, using the protocol as a communication protocol distributed to corresponding equipment, and carrying out data interactive transmission based on the communication protocol.

8. The communication processing method based on the multi-source heterogeneous device according to claim 1, wherein after data interactive transmission is performed based on the communication protocol, the method further comprises:

constructing a data table for interactive transmission among the multi-source heterogeneous equipment;

determining first data corresponding to each unit table and a participation array list corresponding to the first data based on the data table, and calculating unit deviation and data deviation corresponding to the unit tables;

Y2＝max{y _i3 ,i3＝1,2,3,...,n3}

wherein, Y1 represents the first calculation result of the corresponding unit table; m3 represents the number of the unit tables in the participatory array list acquired by the first data of the corresponding unit table; y is _i3 An index weight representing the i3 th interactive transmission index in the corresponding unit table; a. The _i3,j3 Representing the data characteristics of the ith 3 interactive transmission indexes in the jth 3 unit table in the corresponding participation array list; is at a position of _i,j A characteristic adjustment factor representing the data characteristic of the ith 3 interactive transmission index in the jth 3 unit table in the corresponding participation array list; n3 represents the number of interactive transmission indexes corresponding to the first data; max represents the maximum sign; y2 represents a second calculation result of the corresponding unit table;

determining unit deviation according to the first calculation result, and determining data deviation according to the second calculation result;

and carrying out early warning reminding based on all unit deviation and data deviation.

9. The communication processing method based on the multi-source heterogeneous device according to claim 8, wherein the pre-warning reminding based on all unit bias and data bias comprises:

acquiring first deflection arrays of all unit deflections and simultaneously acquiring second deflection arrays of all data deflections;

comparing the first deflection array to a first standard array while comparing the second deflection array to a second standard array;

and obtaining a difference matrix according to the comparison result, analyzing the difference matrix based on an early warning analysis model, and performing early warning reminding.

10. A communication processing system based on multi-source heterogeneous equipment is characterized by comprising:

the communication pair determining module is used for determining the communication mode and the communication interface of each piece of equipment in the multi-source heterogeneous equipment and constructing a communication pair of the same equipment;

the networking construction module is used for acquiring the communication requirement of each device in the multi-source heterogeneous devices to obtain a requirement list, and constructing an initial communication networking of the multi-source heterogeneous devices according to the requirement list;

the networking adjusting module is used for performing pre-analysis on the communication pair to obtain the communication condition of the same equipment and adjusting the initial communication networking;

and the protocol distribution module is used for distributing a communication protocol to each piece of equipment in the multi-source heterogeneous equipment based on communication network adjustment and carrying out data interactive transmission based on the communication protocol.

Images