CN114826645B - Method and terminal for real-time aggregation of multipath data - Google Patents

Abstract

The invention provides a method and a terminal for real-time aggregation of multipath data, which belong to the technical field of data aggregation and comprise the following steps of; step S1, acquiring real-time data: the data aggregation platform establishes data acquisition links with a plurality of databases, and starts a transmission channel to acquire multi-path data information from the databases; step S2, information caching: the data aggregation platform starts a transmission channel security mode, monitors a current buffer area, and adds a time stamp to buffer; step S3, data screening: the data aggregation platform screens out real-time data information to form stable real-time data, and starts a query script; the invention adopts a multilayer encryption mode to encrypt the login and analysis information, and each data information is protected by the firewall during backup, thereby effectively preventing information from leaking out and avoiding the influence of decisions of enterprises in the market.

Description

Method and terminal for real-time aggregation of multipath data

Technical Field

The invention belongs to the technical field of data aggregation, and particularly relates to a method and a terminal for real-time aggregation of multipath data.

Background

The aggregated data is an internet professional data technology service provider and aims to enable industry upgrading by data technology so as to drive industry development. The method mainly provides big data service and system solutions for enterprise clients in different industries, the aggregated data uses big data cleaning, analyzing, mining and other technologies as main technical means in the aspect of data application, and based on specific application scenes, the method provides data application systems or customized data analysis results aiming at the requirements of various enterprise-level clients in the aspects of data analysis, decision support, marketing and the like. The management problem of the clients is solved, the market profit capability of the clients is solved, and the reference value in the big data is exerted.

At present, the aggregated data is widely applied in various industries, when an enterprise uses an aggregated data platform, the aggregated data contains more enterprise internal information and data, and when most of the existing data is aggregated in real time, the encryption effect of the data information is poor, so that the information is easy to leak, and the decision of the enterprise in the market is influenced.

Disclosure of Invention

The invention aims to provide a method and a terminal for real-time aggregation of multipath data, and aims to solve the problems that in the prior art, when most of data are aggregated in real time, the encryption effect of data information is poor, information is easy to leak, and accordingly decisions of enterprises in markets are affected.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a method for real-time aggregation of multipath data comprises a data aggregation platform and a plurality of databases, and comprises the following steps of;

step S1, acquiring real-time data: the data aggregation platform establishes data acquisition links with a plurality of databases, and starts a transmission channel to acquire multi-path data information from the databases;

step S2, information caching: the data aggregation platform starts a transmission channel security mode, monitors a current buffer area, and adds a time stamp to buffer;

step S3, data screening: the data aggregation platform screens out real-time data information to form stable real-time data, and starts a query script;

step S4, searching and inquiring: the user sends the data information to a query analysis engine through the query script, the query analysis engine analyzes the data information, and the analysis information is transmitted to a data aggregation component;

step S5, information encryption: the data aggregation platform encrypts the analysis information in the data aggregation assembly, sends authentication information to a user to obtain a signature, and confirms the user information;

step S6, data transmission: the data aggregation platform transmits the analysis information to a cloud database for backup, and simultaneously opens a firewall;

step S7, finishing polymerization: and the data aggregation platform sends the analysis information to a user, and the user closes the platform.

In step S1, when the data aggregation platform acquires multiple paths of data information, a user sends a request packet to an authentication server, the authentication server constructs a response packet, and the user completes identity verification by decrypting the response packet, wherein the success or failure of the identity verification includes the following two cases;

(a) Verification is successful: the data aggregation platform starts a transmission channel and acquires multi-path data information from a plurality of databases;

(b) Verification failure: the data aggregation platform closes the transmission channel, and cannot acquire data information from a plurality of databases.

In step S2, the transmission channel security mode adopts different encryption strategies according to the data format information, and the buffer status is monitored in the security mode, and when the buffer is abnormal, the data aggregation platform sends a reminder to the user.

In a preferred embodiment of the present invention, in step S3, after the screening of the real-time data information, the data aggregation platform transmits the real-time data information and the timestamp to the database for storing.

In a preferred embodiment of the present invention, in step S4, the query parsing engine is configured to parse the query script, and the query parsing engine splits the query script to supplement multiple results of the script.

In step S5, when the data aggregation platform encrypts the analysis information, the authentication server sends a request packet to the user, the user encrypts the request packet through the private key and obtains the signature, and the authentication server obtains the signature information and sends the analysis information to the cloud database.

In step S6, the cloud database constructs a firewall for the analysis information, and if the user has constructed the firewall, the firewall is directly opened when the analysis information is backed up in the cloud database.

In step S7, when the user closes the platform, the data aggregation platform reminds the user, and the user confirms whether to store the analysis information.

The terminal comprises a connection system, a signal transmission system and a processing system, wherein the connection system is used for connecting a database and a server, the signal transmission system is used for information transmission between the database and the server, and the connection system, the signal transmission system and the processing system are used for a user to execute any one of the above on the terminal.

Compared with the prior art, the invention has the beneficial effects that:

1. the method comprises the steps that a data aggregation platform establishes data acquisition links with a plurality of databases, the data aggregation platform starts a transmission channel, multiple paths of data information are acquired from the databases, the data aggregation platform starts a transmission channel security mode, a current buffer area is monitored, a timestamp is added for buffering, the data aggregation platform screens out real-time data information to form stable real-time data, a query script is started, a user sends the data information to a query analysis engine through the query script, the query analysis engine analyzes the data information, the analysis information is transmitted to a data aggregation component, the data aggregation platform encrypts the analysis information in the data aggregation component, sends authentication information to the user to acquire a signature, user information is confirmed, the data aggregation platform transmits the analysis information to a cloud database for backup, a firewall is started, the data aggregation platform sends the analysis information to the user, and the user closes the platform.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a flow chart of the present invention;

FIG. 2 is a schematic block diagram of the present invention;

FIG. 3 is a flow chart of real-time data acquisition in the present invention;

fig. 4 is a block diagram of a terminal of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples

Referring to fig. 1-4, the present invention provides the following technical solutions: a method for real-time aggregation of multipath data comprises a data aggregation platform and a plurality of databases, and comprises the following steps of;

step S1, acquiring real-time data: the data aggregation platform establishes data acquisition links with a plurality of databases, and starts a transmission channel to acquire multi-path data information from the databases;

step S2, information caching: the data aggregation platform starts a transmission channel security mode, monitors a current buffer area, and adds a time stamp to buffer;

step S3, data screening: the data aggregation platform screens out real-time data information to form stable real-time data, and starts a query script;

step S4, searching and inquiring: the user sends the data information to a query analysis engine through a query script, the query analysis engine analyzes the data information, and the analysis information is transmitted to a data aggregation component;

step S5, information encryption: the data aggregation platform encrypts the analysis information in the data aggregation assembly, sends authentication information to a user to obtain a signature, and confirms the user information;

step S6, data transmission: the data aggregation platform transmits the analysis information to the cloud database for backup, and simultaneously opens the firewall;

step S7, finishing polymerization: and the data aggregation platform sends the analysis information to a user, and the user closes the platform.

Specifically, in step S1, when the data aggregation platform acquires multiple paths of data information, the user sends a request packet to the authentication server, the authentication server constructs a response packet, and the user completes identity verification by decrypting the response packet, wherein success or failure of the identity verification includes the following two cases;

(a) Verification is successful: the data aggregation platform starts a transmission channel and acquires multi-path data information from a plurality of databases;

(b) Verification failure: the data aggregation platform closes the transmission channel, and cannot acquire data information from a plurality of databases.

Specifically, in step S2, the transmission channel security mode adopts different encryption policies according to the data format information, and meanwhile, the state of the buffer area is monitored in the security mode, and when the buffer area is abnormal, the data aggregation platform sends a reminder to the user.

Specifically, in step S3, after the real-time data information is screened, the data aggregation platform transmits the real-time data information and the timestamp to the database for storage.

Specifically, in step S4, the query parsing engine is configured to parse the query script, and meanwhile, the query parsing engine splits the query script to supplement multiple results of the script.

Specifically, in step S5, when the data aggregation platform encrypts the analysis information, the authentication server sends a request packet to the user, the user encrypts the request packet through the private key and obtains a signature, and the authentication server obtains the signature information and sends the analysis information to the cloud database.

Specifically, in step S6, the cloud database constructs a firewall for the analysis information, each user constructs a firewall, and if the user has constructed the firewall, the firewall is directly opened when the analysis information is backed up in the cloud database.

Specifically, in step S7, when the user closes the platform, the data aggregation platform alerts the user, and the user confirms whether to store the analysis information.

Example 2

Referring to fig. 1-4, the present invention provides the following technical solutions: a terminal for real-time aggregation of multiple data comprises a connection system for connecting a database and a server, a signal transmission system for information transmission between the database and the server, and a processing system for executing any one of embodiment 1 on the terminal by a user.

The working principle and the using flow of the invention are as follows: the data aggregation platform establishes a data acquisition link with a plurality of databases, the data aggregation platform starts a transmission channel, multiple paths of data information are acquired from the databases, the data aggregation platform starts a transmission channel security mode, monitors a current buffer area, marks a time stamp for buffering, screens out real-time data information to form stable real-time data, starts a query script, a user sends the data information to a query analysis engine through the query script, the query analysis engine analyzes the data information, the analysis information is transmitted to a data aggregation component, the data aggregation platform encrypts the analysis information in the data aggregation component, sends authentication information to the user to acquire a signature, confirms user information, the data aggregation platform transmits the analysis information to a cloud database for backup, simultaneously starts a firewall, and sends the analysis information to the user, and the user closes the platform.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. The method for real-time aggregation of multipath data comprises a data aggregation platform and a plurality of databases, and is characterized in that: comprises the following steps of;

step S1, acquiring real-time data: the data aggregation platform establishes data acquisition links with a plurality of databases, and starts a transmission channel to acquire multi-path data information from the databases;

step S2, information caching: the data aggregation platform starts a transmission channel security mode, monitors a current buffer area, and adds a time stamp to buffer;

step S3, data screening: the data aggregation platform screens out real-time data information to form stable real-time data, and starts a query script;

step S4, searching and inquiring: the user sends stable real-time data to a query analysis engine through the query script, the query analysis engine analyzes the stable real-time data to obtain analysis information, and the analysis information is transmitted to a data aggregation component;

step S5, information encryption: the data aggregation platform encrypts the analysis information in the data aggregation assembly, sends authentication information to a user to obtain a signature, and confirms the user information;

step S6, data transmission: the data aggregation platform transmits the encrypted analysis information to a cloud database for backup, and simultaneously opens a firewall;

step S7, finishing polymerization: the data aggregation platform sends the encrypted analysis information to a user, and the user closes the platform;

in step S4, the query analysis engine is configured to analyze the query script, and meanwhile, the query analysis engine splits the query script to supplement multiple results of the script;

in step S5, when the data aggregation platform encrypts the analysis information, the authentication server sends a request packet to the user, the user encrypts the request packet through a private key and obtains a signature, and the authentication server obtains the signature information;

in step S6, the encrypted analysis information is sent to a cloud database, the cloud database constructs a firewall for the encrypted analysis information, each user constructs a firewall, and if the user has constructed the firewall, the firewall is directly opened if the encrypted analysis information is backed up in the cloud database;

in step S1: when the data aggregation platform acquires multi-path data information, a user sends a request packet to an authentication server, the authentication server constructs a response packet, and the user completes identity verification by decrypting the response packet, wherein the success or failure of the identity verification comprises the following two conditions;

(a) Verification is successful: the data aggregation platform starts a transmission channel and acquires multi-path data information from a plurality of databases;

(b) Verification failure: the data aggregation platform closes the transmission channel, and cannot acquire data information from a plurality of databases;

in step S2, the transmission channel security mode adopts different encryption strategies according to the data format information, and meanwhile, the buffer status is monitored in the security mode, and when the buffer is abnormal, the data aggregation platform sends a reminder to the user.

2. The method for real-time aggregation of multiple data according to claim 1, wherein: in step S3, after screening the real-time data information, the data aggregation platform transmits the stable real-time data and the timestamp to the database for storage.

3. The method for real-time aggregation of multiple data according to claim 1, wherein: in step S7, when the user closes the platform, the data aggregation platform may alert the user, and the user confirms whether to store the encrypted analysis information.

4. The utility model provides a terminal of multichannel data real-time aggregation, includes connected system, signal transmission system and processing system, its characterized in that: the connection system being for connecting a database and a server, the signal transmission system being for information transmission between the database and the server, the connection system, the signal transmission system and the processing system being for a user to perform any of the claims 1-3 on a terminal.