CN117915476B - Information integration system processing method and system - Google Patents

Abstract

The application provides an information integration system processing method and system. The method comprises the steps of sending a first service information uploading request to a management service interaction node through a first communication link by using a first mobile terminal, determining the first service interaction node from a data interaction layer by the management service interaction node according to first service type information and a preset service node determining model, sending the first service interaction node information of the first service interaction node to the first mobile terminal, establishing a second communication link between the first mobile terminal and the first service interaction node according to the first service interaction node information, and sending the first service information to the first service interaction node through the second communication link, so that the first service information is uploaded to the first service interaction node corresponding to the service type.

Description

Information integration system processing method and system

Technical Field

The present application relates to data processing technology, and in particular to an information integration system processing method and system.

Background technique

With the development of informatization, all industries need to manage their business data in the cloud.

In the prior art, in order to upload business data, the relevant business data is usually directly uploaded to a corresponding server, so that the uploaded data is processed and stored in the server.

However, the above-mentioned upload and processing method is undifferentiated, and in the case of a large number of business types, the problem of business data mixing is prone to occur.

Summary of the invention

The present application provides a method for solving the technical problem that business data is easily mixed when using the traditional method of directly uploading data when there are many business types.

In a first aspect, the present application provides an information integration system processing method, which is applied to an information integration system, wherein the information integration system includes a cloud system and a mobile terminal cluster, the cloud system includes a data interaction layer, the data interaction layer includes a plurality of business interaction nodes, and each mobile terminal in the mobile terminal cluster is communicatively connected with at least one business interaction node in the data interaction layer; the method includes:

In an initial state, a first mobile terminal in the mobile terminal cluster establishes a first communication link with a management service interaction node in the data interaction layer, and the first mobile terminal sends status reporting information to the management service interaction node through the first communication link according to a preset first interval duration;

The first mobile terminal generates a first business information data packet in response to the first business information upload instruction, wherein the first business information data packet includes a first business information upload request and first business information;

The first mobile terminal sends a first service information upload request to the management service interaction node through the first communication link, where the first service information upload request includes first service type information;

The management service interaction node determines a first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and sends first service interaction node information of the first service interaction node to the first mobile terminal;

The first mobile terminal establishes a second communication link with the first service interaction node according to the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link, and the bandwidth of the second communication link is greater than the bandwidth of the first communication link.

Optionally, the management service interaction node determines the first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, including:

The management service interaction node determines a first set of to-be-selected service interaction nodes from the data interaction layer according to the first service type information, wherein a preset processing service type list of the service interaction nodes in the first set of to-be-selected service interaction nodes includes the first service type information;

The management service interaction node broadcasts first service interaction information to each of the candidate service interaction nodes in the first candidate service interaction node set, where the first service interaction information includes the first service type information;

After receiving the first service interaction information, each of the service interaction nodes to be selected in the first service interaction node set determines an interaction thread state corresponding to the first service type information;

If the state of the first interaction thread corresponding to the first business type information in the first to-be-selected business interaction node in the first to-be-selected business interaction node set is an idle state, first business feedback information is sent to the management business interaction node, where the first business feedback information includes the number of busy threads of the interaction threads of the first to-be-selected business interaction node that are currently in a busy state;

If the second interaction thread state corresponding to the first service type information in the second service interaction node to be selected in the first service interaction node set to be selected is a busy state, the second service feedback information is not sent to the management service interaction node;

The management service interaction node determines a first subset of service interaction nodes to be selected from the first set of service interaction nodes to be selected according to the received service feedback information set, the service feedback information set includes the first service feedback information, and the first subset of service interaction nodes to be selected includes the first service interaction node to be selected;

The management service interaction node determines, in the first subset of candidate service interaction nodes, a candidate service interaction node with the smallest number of busy threads as the first service interaction node.

Optionally, the cloud system further includes a system management layer and a data processing layer, the data processing layer includes a plurality of data processing nodes; the system management layer is respectively communicated with each business interaction node in the data interaction layer, and the system management layer is respectively communicated with each data processing node in the data processing layer;

Correspondingly, after sending the first service information to the first service interaction node through the second communication link, the method further includes:

The first service interaction node determines a first processing type of the first service information according to a first information characteristic field in the first service information, and determines a first data capacity of the first service information according to a second information characteristic field in the first service information;

The first service interaction node sends the first service type information, the first processing type and the first data capacity to the system management layer through a third communication link, and the third communication link is a communication link between the first service interaction node and the system management layer;

The system management layer uses a preset data processing determination model and determines the first data processing occupied resources according to the first service type information, the first processing type and the first data capacity;

The system management layer determines a first data processing node from the data processing layer according to the first data processing occupied resources and a preset resource allocation model, and sends first data processing node information of the first data processing node to the first service interaction node to establish a fourth communication link between the first data processing node and the first service interaction node, wherein a bandwidth of the fourth communication link is greater than a bandwidth of the third communication link;

The first data processing node receives the first service information sent by the first service interaction node through the fourth communication link, and generates first service processing information after performing data processing on the first service information.

Optionally, the management layer uses a preset data processing determination model and determines the first data processing occupied resources according to the first business type information, the first processing type, and the first data capacity, including:

The management layer determines a first service type weight value according to the first service type information and a preset first resource occupancy weight list , the preset first resource occupancy weight list is used to establish a mapping relationship between a service type and a service type weight value;

The management layer determines a first processing type weight value according to the first processing type and a preset second resource occupation weight list , the preset second resource occupancy weight list is used to establish a mapping relationship between a processing type and a processing type weight value;

According to the first data capacity And formula 1 determines the resources occupied by the first data processing , the formula 1 is:

in, is the preset nominal data capacity, /> The pre-test processing corresponding to the preset nominal data capacity occupies resources.

Optionally, the system management layer determines a first data processing node from the data processing layer according to the resources occupied by the first data processing and a preset resource allocation model, including:

The system management layer determines a first set of candidate data processing nodes from the data processing layer according to the first processing type, wherein a preset data processing type list of data processing nodes in the first set of candidate data processing nodes includes the first processing type;

The system management layer broadcasts first data processing information to each candidate data processing node in the first candidate data processing node set, where the first data processing information includes the first processing type;

After receiving the first data processing information, each candidate data processing node in the first candidate data processing node set determines remaining data processing resources corresponding to the first processing type, and sends the remaining data processing resources to the system management layer;

The system management layer determines that the candidate data processing node with the largest remaining data processing resource in the first candidate data processing node set is the first data processing node.

Optionally, before the system management layer uses a preset data processing determination model and determines the first data processing occupied resources according to the first service type information, the first processing type and the first data capacity, the method further includes:

The first data processing node sends status reporting information to the system management layer through a fifth communication link according to a preset second interval duration;

Correspondingly, after receiving the first data processing information, each candidate data processing node in the first candidate data processing node set determines the remaining data processing resources corresponding to the first processing type, and sends the remaining data processing resources to the system management layer, including:

The first data processing node receives the first data processing information via the fifth communication link;

After determining the first remaining data processing resources corresponding to the first processing type, the first data processing node sends the first remaining data processing resources to the system management layer through the fifth communication link.

Optionally, the cloud system further comprises a data storage layer, the data storage layer comprises a plurality of data storage nodes; each data storage node in the data storage layer is respectively connected to the system management layer for communication;

Correspondingly, after generating the first service processing information, the method further includes:

The system management layer receives the first service processing information sent by the first data processing node through a sixth communication link, and determines a first data storage node corresponding to the type from the data storage layer according to the first service type information, wherein a bandwidth of the sixth communication link is greater than a bandwidth of the fifth communication link;

The system management layer sends the first service processing information to the first data storage node for storage.

In a second aspect, the present application provides an information integration system, including: a cloud system and a mobile terminal cluster, the cloud system includes a data interaction layer, the data interaction layer includes a plurality of business interaction nodes, each mobile terminal in the mobile terminal cluster is communicatively connected with at least one business interaction node in the data interaction layer;

In an initial state, a first mobile terminal in the mobile terminal cluster establishes a first communication link with a management service interaction node in the data interaction layer, and the first mobile terminal sends status reporting information to the management service interaction node through the first communication link according to a preset first interval duration;

The first mobile terminal generates a first business information data packet in response to the first business information upload instruction, wherein the first business information data packet includes a first business information upload request and first business information;

The first mobile terminal sends a first service information upload request to the management service interaction node through the first communication link, where the first service information upload request includes first service type information;

The management service interaction node determines a first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and sends first service interaction node information of the first service interaction node to the first mobile terminal;

The first mobile terminal establishes a second communication link with the first service interaction node according to the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link, and the bandwidth of the second communication link is greater than the bandwidth of the first communication link.

Optionally, the management service interaction node determines a first set of to-be-selected service interaction nodes from the data interaction layer according to the first service type information, and a preset processing service type list of the service interaction nodes in the first set of to-be-selected service interaction nodes includes the first service type information;

The management service interaction node broadcasts first service interaction information to each of the candidate service interaction nodes in the first candidate service interaction node set, where the first service interaction information includes the first service type information;

After receiving the first service interaction information, each of the service interaction nodes to be selected in the first service interaction node set determines an interaction thread state corresponding to the first service type information;

If the state of the first interaction thread corresponding to the first business type information in the first to-be-selected business interaction node in the first to-be-selected business interaction node set is an idle state, first business feedback information is sent to the management business interaction node, where the first business feedback information includes the number of busy threads of the interaction threads of the first to-be-selected business interaction node that are currently in a busy state;

If the second interaction thread state corresponding to the first service type information in the second service interaction node to be selected in the first service interaction node set to be selected is a busy state, the second service feedback information is not sent to the management service interaction node;

The management service interaction node determines a first subset of service interaction nodes to be selected from the first set of service interaction nodes to be selected according to the received service feedback information set, the service feedback information set includes the first service feedback information, and the first subset of service interaction nodes to be selected includes the first service interaction node to be selected;

The management service interaction node determines, in the first subset of candidate service interaction nodes, a candidate service interaction node with the smallest number of busy threads as the first service interaction node.

Optionally, the cloud system further includes a system management layer and a data processing layer, the data processing layer includes a plurality of data processing nodes; the system management layer is respectively communicated with each business interaction node in the data interaction layer, and the system management layer is respectively communicated with each data processing node in the data processing layer;

The first service interaction node determines a first processing type of the first service information according to a first information characteristic field in the first service information, and determines a first data capacity of the first service information according to a second information characteristic field in the first service information;

The first service interaction node sends the first service type information, the first processing type and the first data capacity to the system management layer through a third communication link, and the third communication link is a communication link between the first service interaction node and the system management layer;

The system management layer uses a preset data processing determination model and determines the first data processing occupied resources according to the first service type information, the first processing type and the first data capacity;

The system management layer determines a first data processing node from the data processing layer according to the first data processing occupied resources and a preset resource allocation model, and sends first data processing node information of the first data processing node to the first service interaction node to establish a fourth communication link between the first data processing node and the first service interaction node, wherein a bandwidth of the fourth communication link is greater than a bandwidth of the third communication link;

The first data processing node receives the first service information sent by the first service interaction node through the fourth communication link, and generates first service processing information after performing data processing on the first service information.

Optionally, the management layer determines the first service type weight value according to the first service type information and a preset first resource occupancy weight list. , the preset first resource occupancy weight list is used to establish a mapping relationship between a service type and a service type weight value;

The management layer determines a first processing type weight value according to the first processing type and a preset second resource occupation weight list , the preset second resource occupancy weight list is used to establish a mapping relationship between a processing type and a processing type weight value;

According to the first data capacity And formula 1 determines the resources occupied by the first data processing , the formula 1 is:

in, is the preset nominal data capacity, /> The pre-test processing corresponding to the preset nominal data capacity occupies resources.

Optionally, the system management layer determines a first set of candidate data processing nodes from the data processing layer according to the first processing type, and a preset data processing type list of data processing nodes in the first set of candidate data processing nodes includes the first processing type;

The system management layer broadcasts first data processing information to each candidate data processing node in the first candidate data processing node set, where the first data processing information includes the first processing type;

After receiving the first data processing information, each candidate data processing node in the first candidate data processing node set determines remaining data processing resources corresponding to the first processing type, and sends the remaining data processing resources to the system management layer;

The system management layer determines that the candidate data processing node with the largest remaining data processing resource in the first candidate data processing node set is the first data processing node.

Optionally, the first data processing node sends status reporting information to the system management layer through a fifth communication link according to a preset second interval duration;

The first data processing node receives the first data processing information via the fifth communication link;

After determining the first remaining data processing resources corresponding to the first processing type, the first data processing node sends the first remaining data processing resources to the system management layer through the fifth communication link.

Optionally, the cloud system further comprises a data storage layer, the data storage layer comprises a plurality of data storage nodes; each data storage node in the data storage layer is respectively connected to the system management layer for communication;

The system management layer receives the first service processing information sent by the first data processing node through a sixth communication link, and determines a first data storage node corresponding to the type from the data storage layer according to the first service type information, wherein a bandwidth of the sixth communication link is greater than a bandwidth of the fifth communication link;

The system management layer sends the first service processing information to the first data storage node for storage.

In a third aspect, the present application provides an electronic device, including:

processor; and,

A memory, configured to store executable instructions of the processor;

The processor is configured to perform any possible method described in the first aspect by executing the executable instructions.

In a fourth aspect, the present application provides a computer-readable storage medium, wherein the computer-readable storage medium stores computer-executable instructions, and when the computer-executable instructions are executed by a processor, they are used to implement any possible method described in the first aspect.

The information integration system processing method and system provided in the present application utilize a first mobile terminal to send a first business information upload request to a management business interaction node through a first communication link. Then, the management business interaction node determines the first business interaction node from the data interaction layer according to the first business type information and a preset business node determination model, and sends the first business interaction node information of the first business interaction node to the first mobile terminal. Then, the first mobile terminal establishes a second communication link with the first business interaction node according to the first business interaction node information, and sends the first business information to the first business interaction node through the second communication link, thereby uploading the first business information to the first business interaction node corresponding to the business type.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and, together with the description, serve to explain the principles of the present application.

Figure 1 is a schematic diagram of a flow chart of an information integration system processing method according to an exemplary embodiment of the present application;

FIG2 is a flow chart of an information integration system processing method according to another exemplary embodiment of the present application;

FIG3 is a schematic diagram of the structure of an information integration system according to another exemplary embodiment of the present application;

FIG. 4 is a schematic diagram of the structure of an electronic device according to an exemplary embodiment of the present application.

The above drawings have shown clear embodiments of the present application, which will be described in more detail later. These drawings and text descriptions are not intended to limit the scope of the present application in any way, but to illustrate the concept of the present application to those skilled in the art by referring to specific embodiments.

Detailed ways

Exemplary embodiments will be described in detail herein, examples of which are shown in the accompanying drawings. When the following description refers to the drawings, unless otherwise indicated, the same numbers in different drawings represent the same or similar elements. The implementations described in the following exemplary embodiments do not represent all implementations consistent with the present application. Instead, they are merely examples of devices and methods consistent with some aspects of the present application as detailed in the appended claims.

FIG1 is a flow chart of an information integration system processing method according to an exemplary embodiment of the present application. As shown in FIG1 , the method provided by this embodiment includes:

S101: A first mobile terminal in a mobile terminal cluster establishes a first communication link with a management service interaction node in a data interaction layer.

The method provided in this embodiment is applied to an information integration system, which includes a cloud system and a mobile terminal cluster. The cloud system includes a data interaction layer, the data interaction layer includes multiple business interaction nodes, and each mobile terminal in the mobile terminal cluster is communicatively connected to at least one business interaction node in the data interaction layer.

In the initial state, the first mobile terminal in the mobile terminal cluster establishes a first communication link with the management service interaction node in the data interaction layer, and the first mobile terminal sends status reporting information to the management service interaction node through the first communication link according to a preset first interval duration.

S102: The first mobile terminal generates a first service information data packet in response to a first service information upload instruction.

In this step, the first mobile terminal generates a first business information data packet in response to the first business information upload instruction, and the first business information data packet includes a first business information upload request and the first business information. The first business information upload instruction can be triggered by a click in the first mobile terminal, for example, selecting a business information data file for upload operation.

S103: The first mobile terminal sends a first service information upload request to the management service interaction node through the first communication link.

In this step, the first mobile terminal sends a first business information upload request to the management business interaction node through the first communication link, wherein the first business information upload request includes first business type information. It is worth understanding that the above-mentioned first business type information can be a business type for a corresponding business, for example, indicating that the business is a purchase order registration business, an invoice reimbursement business, and a salary sheet deposit business.

S104: The management service interaction node determines a first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and sends first service interaction node information of the first service interaction node to the first mobile terminal.

In this step, the management service interaction node may determine the first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and send first service interaction node information of the first service interaction node to the first mobile terminal.

Specifically, the management service interaction node determines the first service interaction node from the data interaction layer according to the first service type information and the preset service node determination model, which may include:

The management business interaction node determines a first set of selected business interaction nodes from the data interaction layer according to the first business type information, and the preset processing business type list of the business interaction nodes in the first set of selected business interaction nodes includes the first business type information; the management business interaction node broadcasts the first business interaction information to each selected business interaction node in the first set of selected business interaction nodes, and the first business interaction information includes the first business type information; after receiving the first business interaction information, each selected business interaction node in the first set of selected business interaction nodes determines the interaction thread state corresponding to the first business type information; if the first interaction thread state corresponding to the first business type information in the first selected business interaction node in the first set of selected business interaction nodes is an idle state, first business feedback information is sent to the management business interaction node, and the first business feedback information includes the busy thread number of the interaction threads of the first selected business interaction node that are currently in a busy state.

If the second interaction thread state corresponding to the first service type information in the second service interaction node to be selected in the first service interaction node set to be selected is in a busy state, the second service feedback information is not sent to the management service interaction node.

The management service interaction node determines a first service interaction node subset from the first service interaction node set according to the received service feedback information set, the service feedback information set includes the first service feedback information, and the first service interaction node subset includes the first service interaction node.

The management service interaction node determines the service interaction node to be selected with the smallest number of busy threads in the first subset of service interaction nodes to be selected as the first service interaction node.

In this step, by first selecting a first set of candidate business interaction nodes with interactive business capabilities, and then based on the first set of candidate business interaction nodes, further determining the candidate business interaction node with the smallest number of busy threads as the first business interaction node, the interaction efficiency of the business interaction is guaranteed.

S105. The first mobile terminal establishes a second communication link with the first service interaction node according to the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link.

In this step, the first mobile terminal establishes a second communication link with the first service interaction node based on the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link. The bandwidth of the second communication link is greater than the bandwidth of the first communication link.

In this embodiment, the first mobile terminal is used to send a first business information upload request to the management business interaction node through the first communication link. Then, the management business interaction node determines the first business interaction node from the data interaction layer according to the first business type information and the preset business node determination model, and sends the first business interaction node information of the first business interaction node to the first mobile terminal. Then, the first mobile terminal establishes a second communication link with the first business interaction node according to the first business interaction node information, and sends the first business information to the first business interaction node through the second communication link, so as to upload the first business information to the first business interaction node corresponding to the business type. In addition, the state reporting information with a small amount of data and frequent interactions is transmitted through the first communication link with a smaller bandwidth, and the first business information with a large amount of data is transmitted through the second communication link with a larger bandwidth, which not only ensures the reliability of data transmission, but also makes more effective use of transmission resources.

FIG2 is a flow chart of an information integration system processing method according to another exemplary embodiment of the present application. As shown in FIG2 , the information integration system processing method provided by this embodiment includes:

S201: A first mobile terminal in a mobile terminal cluster establishes a first communication link with a management service interaction node in a data interaction layer.

In the initial state, the first mobile terminal in the mobile terminal cluster establishes a first communication link with the management service interaction node in the data interaction layer, and the first mobile terminal sends status reporting information to the management service interaction node through the first communication link according to a preset first interval duration.

S202: The first mobile terminal generates a first service information data packet in response to a first service information upload instruction.

In this step, the first mobile terminal generates a first business information data packet in response to the first business information upload instruction, and the first business information data packet includes a first business information upload request and the first business information. The first business information upload instruction can be triggered by a click in the first mobile terminal, for example, selecting a business information data file for upload operation.

S203: The first mobile terminal sends a first service information upload request to the management service interaction node through the first communication link.

In this step, the first mobile terminal sends a first business information upload request to the management business interaction node through the first communication link, wherein the first business information upload request includes first business type information. It is worth understanding that the above-mentioned first business type information can be a business type for a corresponding business, for example, indicating that the business is a purchase order registration business, an invoice reimbursement business, and a salary sheet deposit business.

S204: The management service interaction node determines a first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and sends first service interaction node information of the first service interaction node to the first mobile terminal.

In this step, the management service interaction node may determine the first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and send first service interaction node information of the first service interaction node to the first mobile terminal.

Specifically, the management service interaction node determines the first service interaction node from the data interaction layer according to the first service type information and the preset service node determination model, which may include:

The management business interaction node determines a first set of selected business interaction nodes from the data interaction layer according to the first business type information, and the preset processing business type list of the business interaction nodes in the first set of selected business interaction nodes includes the first business type information; the management business interaction node broadcasts the first business interaction information to each selected business interaction node in the first set of selected business interaction nodes, and the first business interaction information includes the first business type information; after receiving the first business interaction information, each selected business interaction node in the first set of selected business interaction nodes determines the interaction thread state corresponding to the first business type information; if the first interaction thread state corresponding to the first business type information in the first selected business interaction node in the first set of selected business interaction nodes is an idle state, first business feedback information is sent to the management business interaction node, and the first business feedback information includes the busy thread number of the interaction threads of the first selected business interaction node that are currently in a busy state.

If the second interaction thread state corresponding to the first service type information in the second service interaction node to be selected in the first service interaction node set to be selected is in a busy state, the second service feedback information is not sent to the management service interaction node.

The management service interaction node determines a first service interaction node subset from the first service interaction node set according to the received service feedback information set, the service feedback information set includes the first service feedback information, and the first service interaction node subset includes the first service interaction node.

The management service interaction node determines the service interaction node to be selected with the smallest number of busy threads in the first subset of service interaction nodes to be selected as the first service interaction node.

In this step, by first selecting a first set of candidate business interaction nodes with interactive business capabilities, and then based on the first set of candidate business interaction nodes, further determining the candidate business interaction node with the smallest number of busy threads as the first business interaction node, the interaction efficiency of the business interaction is guaranteed.

S205. The first mobile terminal establishes a second communication link with the first service interaction node according to the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link.

In this step, the first mobile terminal establishes a second communication link with the first service interaction node based on the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link. The bandwidth of the second communication link is greater than the bandwidth of the first communication link.

S206. The first service interaction node determines a first processing type of the first service information according to a first information characteristic field in the first service information, and determines a first data capacity of the first service information according to a second information characteristic field in the first service information.

In addition, the cloud system may further include a system management layer and a data processing layer, wherein the data processing layer includes a plurality of data processing nodes. The system management layer is respectively connected to each business interaction node in the data interaction layer, and the system management layer is respectively connected to each data processing node in the data processing layer.

In this step, the first service interaction node may determine the first processing type of the first service information according to the first information characteristic field in the first service information, and determine the first data capacity of the first service information according to the second information characteristic field in the first service information.

S207. The first service interaction node sends the first service type information, the first processing type, and the first data capacity to the system management layer through the third communication link.

In this step, the first service interaction node sends the first service type information, the first processing type and the first data capacity to the system management layer through the third communication link, and the third communication link is a communication link between the first service interaction node and the system management layer.

S208. The system management layer uses a preset data processing determination model and determines the first data processing occupied resources according to the first business type information, the first processing type and the first data capacity.

Specifically, the management layer may determine the weight value of the first service type according to the first service type information and the preset first resource occupation weight list. The preset first resource occupancy weight list is used to establish a mapping relationship between business types and business type weight values.

The management layer determines the weight value of the first processing type according to the first processing type and the preset second resource occupation weight list. The preset second resource occupancy weight list is used to establish a mapping relationship between the processing type and the processing type weight value.

According to the first data capacity And formula 1 determines the first data processing occupied resources/> , Formula 1 is:

in, is the preset nominal data capacity, /> The pre-test processing occupied resources corresponding to the preset nominal data capacity. It is worth noting that the above-mentioned preset nominal data can be determined based on data forms such as business text data, business image data and business audio data. Specifically, it can be selected in combination with the actual business scenario applied. If the above-mentioned preset nominal data is business text data, since the amount of calculation required for image and audio processing is greater than that of the business text data, the corresponding first business type weight value is determined. It can be a number greater than 1, for example, it can be 5, 10, 100, etc. The specific value can be calibrated based on the test of the processing process of different data types in this scenario. For the above-mentioned first processing type, it can be a processing type such as only storing, extracting image text, voice recognition, etc. For the first processing type, the weight value/> The determination can also be formed by testing and calibrating the processing of different data types. It is worth noting that the above-mentioned preset first resource occupation weight list and the preset second resource occupation weight list are both preset in the system in advance, and can be adjusted according to the test data.

In addition, before the system management layer uses the preset data processing to determine the model and determines the resources occupied by the first data processing based on the first business type information, the first processing type and the first data capacity, the first data processing node can also send status reporting information to the system management layer through the fifth communication link according to the preset second interval duration.

Correspondingly, after receiving the first data processing information, each of the candidate data processing nodes in the first candidate data processing node set determines the remaining data processing resources corresponding to the first processing type, and sends the remaining data processing resources to the system management layer. Specifically, the first data processing node receives the first data processing information through the fifth communication link. After determining the first remaining data processing resources corresponding to the first processing type, the first data processing node sends the first remaining data processing resources to the system management layer through the fifth communication link.

S209: The system management layer determines a first data processing node from the data processing layer according to the resources occupied by the first data processing and a preset resource allocation model.

In this step, the system management layer determines the first data processing node from the data processing layer according to the resources occupied by the first data processing and the preset resource allocation model, and sends the first data processing node information of the first data processing node to the first business interaction node to establish a fourth communication link between the first data processing node and the first business interaction node, and the bandwidth of the fourth communication link is greater than the bandwidth of the third communication link. It is worth noting that the first business type information with a small data volume, the first processing type and the first data capacity are transmitted through the third communication link with a smaller bandwidth, and the first business information with a large data volume is transmitted through the fourth communication link with a larger bandwidth, which not only ensures the reliability of data transmission, but also can more effectively use the transmission resources.

Optionally, the system management layer determines the first data processing node from the data processing layer according to the resources occupied by the first data processing and a preset resource allocation model, which may specifically include:

The system management layer determines a first set of candidate data processing nodes from the data processing layer according to the first processing type, and the preset data processing type list of the data processing nodes in the first set of candidate data processing nodes includes the first processing type; the system management layer broadcasts first data processing information to each candidate data processing node in the first set of candidate data processing nodes, and the first data processing information includes the first processing type; after receiving the first data processing information, each candidate data processing node in the first set of candidate data processing nodes determines the remaining data processing resources corresponding to the first processing type, and sends the remaining data processing resources to the system management layer; the system management layer determines that the candidate data processing node with the largest remaining data processing resources in the first set of candidate data processing nodes is the first data processing node.

S210. The first data processing node receives first service information sent by the first service interaction node through a fourth communication link, and generates first service processing information after performing data processing on the first service information.

S211. The system management layer receives first business processing information sent by the first data processing node through the sixth communication link, and determines a first data storage node corresponding to the type from the data storage layer according to the first business type information.

In addition, the cloud system may further include a data storage layer, which includes a plurality of data storage nodes; each data storage node in the data storage layer is respectively connected to the system management layer for communication.

In this step, the system management layer may receive the first business processing information sent by the first data processing node through the sixth communication link, and determine the first data storage node corresponding to the type from the data storage layer according to the first business type information, and the bandwidth of the sixth communication link is greater than the bandwidth of the fifth communication link.

S212: The system management layer sends the first business processing information to the first data storage node for storage.

In this step, the system management layer determines the first data storage node corresponding to the type from the data storage layer according to the first business type information, and then sends the first business processing information to the first data storage node for storage, which can effectively realize the classification and structured storage of business data.

FIG3 is a schematic diagram of the structure of an information integration system according to another exemplary embodiment of the present application. As shown in FIG3, the information integration system 300 provided in this embodiment includes: a cloud system 310 and a mobile terminal cluster 320, wherein the cloud system 310 includes a data interaction layer 311, wherein the data interaction layer 311 includes a plurality of business interaction nodes, and each mobile terminal in the mobile terminal cluster 320 is communicatively connected with at least one business interaction node in the data interaction layer 311;

In the initial state, the first mobile terminal in the mobile terminal cluster 320 establishes a first communication link with the management service interaction node in the data interaction layer 311, and the first mobile terminal sends status reporting information to the management service interaction node through the first communication link according to a preset first interval duration;

The first mobile terminal generates a first business information data packet in response to the first business information upload instruction, wherein the first business information data packet includes a first business information upload request and first business information;

The first mobile terminal sends a first service information upload request to the management service interaction node through the first communication link, where the first service information upload request includes first service type information;

The management service interaction node determines a first service interaction node from the data interaction layer 311 according to the first service type information and a preset service node determination model, and sends first service interaction node information of the first service interaction node to the first mobile terminal;

The first mobile terminal establishes a second communication link with the first service interaction node according to the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link, and the bandwidth of the second communication link is greater than the bandwidth of the first communication link.

Optionally, the management service interaction node determines a first set of to-be-selected service interaction nodes from the data interaction layer 311 according to the first service type information, and a preset processing service type list of the service interaction nodes in the first set of to-be-selected service interaction nodes includes the first service type information;

The management service interaction node broadcasts first service interaction information to each of the candidate service interaction nodes in the first candidate service interaction node set, where the first service interaction information includes the first service type information;

After receiving the first service interaction information, each of the service interaction nodes to be selected in the first service interaction node set determines an interaction thread state corresponding to the first service type information;

If the state of the first interaction thread corresponding to the first business type information in the first to-be-selected business interaction node in the first to-be-selected business interaction node set is an idle state, first business feedback information is sent to the management business interaction node, where the first business feedback information includes the number of busy threads of the interaction threads of the first to-be-selected business interaction node that are currently in a busy state;

If the second interaction thread state corresponding to the first service type information in the second service interaction node to be selected in the first service interaction node set to be selected is a busy state, the second service feedback information is not sent to the management service interaction node;

The management service interaction node determines a first subset of service interaction nodes to be selected from the first set of service interaction nodes to be selected according to the received service feedback information set, the service feedback information set includes the first service feedback information, and the first subset of service interaction nodes to be selected includes the first service interaction node to be selected;

The management service interaction node determines, in the first subset of candidate service interaction nodes, a candidate service interaction node with the smallest number of busy threads as the first service interaction node.

Optionally, the cloud system 310 further includes a system management layer 312 and a data processing layer 313, wherein the data processing layer 313 includes a plurality of data processing nodes; the system management layer 312 is respectively communicated with each business interaction node in the data interaction layer 311, and the system management layer 312 is respectively communicated with each data processing node in the data processing layer 313;

The first service interaction node determines a first processing type of the first service information according to a first information characteristic field in the first service information, and determines a first data capacity of the first service information according to a second information characteristic field in the first service information;

The first service interaction node sends the first service type information, the first processing type and the first data capacity to the system management layer 312 through a third communication link, and the third communication link is a communication link between the first service interaction node and the system management layer 312;

The system management layer 312 uses a preset data processing determination model and determines the first data processing occupied resources according to the first service type information, the first processing type and the first data capacity;

The system management layer 312 determines the first data processing node from the data processing layer 313 according to the first data processing occupied resources and the preset resource allocation model, and sends the first data processing node information of the first data processing node to the first service interaction node to establish a fourth communication link between the first data processing node and the first service interaction node, wherein the bandwidth of the fourth communication link is greater than the bandwidth of the third communication link;

The first data processing node receives the first service information sent by the first service interaction node through the fourth communication link, and generates first service processing information after performing data processing on the first service information.

Optionally, the management layer determines the first service type weight value according to the first service type information and a preset first resource occupancy weight list. , the preset first resource occupancy weight list is used to establish a mapping relationship between a service type and a service type weight value;

The management layer determines a first processing type weight value according to the first processing type and a preset second resource occupation weight list , the preset second resource occupancy weight list is used to establish a mapping relationship between a processing type and a processing type weight value;

According to the first data capacity And formula 1 determines the resources occupied by the first data processing , the formula 1 is:

in, is the preset nominal data capacity, /> The pre-test processing corresponding to the preset nominal data capacity occupies resources.

Optionally, the system management layer 312 determines a first set of candidate data processing nodes from the data processing layer 313 according to the first processing type, and a preset data processing type list of data processing nodes in the first set of candidate data processing nodes includes the first processing type;

The system management layer 312 broadcasts first data processing information to each candidate data processing node in the first candidate data processing node set, where the first data processing information includes the first processing type;

After receiving the first data processing information, each candidate data processing node in the first candidate data processing node set determines the remaining data processing resources corresponding to the first processing type, and sends the remaining data processing resources to the system management layer 312;

The system management layer 312 determines the candidate data processing node with the largest remaining data processing resource in the first candidate data processing node set as the first data processing node.

Optionally, the first data processing node sends status reporting information to the system management layer 312 through a fifth communication link according to a preset second interval duration;

The first data processing node receives the first data processing information via the fifth communication link;

After determining the first remaining data processing resources corresponding to the first processing type, the first data processing node sends the first remaining data processing resources to the system management layer 312 through the fifth communication link.

Optionally, the cloud system 310 further includes a data storage layer 314, and the data storage layer 314 includes a plurality of data storage nodes; each data storage node in the data storage layer 314 is respectively connected to the system management layer 312 for communication;

The system management layer 312 receives the first service processing information sent by the first data processing node through the sixth communication link, and determines the first data storage node of the corresponding type from the data storage layer 314 according to the first service type information, and the bandwidth of the sixth communication link is greater than the bandwidth of the fifth communication link;

The system management layer 312 sends the first service processing information to the first data storage node for storage.

FIG4 is a schematic diagram of the structure of an electronic device according to an exemplary embodiment of the present application. As shown in FIG4 , an electronic device 400 provided in this embodiment includes: a processor 401 and a memory 402; wherein:

The memory 402 is used to store computer programs, and the memory may also be a flash memory.

The processor 401 is used to execute the execution instructions stored in the memory to implement each step in the above method. For details, please refer to the relevant description in the above method embodiment.

Optionally, the memory 402 may be independent or integrated with the processor 401 .

When the memory 402 is a device independent of the processor 401, the electronic device 400 may further include:

The bus 403 is used to connect the memory 402 and the processor 401 .

This embodiment further provides a readable storage medium, in which a computer program is stored. When at least one processor of an electronic device executes the computer program, the electronic device executes the methods provided in the above-mentioned various implementation modes.

This embodiment also provides a program product, which includes a computer program stored in a readable storage medium. At least one processor of the electronic device can read the computer program from the readable storage medium, and at least one processor executes the computer program so that the electronic device implements the methods provided in the above various embodiments.

Those skilled in the art will readily appreciate other embodiments of the present application after considering the specification and practicing the invention disclosed herein. The present application is intended to cover any modification, use or adaptation of the present application, which follows the general principles of the present application and includes common knowledge or customary techniques in the art that are not disclosed in the present application. The specification and examples are intended to be exemplary only, and the true scope and spirit of the present application are indicated by the claims.

It should be understood that the present application is not limited to the precise structures that have been described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the present application is limited only by the appended claims.

Claims (10)

1. The information integration system processing method is characterized by being applied to an information integration system, wherein the information integration system comprises a cloud system and a mobile terminal cluster, the cloud system comprises a data interaction layer, the data interaction layer comprises a plurality of service interaction nodes, and each mobile terminal in the mobile terminal cluster is in communication connection with at least one service interaction node in the data interaction layer; the method comprises the following steps:

in an initial state, a first mobile terminal in the mobile terminal cluster and a management service interaction node in the data interaction layer establish a first communication link, and the first mobile terminal sends state report information to the management service interaction node through the first communication link according to a preset first interval duration;

The first mobile terminal responds to a first service information uploading instruction to generate a first service information data packet, wherein the first service information data packet comprises a first service information uploading request and first service information;

The first mobile terminal sends a first service information uploading request to the management service interaction node through the first communication link, wherein the first service information uploading request comprises first service type information;

The management service interaction node determines a first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and sends first service interaction node information of the first service interaction node to the first mobile terminal;

The first mobile terminal establishes a second communication link with the first service interaction node according to the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link, wherein the bandwidth of the second communication link is larger than that of the first communication link.

2. The method according to claim 1, wherein the managing service interaction node determining a first service interaction node from the data interaction layer according to the first service type information and a preset service node determining model, includes:

the management service interaction node determines a first service interaction node set from the data interaction layer according to the first service type information, wherein a preset processing service type list of service interaction nodes in the first service interaction node set comprises the first service type information;

the management service interaction node broadcasts first service interaction information to each service interaction node to be selected in the first service interaction node set, wherein the first service interaction information comprises the first service type information;

each service interaction node to be selected in the first service interaction node set determines an interaction thread state corresponding to the first service type information after receiving the first service interaction information;

If a first interaction thread state corresponding to the first service type information in a first service interaction node in the first service interaction node set to be selected is an idle state, sending first service feedback information to the management service interaction node, wherein the first service feedback information comprises the number of busy threads of interaction threads of the first service interaction node currently in a busy state;

If the state of a second interaction thread corresponding to the first service type information in a second to-be-selected service interaction node in the first to-be-selected service interaction node set is a busy state, not sending second service feedback information to the management service interaction node;

The management service interaction node determines a first service interaction node subset from the first service interaction node set according to the received service feedback information set, wherein the service feedback information set comprises the first service feedback information, and the first service interaction node subset comprises the first service interaction node;

and the management service interaction node determines the service interaction node with the smallest busy thread number in the first service interaction node subset as the first service interaction node.

3. The information integration system processing method according to claim 1 or 2, wherein the cloud system further comprises a system management layer and a data processing layer, the data processing layer comprising a plurality of data processing nodes; the system management layer is respectively in communication connection with each service interaction node in the data interaction layer, and is respectively in communication connection with each data processing node in the data processing layer;

Correspondingly, after the first service information is sent to the first service interaction node through the second communication link, the method further includes:

the first service interaction node determines a first processing type of the first service information according to a first information characteristic field in the first service information, and determines a first data capacity of the first service information according to a second information characteristic field in the first service information;

The first service interaction node sends the first service type information, the first processing type and the first data capacity to the system management layer through a third communication link, wherein the third communication link is a communication link between the first service interaction node and the system management layer;

the system management layer determines a model by utilizing preset data processing, and determines resources occupied by first data processing according to the first service type information, the first processing type and the first data capacity;

the system management layer determines a first data processing node from the data processing layer according to the first data processing occupied resource and a preset resource allocation model, and sends first data processing node information of the first data processing node to the first service interaction node so as to establish a fourth communication link between the first data processing node and the first service interaction node, wherein the bandwidth of the fourth communication link is larger than that of the third communication link;

The first data processing node receives the first service information sent by the first service interaction node through the fourth communication link, and generates first service processing information after data processing is performed on the first service information.

4. The information integration system processing method of claim 3, wherein the management layer determines a model using a preset data process, and determines a first data process occupation resource according to the first service type information, the first process type, and the first data capacity, comprising:

The management layer determines a first service type weight value according to the first service type information and a preset first resource occupation weight list The preset first resource occupation weight list is used for establishing a mapping relation between the service type and the service type weight value;

The management layer determines a weight value of a first processing type according to the first processing type and a preset second resource occupation weight list The preset second resource occupation weight list is used for establishing a mapping relation between the processing type and the processing type weight value;

According to the first data capacity And equation 1 determines that the first data processing occupies resources/>The formula 1 is:

；

Wherein, For presetting nominal data capacity,/>And occupying resources for the pre-test processing corresponding to the preset nominal data capacity.

5. The information handling system of claim 4, wherein the system management layer determining a first data handling node from the data handling layer according to the first data handling occupied resource and a preset resource allocation model comprises:

the system management layer determines a first data processing node set to be selected from the data processing layers according to the first processing type, wherein a preset data processing type list of data processing nodes in the first data processing node set to be selected comprises the first processing type;

the system management layer broadcasts first data processing information to each data processing node to be selected in the first data processing node set to be selected, wherein the first data processing information comprises the first processing type;

After receiving the first data processing information, each data processing node to be selected in the first data processing node set determines the residual data processing resource corresponding to the first processing type and sends the residual data processing resource to the system management layer;

And the system management layer determines the selected data processing node with the largest residual data processing resource in the first data processing node set to be the first data processing node.

6. The information integration system processing method of claim 5, wherein before the system management layer determines a model using a preset data process and determines a first data process occupation resource according to the first service type information, the first process type, and the first data capacity, further comprising:

The first data processing node sends state report information to the system management layer through a fifth communication link according to a preset second interval duration;

correspondingly, after receiving the first data processing information, each data processing node to be selected in the first data processing node set determines a remaining data processing resource corresponding to the first processing type, and sends the remaining data processing resource to the system management layer, including:

The first data processing node receives the first data processing information through the fifth communication link;

And after determining the first residual data processing resource corresponding to the first processing type, the first data processing node sends the first residual data processing resource to the system management layer through the fifth communication link.

7. The information integration system processing method of claim 6, wherein the cloud system further comprises a data storage layer, the data storage layer comprising a plurality of data storage nodes; each data storage node in the data storage layer is respectively in communication connection with the system management layer;

Correspondingly, after the first service processing information is generated, the method further includes:

The system management layer receives the first service processing information sent by the first data processing node through a sixth communication link, and determines a first data storage node corresponding to the type from the data storage layer according to the first service type information, wherein the bandwidth of the sixth communication link is greater than that of the fifth communication link;

And the system management layer sends the first service processing information to the first data storage node for storage.

8. An information integration system, comprising: the cloud system comprises a data interaction layer, the data interaction layer comprises a plurality of service interaction nodes, and each mobile terminal in the mobile terminal cluster is in communication connection with at least one service interaction node in the data interaction layer;

in an initial state, a first mobile terminal in the mobile terminal cluster and a management service interaction node in the data interaction layer establish a first communication link, and the first mobile terminal sends state report information to the management service interaction node through the first communication link according to a preset first interval duration;

The first mobile terminal responds to a first service information uploading instruction to generate a first service information data packet, wherein the first service information data packet comprises a first service information uploading request and first service information;

The first mobile terminal sends a first service information uploading request to the management service interaction node through the first communication link, wherein the first service information uploading request comprises first service type information;

The management service interaction node determines a first service interaction node from the data interaction layer according to the first service type information and a preset service node determination model, and sends first service interaction node information of the first service interaction node to the first mobile terminal;

The first mobile terminal establishes a second communication link with the first service interaction node according to the first service interaction node information, and sends the first service type information and the first service information to the first service interaction node through the second communication link, wherein the bandwidth of the second communication link is larger than that of the first communication link.

9. An electronic device, comprising:

A processor; and

A memory for storing executable instructions of the processor;

Wherein the processor is configured to perform the method of any one of claims 1 to 7 via execution of the executable instructions.

10. A computer readable storage medium having stored therein computer executable instructions which when executed by a processor are adapted to carry out the method of any one of claims 1 to 7.