CN114297219A - Multi-service query processing method for quickly realizing data cross-domain - Google Patents

Abstract

The invention relates to the technical field of data query, and discloses a multi-service query processing method for quickly realizing data cross-domain, which comprises the following steps: the method comprises the steps that a user opens a system A page, an operator calls a search window from the system A after passing authentication, the user inputs a query instruction in the search window, an operation page receives an operator request, the system A judges the operator request, the system A analyzes the operator request, the system A classifies the operator request, the system A sends a cross-domain request to the system B according to the classified request, the system B feeds back the cross-domain request and carries out page jump, the user directly enters a main interface of the system B, the system B carries out self-retrieval according to the query instruction in the system A, and the system B screens a retrieval result and feeds back the retrieval result to the user. The method for rapidly realizing the cross-domain multi-service query processing of the data has the advantages that because an intermediate system is not provided, a large amount of intermediate transmission work is reduced, and the query speed is greatly improved.

Description

Multi-service query processing method for quickly realizing data cross-domain

Technical Field

The invention relates to the technical field of data query, in particular to a multi-service query processing method for quickly realizing data cross-domain.

Background

Efficient utilization of data is the basis for efficient operation of an enterprise. In the current information explosion era, with the development of mobile internet, cloud computing and internet of things, video monitoring and intelligent terminals, information is growing at an incredible speed every day, the variety is continuously expanding, more and more unstructured data starts to emerge (including various reports, forms, electronic documents, various elements of websites, pictures, faxes, scanned images, a large amount of multimedia audio and video information and the like, and data generated by various B/S, C/S application systems), and the precious information resources are urgently required to be effectively managed and recycled.

However, in the prior art, when multi-service query of data cross-domain is performed, since different data providers have different data interfaces or databases, the error code rate is too high, the response speed is slow, certain functions cannot be realized, and the like, a plurality of software manufacturers need to be coordinated, the workload is large, and tail rot easily occurs, so that the invention provides a multi-service query processing method for quickly realizing data cross-domain.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a multi-service query processing method for quickly realizing data cross-domain, which has the advantages of high query speed, low error rate, complete functions and the like and solves the problems in the prior art.

In order to realize the purposes of high query speed, low error rate and complete functions, the invention provides the following technical scheme: a multi-service query processing method for quickly realizing data cross-domain comprises the following steps:

1) the user opens the page of the system A, the system A performs identity authentication, the system is normally used if the authentication is passed, and the system is automatically closed after 30 seconds if the authentication is failed;

2) the operator calls out the search window from the system A after passing the authentication;

3) a user inputs a query instruction in a search window, and an operation page receives an operator request;

4) the system A judges the operator request, whether the request can be directly inquired and fed back in the system A or not is judged, and two judgment results of 'Y' and 'N' exist in the system;

5) the system A analyzes the operator request, and classifies the operator request;

6) and the system A carries out the next process according to the judgment result:

s1, if the judgment result is 'Y', directly calling the database in the system A and feeding back the data to the operator;

s2 if the result is 'N', the system A sends out cross-domain request to the system B according to the classified request;

7) the system B receives a cross-domain request;

8) the system B feeds back a cross-domain request, page skipping is carried out, and a user directly enters a main interface of the system B;

9) the system B carries out self-retrieval according to the query instruction in the system A;

9) the system B feeds the retrieval result back to the user;

10) the user can carry out screening through secondary retrieval according to the feedback data, and the system B screens the retrieval result and feeds the retrieval result back to the user;

11) after the user finishes browsing, the user can choose to stay at the main interface of the B system or return to the section of the search window of the A system.

Further, the system A and the system B are only code numbers, the number of the system A and the number of the system B are not less than two, and data integrated in all the system A and the system B are different.

Further, the system A and the system B are provided with independent databases, all the systems are jointly built with a classification database, and the step 4) and the step 5) are carried out simultaneously.

Further, the classification database is communicated with all the systems A and B, classification identifiers and identity authentication identifiers are stored in the classification database, and different classification identifiers correspond to different systems.

Further, the identity authentication mode comprises short message authentication, WeChat authentication, QQ authentication and mailbox authentication, the identity authentication has three authentication opportunities, and when none of the three authentication opportunities passes, a system where the user is located can be automatically locked for 2 minutes.

Further, when the system B receives the cross-domain request, the system B may again authenticate the user.

Compared with the prior art, the invention provides a multi-service query processing method for quickly realizing data cross-domain, which has the following beneficial effects:

the method for rapidly realizing the cross-domain data multi-service query processing comprises the steps of establishing a public classification database in all systems, classifying identifiers and identity authentication identifiers in the classification database, so that a user can enter the cross sections of other systems through the current system after primary authentication when operating, classifying query services by the current system to obtain a classification identifier when the user needs to query services, directly entering the system to which the classification identifier belongs through the classification identifier, namely skipping the current system for direct query, reducing a large amount of intermediate transmission work due to the absence of an intermediate system, greatly improving the query speed, greatly reducing the error rate, and realizing all functions of the system after the user enters other systems.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: a multi-service query processing method for quickly realizing data cross-domain comprises the following steps:

1) the user opens the page of the system A, the system A performs identity authentication, the system is normally used if the authentication is passed, and the system is automatically closed after 30 seconds if the authentication is failed;

2) the operator calls out the search window from the system A after passing the authentication;

3) a user inputs a query instruction in a search window, and an operation page receives an operator request;

4) the system A judges the operator request, whether the request can be directly inquired and fed back in the system A or not is judged, and two judgment results of 'Y' and 'N' exist in the system;

5) the system A analyzes the operator request, and classifies the operator request;

6) and if the judgment result is 'Y', directly calling the database in the system A and feeding back the data to an operator.

In this embodiment, the system a and the system B are only code numbers, the number of the system a and the number of the system B are not less than two, and data integrated inside in all the system a and the system B are not the same.

In this embodiment, the system a and the system B are both provided with independent databases, and all the systems are jointly established with one classification database, and step 4) and step 5) are performed simultaneously.

In this embodiment, the classification database is communicated with all the systems a and B, the classification database stores classification identifiers and identity authentication identifiers, and different classification identifiers correspond to different systems.

In this embodiment, the authentication method includes short message authentication, WeChat authentication, QQ authentication, and mailbox authentication, and the authentication method has three authentication opportunities, and when none of the three authentication opportunities passes, the system where the user is located is automatically locked for 2 minutes.

Example 2: a multi-service query processing method for quickly realizing data cross-domain comprises the following steps:

1) the user opens the page of the system A, the system A performs identity authentication, the system is normally used if the authentication is passed, and the system is automatically closed after 30 seconds if the authentication is failed;

2) the operator calls out the search window from the system A after passing the authentication;

3) a user inputs a query instruction in a search window, and an operation page receives an operator request;

4) the system A judges the operator request, whether the request can be directly inquired and fed back in the system A or not is judged, and two judgment results of 'Y' and 'N' exist in the system;

5) the system A analyzes the operator request, and classifies the operator request;

6) if the judgment result is 'N', the system A sends a cross-domain request to the system B according to the classified request;

7) the system B receives a cross-domain request;

8) the system B feeds back a cross-domain request, page skipping is carried out, and a user directly enters a main interface of the system B;

9) the system B carries out self-retrieval according to the query instruction in the system A;

9) the system B feeds the retrieval result back to the user;

10) the user can carry out screening through secondary retrieval according to the feedback data, and the system B screens the retrieval result and feeds the retrieval result back to the user;

11) after the user finishes browsing, the user can choose to stay at the main interface of the B system or return to the section of the search window of the A system.

In this embodiment, the system a and the system B are only code numbers, the number of the system a and the number of the system B are not less than two, and data integrated inside in all the system a and the system B are not the same.

In this embodiment, the system a and the system B are both provided with independent databases, and all the systems are jointly established with one classification database, and step 4) and step 5) are performed simultaneously.

In this embodiment, the classification database is communicated with all the systems a and B, the classification database stores classification identifiers and identity authentication identifiers, and different classification identifiers correspond to different systems.

In this embodiment, the authentication method includes short message authentication, WeChat authentication, QQ authentication, and mailbox authentication, and the authentication method has three authentication opportunities, and when none of the three authentication opportunities passes, the system where the user is located is automatically locked for 2 minutes.

In this embodiment, when the system B receives the cross-domain request, the system B may enable the user to perform the identity authentication again.

The beneficial effects of the above embodiment are as follows: the method for rapidly realizing the cross-domain data multi-service query processing comprises the steps of establishing a public classification database in all systems, classifying identifiers and identity authentication identifiers in the classification database, so that a user can enter the cross section of other systems through the current system after primary authentication when operating, classifying query services to obtain a classification identifier by the current system when needing to query services, directly entering the system to which the classification identifier belongs through the classification identifier, namely directly querying by skipping the current system, greatly improving the query speed due to the absence of an intermediate system and reducing the error rate, and realizing all functions of the system after the user enters other systems

The electrical components shown herein are electrically connected to a main controller and a power supply, the main controller can be a conventional known device controlled by a computer, and the conventional power connection technology disclosed in the prior art is not described in detail herein.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A multi-service query processing method for quickly realizing data cross-domain is characterized by comprising the following steps:

1) the user opens the page of the system A, the system A performs identity authentication, the system is normally used if the authentication is passed, and the system is automatically closed after 30 seconds if the authentication is failed;

2) the operator calls out the search window from the system A after passing the authentication;

3) a user inputs a query instruction in a search window, and an operation page receives an operator request;

4) the system A judges the operator request, whether the request can be directly inquired and fed back in the system A or not is judged, and two judgment results of 'Y' and 'N' exist in the system;

5) the system A analyzes the operator request, and classifies the operator request;

6) and the system A carries out the next process according to the judgment result:

s1, if the judgment result is 'Y', directly calling the database in the system A and feeding back the data to the operator;

s2 if the result is 'N', the system A sends out cross-domain request to the system B according to the classified request;

7) the system B receives a cross-domain request;

8) the system B feeds back a cross-domain request, page skipping is carried out, and a user directly enters a main interface of the system B;

9) the system B carries out self-retrieval according to the query instruction in the system A;

9) the system B feeds the retrieval result back to the user;

10) the user can carry out screening through secondary retrieval according to the feedback data, and the system B screens the retrieval result and feeds the retrieval result back to the user;

11) after the user finishes browsing, the user can choose to stay at the main interface of the B system or return to the section of the search window of the A system.

2. The method for multi-service query processing to quickly realize data cross-domain according to claim 1, characterized in that: the system A and the system B are only code numbers, the number of the system A and the number of the system B are not less than two, and data integrated in all the system A and the system B are different.

3. The method for multi-service query processing to quickly implement data cross-domain according to claim 2, wherein: the system A and the system B are respectively provided with independent databases, and all the systems are jointly built with a classification database, and the step 4) and the step 5) are carried out simultaneously.

4. The method for rapidly implementing multi-service query processing across data domains according to claim 3, wherein: the classification database is communicated with all the systems A and B, classification marks and identity authentication marks are stored in the classification database, and different classification marks correspond to different systems.

5. The method for rapidly implementing multi-service query processing across data domains according to claim 4, wherein: the identity authentication mode comprises short message authentication, WeChat authentication, QQ authentication and mailbox authentication, the identity authentication has three authentication opportunities, and when none of the three authentication opportunities passes, a system where a user is located can be automatically locked for 2 minutes.

6. The method for rapidly implementing multi-service query processing across data domains according to claim 5, wherein: and when the system B receives the cross-domain request, the system B enables the user to perform identity authentication again.