CN116881880B - Space-time data management system and space-time data service resource cooperative scheduling method - Google Patents

Abstract

The application relates to the technical field of space-time data management and call, and particularly discloses a space-time data management system and a space-time data service resource collaborative scheduling method, wherein the system comprises the following steps: the application extracts the time-space data according to the point element, the line element and the surface element through the knowledge graph, thereby obtaining the data monomer taking the point element, the line element and the surface element as the classification basis, classifying and storing the data monomer in the same time domain, classifying and managing the time-space data, and simultaneously, setting the corresponding calling authority for each user client for the convenience of scheduling and facilitating the management of the user client.

Description

Space-time data management system and space-time data service resource cooperative scheduling method

Technical Field

The application relates to the technical field of space-time data management and call, in particular to a space-time data management system and a space-time data service resource collaborative scheduling method.

Background

In general, when a client requests data from a web page or a platform, a returned data format cannot be selected, and a corresponding data format converter is often required to be equipped at the client to perform corresponding data disassembly. This makes some data translators incompatible in different application systems, but the client cannot translate the data, because there is some difference between the application systems used by the different clients.

Disclosure of Invention

In view of the above, the present application aims to provide a space-time data management system and a space-time data service resource collaborative scheduling method.

To achieve the above object, the present application provides a spatio-temporal data management system, comprising:

the processing module is provided with an execution program and is used for receiving the space-time data, inputting the space-time data into a knowledge graph, and extracting the space-time data by utilizing preset point elements, line elements and surface elements in the knowledge graph to respectively obtain data monomers with the point elements, the line elements and the surface elements;

a memory for storing the execution program and corresponding data monomers corresponding to the point element, the line element and the surface element, and forming a corresponding storage list;

the permission configuration module is used for configuring the calling permissions of the user client, configuring a control thread for each calling permission, and storing the control threads to the rule manager, wherein at least one calling permission is configured to call the storage list based on the calling content contained in the calling request sent by the client, and the data monomers stored in the storage are correspondingly acquired through the retrieval of the retrieval list;

and after receiving the control threads, the rule manager generates a control indicator for each control thread, and the control indicator is used for correspondingly matching the calling authority of the user client.

The application also discloses a space-time data service resource cooperative scheduling method, which comprises the following steps:

receiving a call request of time-setting data sent by a user client, configuring a control thread for each call authority based on at least one call authority of the user client corresponding to the call request, storing the control thread to a rule manager, generating a control indicator for each control thread after the rule manager receives the control thread, and sending the control indicator to the user client;

the user client obtains the corresponding calling authority based on the control indicator, simultaneously starts a data management script, runs a script control instruction in the data management script to call the authority so as to load a set data processing mode, and writes response data of the calling authority corresponding to the control thread in the rule manager;

and calling a corresponding database based on the request content to obtain a data monomer matching the request content, and generating a corresponding data format for the data monomer according to the data processing mode to call to the user client.

Further, receiving a call request of space-time data sent by a user client, analyzing the call request, acquiring user basic data information and request content contained in the call request, and calling a rule manager bound with the user client to perform authority verification on the user basic data information; based on the result of the rights verification, it is checked whether the user client has at least one or more call rights.

Further, the user client side generates an activation instruction corresponding to the selection of the control indicator, and sends the activation instruction to the rule manager to activate the matched control thread so as to obtain the corresponding calling authority.

Further, the method for analyzing the call request and obtaining the user basic data information and the request content contained in the call request comprises the following steps:

calling an analysis plug-in, running an analysis program in the analysis plug-in, detecting grammar rules of the call request based on the analysis program, and configuring analysis parameters based on the grammar rules;

calling a plurality of analytic functions of corresponding types based on the analytic parameters, writing the analytic functions into an analytic program, and configuring analytic rules and identification parameters;

the method comprises the steps of dividing a call request into a data entity and a non-data entity by an analysis rule, importing the data entity into a data entity area, importing the non-data entity into the non-data entity area, identifying and detecting whether corresponding association codes exist in association bits according to identification parameters in the data entity area, acquiring configuration bits and data code bits from the data entity area, calling user codes and function codes from the configuration bits, calling user basic data information of a user client from a registry based on the user codes, calling a corresponding analysis function based on the function codes to acquire a content phrase in the call request, loading a corresponding driver program by utilizing the data code bits to run a corresponding analysis script, and searching corresponding request content from the entity database based on the analysis script loading entity database according to the content phrase.

Further, a first analysis response instruction is correspondingly generated in the editor by using the function code and the analysis function corresponding to the function code, a second analysis response instruction is correspondingly generated in the editor by using the data code bit and the driver corresponding to the data code, the first analysis response instruction and the second analysis response instruction are written into the non-data entity area for storage, the association code is written into the association bit of the data entity area, and the first analysis response instruction and the second analysis response instruction are associated through the association code.

Further, the data processing mode is a processing method of a data interaction format provided for various platforms or web pages, and at least includes:

(1) a processing mode of a data format having json as a main body;

(2) a processing schema in a data format with XML as a body.

The application extracts the time space data according to the point element, the line element and the surface element through the knowledge graph, thereby obtaining the data monomer taking the point element, the line element and the surface element as the classification basis, and storing the data monomer in the same time domain in a classification mode so as to realize the classification management of the time space data.

The application provides a technical scheme for selecting a data format correspondingly through a client, when receiving a call request of spatiotemporal data sent by a user client, analyzing the call request to acquire user basic data information and request content contained in the call request, on one hand, calling a registry to check whether the user client is a registered user based on the user basic data information, if so, then calling a rule manager bound to the user client to verify the user authority by the user basic data information, checking whether the user client has at least more than one call authority based on the verification result of the user authority, configuring a control thread for each call authority, storing the control thread to the rule manager, generating a control indicator for each control thread after the rule manager receives the control thread, and transmitting the control indicator to the user client correspondingly; activating a corresponding control thread based on an activation instruction formed by the selection of the control indicator by the user client so as to obtain matched calling authority, simultaneously enabling a data management script, running a script control instruction in the data management script so as to call the authority to load a set data processing mode, and generating a corresponding data format for requesting data content based on the data processing mode so as to call the data processing mode to the user client. In this way, the user client does not have to perform additional processing on the data format.

Drawings

FIG. 1 is a schematic diagram of a system frame of the present application;

FIG. 2 is a flow chart of the method of the present application;

FIG. 3 is a flow chart of the parsing method of the present application;

fig. 4 is a schematic diagram of the framework of the rule manager in the system of the present application.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1:

referring to fig. 1, the present application provides a spatiotemporal data management system, comprising:

the processing module is provided with an execution program and is used for receiving the space-time data, inputting the space-time data into a knowledge graph, and extracting the space-time data by utilizing preset point elements, line elements and surface elements in the knowledge graph to respectively obtain data monomers with the point elements, the line elements and the surface elements;

a memory for storing the execution program and corresponding data monomers corresponding to the point element, the line element and the surface element, and forming a corresponding storage list;

the permission configuration module is used for configuring the calling permissions of the user client, configuring a control thread for each calling permission, and storing the control threads to the rule manager, wherein at least one calling permission is configured to call the storage list based on the calling content contained in the calling request sent by the client, and the data monomers stored in the storage are correspondingly acquired through the retrieval of the retrieval list;

and after receiving the control threads, the rule manager generates a control indicator for each control thread, and the control indicator is used for correspondingly matching the calling authority of the user client.

The application extracts the time-space data according to the point element, the line element and the surface element through the knowledge graph, thereby obtaining the data monomer taking the point element, the line element and the surface element as the classification basis, storing the data monomer in the same time domain in a classified mode, and managing the time-space data in a classified mode.

In order to facilitate the implementation of the present application, the user client needs to complete the following operations first.

Service registration: a) The interface service of the application system, such as swagger and interface platform, can be automatically registered, and the service metadata can be acquired and recorded. b) Monitoring of services and request (user authentication) interception and the like are performed by an interceptor or rule manager simultaneously according to user selection binding after service registration (for example: user authentication interceptors, user log recorders, etc.). C) The user calls the service interface according to the authority, various authorities which can be obtained by the user are integrated in a large amount on a webpage or a platform, when the user registers, the platform or the webpage correspondingly writes the opened authority paths into a registration system, the user selects the available authorities, and after the registration is successful, the authority paths can be obtained by corresponding initialization. In addition, there are some general functions such as:

dynamic monitoring of service anomalies: for example, if no service authority is available, the service can fail quickly, and if the service is abnormal, the service can fail quickly.

Service call: for subscribed services, when the services have data updating, data pushing can be performed for subscribed users in time; b) The service call system calls the registered service to the user needing the service call.

Based on the foregoing, the present application provides the following examples to describe the present application in detail.

Example 2:

referring to fig. 2 and fig. 3, the present application also discloses a method for collaborative scheduling of space-time data service resources, which includes the following steps:

receiving a call request of time-setting data sent by a user client, configuring a control thread for each call authority based on at least one call authority of the user client corresponding to the call request, storing the control thread to a rule manager, generating a control indicator for each control thread after the rule manager receives the control thread, and sending the control indicator to the user client;

the user client obtains the corresponding calling authority based on the control indicator, simultaneously starts a data management script, runs a script control instruction in the data management script to call the authority so as to load a set data processing mode, and writes response data of the calling authority corresponding to the control thread in the rule manager;

and calling a corresponding database based on the request content to obtain a data monomer matching the request content, and generating a corresponding data format for the data monomer according to the data processing mode to call to the user client.

Further, receiving a call request of space-time data sent by a user client, analyzing the call request, acquiring user basic data information and request content contained in the call request, and calling a rule manager bound with the user client to perform authority verification on the user basic data information; based on the result of the rights verification, it is checked whether the user client has at least one or more call rights.

Further, the user client side generates an activation instruction corresponding to the selection of the control indicator, and sends the activation instruction to the rule manager to activate the matched control thread so as to obtain the corresponding calling authority.

Further, the method for analyzing the call request and obtaining the user basic data information and the request content contained in the call request comprises the following steps:

calling an analysis plug-in, running an analysis program in the analysis plug-in, detecting grammar rules of the call request based on the analysis program, and configuring analysis parameters based on the grammar rules;

calling a plurality of analytic functions of corresponding types based on the analytic parameters, writing the analytic functions into an analytic program, and configuring analytic rules and identification parameters;

the method comprises the steps of dividing a call request into a data entity and a non-data entity by an analysis rule, importing the data entity into a data entity area, importing the non-data entity into the non-data entity area, identifying and detecting whether corresponding association codes exist in association bits according to identification parameters in the data entity area, acquiring configuration bits and data code bits from the data entity area, calling user codes and function codes from the configuration bits, calling user basic data information of a user client from a registry based on the user codes, calling a corresponding analysis function based on the function codes to acquire a content phrase in the call request, loading a corresponding driver program by utilizing the data code bits to run a corresponding analysis script, and searching corresponding request content from the entity database based on the analysis script loading entity database according to the content phrase.

Further, a first analysis response instruction is correspondingly generated in the editor by using the function code and the analysis function corresponding to the function code, a second analysis response instruction is correspondingly generated in the editor by using the data code bit and the driver corresponding to the data code, the first analysis response instruction and the second analysis response instruction are written into the non-data entity area for storage, the association code is written into the association bit of the data entity area, and the first analysis response instruction and the second analysis response instruction are associated through the association code.

In the above, the analysis plug-in is an extension plug-in set on a web page or a platform, and is also a general plug-in, and the general analysis plug-in can run corresponding general analysis programs according to different usage functions, and the general analysis programs can automatically load various analysis functions to analyze targets according to set requirements. Meanwhile, the formation of any client request instruction comprises request content information and user basic information, the user basic information is main information for verifying the user identity and the authority available to the user, the analysis plug-in does not need to carry out complex operation again for the same request instruction, when the operation is repeated, the data entity area is firstly identified according to the identification parameters and whether the associated bit has corresponding associated codes or not is detected, if the corresponding codes exist, a first analysis response instruction and a second analysis response instruction are acquired from the non-data entity area through the associated codes, the user codes are obtained through the first analysis response instruction, and the user basic data information of the user client is called out from the registry based on the user codes; and acquiring a function code by using a second analysis response instruction, acquiring a content phrase in the space-time data call request based on an analysis function corresponding to the function code call, and loading a corresponding driver by using a data code bit to run a corresponding analysis script, wherein the analysis script loads an entity database and retrieves corresponding request content from the entity database according to the content phrase. Thus, the analysis processing process is shortened, and the analysis efficiency is quickened.

In the foregoing, the data processing mode is a process of providing a data interaction format for various platforms or web pages, and at least includes:

(1) a processing mode of a data format having json as a main body;

(2) a processing schema in a data format with XML as a body.

The above-mentioned method further includes, when the period T is set, processing the response data written in the rule manager, setting the activation frequency of the control thread according to the number of times the response data is written, and setting the priority of the control thread based on the corresponding activation frequency. By setting the priority, the control threads which are used by high frequency can be analyzed at a later stage, and the control threads which are used by low frequency can be set by the processor based on the priority, so that the use resources obtained when the control threads run can be set, larger use resources can be provided for the high frequency control threads, and the running capacity of the high frequency control threads can be improved.

The principle of the application is as follows: the application provides a technical scheme for selecting a data format correspondingly through a client, when a space-time data call request sent by a user client is received, analyzing the call request to acquire user basic data information and request content contained in the call request, specifically, when the call request is analyzed, calling an analysis plug-in, running an analysis program in the analysis plug-in, detecting grammar rules of the call request based on the analysis program, and configuring analysis parameters corresponding to the grammar rules; calling a plurality of analytic functions of corresponding types based on the analytic parameters, writing the analytic functions into an analytic program, and configuring analytic rules and identification parameters; the method comprises the steps of dividing a space-time data call request into a data entity and a non-data entity by an analysis rule, importing the data entity into a data entity area, importing the non-data entity into the non-data entity area, identifying and detecting whether corresponding association codes exist in association bits according to identification parameters in the data entity area, acquiring configuration bits and data code bits from the data entity area, calling user codes and function codes from the configuration bits, calling user basic data information of a user client from a registry based on the user codes, calling a corresponding analysis function based on the function codes to acquire a content phrase in the space-time data call request, loading a corresponding driver program by utilizing the data code bits to run a corresponding analysis script, and searching corresponding request content from the entity database by the analysis script loading entity database according to the content phrase.

After obtaining user basic data information and request content, on one hand, calling a registry to check whether a user client is a registered user based on the user basic data information, if so, then calling a rule manager bound by the user client to verify user rights by the user basic data information, checking whether the user client has at least one calling right based on a verification result of the user rights, configuring a control thread for each calling right, storing the control thread into the rule manager, generating a control indicator for each control thread after the rule manager receives the control thread, and transmitting the control indicator to the user client; activating a corresponding control thread based on an activation instruction formed by the selection of the control indicator by the user client so as to obtain matched calling authority, simultaneously enabling a data management script, running a script control instruction in the data management script so as to call the authority to load a set data processing mode, and generating a corresponding data format for requesting data content based on the data processing mode so as to call the data processing mode to the user client. In this way, the user client does not have to perform additional processing on the data format.

Example 3:

referring to fig. 4, the present application provides a space-time data service resource cooperative scheduling system, which includes:

a processor and a rule manager;

the rule manager is provided with an analysis plug-in, a verification module, a configuration module, a response module, an execution module and a storage module which can run on the processor;

the analysis plug-in is used for receiving a call request of the space-time data sent by the user client, analyzing the call request and obtaining user basic data information and request content contained in the call request;

the verification module is connected with the analysis plug-in and is used for calling the registry and checking whether the user client is a registered user based on the user basic data information, if yes, a rule manager bound by the user client is called again to verify the user authority by the user basic data information, and whether the user client has at least one calling authority is checked based on the verification result of the user authority;

the configuration module is connected with the verification module and the storage module and is used for configuring a control thread for each calling authority when the verification module verifies that the user client has at least one calling authority, storing the control thread into the storage module, generating a control indicator for each control thread and transmitting the control indicator to the user client correspondingly;

the response module is connected with the storage module and is used for activating the corresponding control thread based on an activation instruction formed by the selection of the control indicator by the user client so as to obtain matched calling authority, and simultaneously, starting a data management script, and running a script control instruction in the data management script so as to call the authority and load a set data processing mode;

the execution module is connected with the response module, calls a corresponding database based on the request content to obtain a data monomer matched with the request content, and generates a corresponding data format according to the data processing mode for calling to the user client.

Further, the parsing plug-in has:

the system comprises an analysis program capable of running on a processor, a detection unit, a first configuration unit, a second configuration unit, a calling unit and a data storage area;

the detection unit is used for detecting grammar rules of the call request;

the first configuration unit is connected with the detection unit and is used for configuring corresponding analysis parameters based on grammar rules;

the calling unit is connected with the first configuration unit and is used for calling a plurality of analytic functions of corresponding types based on the analytic parameters and writing the analytic functions into the analytic program;

the second configuration unit is connected with the analysis program and is used for configuring analysis rules and identification parameters of the analysis program;

the data storage area is configured to have a data entity area and a non-data entity area, the data entity is imported to the data entity area, and the non-data entity is imported to the non-data entity area;

identifying and detecting whether the associated bit has the corresponding associated code or not according to the identification parameter for the data entity area, and if not, acquiring the configuration bit and the data code bit from the data entity area;

calling out user codes and function codes from the configuration bits, and calling out user basic data information of a user client from a registry based on the user codes;

and acquiring a content phrase in the space-time data call request based on the function code call corresponding analysis function, and loading a corresponding driver program by utilizing a data code bit to run a corresponding analysis script, wherein the analysis script loads an entity database to retrieve corresponding request content from the entity database according to the content phrase.

In the above, the analysis plug-in is an extension plug-in set on a web page or a platform, and is also a general plug-in, and the general analysis plug-in can run corresponding general analysis programs according to different usage functions, and the general analysis programs can automatically load various analysis functions to analyze targets according to set requirements. Meanwhile, the formation of any client request instruction comprises request content information and user basic information, the user basic information is main information for verifying the user identity and the authority available to the user, the analysis plug-in does not need to carry out complex operation again for the same request instruction, when the operation is repeated, the data entity area is firstly identified according to the identification parameters and whether the associated bit has corresponding associated codes or not is detected, if the corresponding codes exist, a first analysis response instruction and a second analysis response instruction are acquired from the non-data entity area through the associated codes, the user codes are obtained through the first analysis response instruction, and the user basic data information of the user client is called out from the registry based on the user codes; and acquiring a function code by using a second analysis response instruction, acquiring a content phrase in the space-time data call request based on an analysis function corresponding to the function code call, and loading a corresponding driver by using a data code bit to run a corresponding analysis script, wherein the analysis script loads an entity database and retrieves corresponding request content from the entity database according to the content phrase. Thus, the analysis processing process is shortened, and the analysis efficiency is quickened.

Further, the non-data entity area is configured to store:

a first analysis response instruction is correspondingly generated in the editor by using the function code and the analysis function corresponding to the function code;

a second analysis response instruction is correspondingly generated in the editor by a driving program corresponding to the data code bit and the data code;

writing an association code in an association bit of the data entity area, and associating the first analysis response instruction with the second analysis response instruction through the association code.

Further, the data processing mode at least includes:

(1) a processing mode of a data format having json as a main body;

(2) a processing schema in a data format with XML as a body.

The principle of the application is as follows: the application provides a technical scheme for selecting a data format correspondingly through a client, when a space-time data call request sent by a user client is received, analyzing the call request to acquire user basic data information and request content contained in the call request, specifically, when the call request is analyzed, calling an analysis plug-in, running an analysis program in the analysis plug-in, detecting grammar rules of the call request based on the analysis program, and configuring analysis parameters corresponding to the grammar rules; calling a plurality of analytic functions of corresponding types based on the analytic parameters, writing the analytic functions into an analytic program, and configuring analytic rules and identification parameters; the method comprises the steps of dividing a space-time data call request into a data entity and a non-data entity by an analysis rule, importing the data entity into a data entity area, importing the non-data entity into the non-data entity area, identifying and detecting whether corresponding association codes exist in association bits according to identification parameters in the data entity area, acquiring configuration bits and data code bits from the data entity area, calling user codes and function codes from the configuration bits, calling user basic data information of a user client from a registry based on the user codes, calling a corresponding analysis function based on the function codes to acquire a content phrase in the space-time data call request, loading a corresponding driver program by utilizing the data code bits to run a corresponding analysis script, and searching corresponding request content from the entity database by the analysis script loading entity database according to the content phrase.

After obtaining user basic data information and request content, on one hand, calling a registry to check whether a user client is a registered user based on the user basic data information, if so, then calling a rule manager bound by the user client to verify user rights by the user basic data information, checking whether the user client has at least one calling right based on a verification result of the user rights, configuring a control thread for each calling right, storing the control thread into the rule manager, generating a control indicator for each control thread after the rule manager receives the control thread, and transmitting the control indicator to the user client; activating a corresponding control thread based on an activation instruction formed by the selection of the control indicator by the user client so as to obtain matched calling authority, simultaneously enabling a data management script, running a script control instruction in the data management script so as to call the authority to load a set data processing mode, and generating a corresponding data format for requesting data content based on the data processing mode so as to call the data processing mode to the user client. In this way, the user client does not have to perform additional processing on the data format.

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

Claims (7)

1. A spatio-temporal data management system, comprising:

the processing module is provided with an execution program and is used for receiving the space-time data, inputting the space-time data into a knowledge graph, and extracting the space-time data by utilizing preset point elements, line elements and surface elements in the knowledge graph to respectively obtain data monomers with the point elements, the line elements and the surface elements;

a memory for storing the execution program and corresponding data monomers corresponding to the point element, the line element and the surface element, and forming a corresponding storage list;

the permission configuration module is used for configuring the calling permissions of the user client, configuring a control thread for each calling permission, and storing the control threads to the rule manager, wherein at least one calling permission is configured to call the storage list based on the calling content contained in the calling request sent by the client, and the data monomers stored in the storage are correspondingly acquired through the retrieval of the retrieval list;

and after receiving the control threads, the rule manager generates a control indicator for each control thread, and the control indicator is used for correspondingly matching the calling authority of the user client.

2. The method for collaborative scheduling of spatio-temporal data service resources, comprising the spatio-temporal data management system of claim 1, is characterized by comprising the steps of:

receiving a call request of time-setting data sent by a user client, configuring a control thread for each call authority based on at least one call authority of the user client corresponding to the call request, storing the control thread to a rule manager, generating a control indicator for each control thread after the rule manager receives the control thread, and sending the control indicator to the user client;

the user client obtains the corresponding calling authority based on the control indicator, simultaneously starts a data management script, runs a script control instruction in the data management script to call the authority so as to load a set data processing mode, and writes response data of the calling authority corresponding to the control thread in the rule manager;

and calling a corresponding database based on the request content to obtain a data monomer matching the request content, and generating a corresponding data format for the data monomer according to the data processing mode to call to the user client.

3. The method for collaborative scheduling of spatio-temporal data serving resources according to claim 2, wherein a call request of spatio-temporal data sent by a user client is received, the call request is parsed, user basic data information and request content contained in the call request are obtained, and a rule manager bound with the user client is called to perform authority verification on the user basic data information; based on the result of the rights verification, it is checked whether the user client has at least one or more call rights.

4. The spatio-temporal data servitization resource cooperative scheduling method of claim 2, wherein the user client generates an activation instruction corresponding to selection of a control indicator, and sends the activation instruction to a rule manager to activate a matched control thread to obtain a corresponding call authority.

5. The collaborative scheduling method for spatio-temporal data-based resource according to claim 3, wherein the method for parsing the call request to obtain user basic data information and request content included in the call request comprises:

calling an analysis plug-in, running an analysis program in the analysis plug-in, detecting grammar rules of the call request based on the analysis program, and configuring analysis parameters based on the grammar rules;

calling a plurality of analytic functions of corresponding types based on the analytic parameters, writing the analytic functions into an analytic program, and configuring analytic rules and identification parameters;

the method comprises the steps of dividing a call request into a data entity and a non-data entity by an analysis rule, importing the data entity into a data entity area, importing the non-data entity into the non-data entity area, identifying and detecting whether corresponding association codes exist in association bits according to identification parameters in the data entity area, acquiring configuration bits and data code bits from the data entity area, calling user codes and function codes from the configuration bits, calling user basic data information of a user client from a registry based on the user codes, calling a corresponding analysis function based on the function codes to acquire a content phrase in the call request, loading a corresponding driver program by utilizing the data code bits to run a corresponding analysis script, and searching corresponding request content from the entity database based on the analysis script loading entity database according to the content phrase.

6. The collaborative scheduling method for space-time data servitization resources according to claim 5, wherein a first parsing response instruction is correspondingly generated in an editor by using a parsing function corresponding to function codes and function codes, a second parsing response instruction is correspondingly generated in the editor by using a driver corresponding to data code bits and data codes, the first parsing response instruction and the second parsing response instruction are written into a non-data entity area for storage, an association code is written into an association bit of the data entity area, and the first parsing response instruction and the second parsing response instruction are associated through the association code.

7. The method for collaborative scheduling of spatio-temporal data-servitization resources according to claim 2, wherein the data processing mode is a processing method of a data interaction format provided for various platforms or web pages, and at least comprises:

(1) a processing mode of a data format having json as a main body;

(2) a processing schema in a data format with XML as a body.