CN115643217B - Low code central system for interface management - Google Patents

Abstract

The invention relates to the technical field of data transmission, in particular to a low code center system for interface management, which comprises an interface, a management center, an instruction identification module, an address identification module and a timing module, wherein the management center integrates data acquired by the instruction identification module, the address identification module and the timing module and automatically adjusts the instruction content allowed by the interface and the data volume allowed by the instruction. The intelligent interface data transmission system increases the intelligence of interface data transmission by self-adjusting the instruction content allowed by the interface and the data volume allowed by the instruction through the management center, and simultaneously improves the data transmission speed by self-adjusting the instruction content allowed by the interface and the data volume allowed by the instruction.

Description

Low code central system for interface management

Technical Field

The invention relates to the technical field of data transmission, in particular to a low code central nervous system for interface management.

Background

The data transmission interface is a transmission component which is connected with an upper computer and realizes the functions of uploading and downloading, data synchronization, electronic sharing and the like.

Chinese patent publication no: CN1791016A discloses a multi-interface port management system and method for managing forwarding devices supporting hybrid multi-interface ports. This type of device supports multiple physical ports, each port supporting multiple interface media. The interface media supported in each port may be of different media types, such as one copper and the other fiber.

When carrying out data transmission through data interface at present, too single to setting up of transmission, can't adjust the instruction content of transmission data by oneself through the host computer, the transmission course is intelligent inadequately.

Disclosure of Invention

Therefore, the invention provides a low-code central system for interface management, which is used for solving the problems that in the prior art, when data transmission is carried out through a data interface, the transmission setting is too single, the instruction content of the transmission data cannot be adjusted by an upper computer, and the transmission process is not intelligent enough.

To achieve the above object, the present invention provides a low-code hub system for interface management, comprising,

a plurality of interfaces for connecting with external devices;

the management center is respectively connected with the plurality of interfaces;

the instruction identification module is arranged in the management center and used for identifying the type of the instruction and the data volume of the instruction transmitted by the interface according to the type of the instruction allowed to pass and the data volume allowed to pass in the instruction judgment set group corresponding to each preset interface;

the address identification module is arranged in the management center and used for identifying the access address of the interface according to a preset first type access address set D1 and a preset second type access address set D2;

a timing module, arranged inside the management center, for timing;

and the regulation and control module is arranged in the management center, integrates the data acquired by the instruction identification module, the address identification module and the timing module, monitors the instruction type and the transmission data volume requested by any interface which determines to finish the safety certification according to the access address within a certain time period, and automatically regulates the instruction type and the data volume of the allowed instruction allowed by the interface within the next time period.

Further, the regulation and control module numbers a plurality of interfaces, and the interfaces are respectively marked as a first interface A1, a second interface A2, a.. And An N-th interface An, where N is An integer greater than 2, for different interfaces, the regulation and control module sets different instruction judgment set groups for different interfaces, for the i-th interface, i =1,2, a.. N, the regulation and control module sets An instruction judgment set group Ci, ci = { Ci1, ci2}, where Ci1 is An i-th interface instruction set, and Ci2 is An i-th interface instruction data volume transmission set; for Ci1, ci1= { Di1, di2,. And Diz }, where Di1 is a first class of instructions allowed to pass through by the i-th interface, di2 is a second class of instructions allowed to pass through by the i-th interface,. And Diz is a Z-th class of instructions allowed to pass through by the i-th interface, and for Ci2, ci2= { Ei1, ei2,. And Eiz }, where Ei1 is an allowed-through data amount of Di1 instructions, ei2 is an allowed-through data amount of Di2 instructions,. And Eiz is an allowed-through data amount of Diz instructions; if the ith interface transmits the instruction, the instruction identification module identifies the instruction U transmitted by the ith interface,

if U belongs to Ci1, the regulation and control module determines that the ith interface can transmit the instruction;

if U \8713, ci1, the regulation and control module determines that the i-th interface cannot transmit the instruction, and records the request times of the instruction type U.

Furthermore, the instruction identification module counts the data volume K of the jth class of instructions passing through the ith interface and transmits the counted result to the regulation and control module,

if K is less than or equal to 0.8 multiplied by Eij, continuing to transmit the data of the j-th class instruction;

if K is more than 0.8 multiplied by Eij and less than or equal to Eij, the regulation and control module generates an Eij prompt instruction for increasing the allowed data volume, and whether the value of Eij is regulated or not is judged according to feedback information of the prompt instruction;

if K is larger than Eij and the numerical value of Eij is not adjusted, the regulation and control module forcibly stops the instruction transmission of the ith interface and records the transmission stopping times of the jth instruction of the ith interface;

for Eij, which is the amount of data allowed to pass by the Dij instruction, j =1, 2.

Furthermore, the address identification module identifies an access address D of the ith interface, and a first type access address set D1 and a second type access address set D2 are arranged in the regulation and control module;

if D belongs to D1, the regulation and control module actively regulates an instruction set Ci1 and an instruction data volume transmission set Ci2 of the ith interface;

if D belongs to D2, the regulation and control module supervises an instruction set Ci1 and an instruction data volume transmission set Ci2 of the ith interface to generate a regulation and control request instruction, and judges whether to regulate the instruction set Ci1 and the instruction data volume transmission set Ci2 or not according to feedback information of the regulation and control request instruction;

if the interface I comprises a command set Ci1 and a command data volume transmission set Ci2, the regulation module does not regulate the command set Ci1 and the command data volume transmission set Ci2 of the interface I, wherein the command set Ci 8713, the D1 and the D8713 are the same.

Furthermore, the regulation and control module records the request times of the instruction U which can not be transmitted at the ith interface, the number of the request times is recorded as G, a request time judgment parameter G0 is arranged in the regulation and control module,

if D belongs to D1 and G is larger than G0, the regulation and control module judges that the ith interface has a transmission requirement on the instruction U, and supplements the instruction U to an ith interface instruction set Ci 1;

if D belongs to D2 and G is larger than G0, the regulation and control module judges that the ith interface has a transmission requirement on the instruction U, generates an instruction supplementing request, and judges whether to supplement the instruction U into the ith interface instruction set Ci1 or not according to the feedback of the instruction supplementing request.

Further, when the number of times of requests of the instruction class U is recorded for the first time, the timing module records the existence duration of the instruction class U, the duration is t1, the request number determination parameter G0 is related to the duration t1, and G0= Gz + t1 × G is set, wherein Gz is a request number basic value, and G is a calculation compensation parameter of the duration t1 to the request number determination parameter.

Further, an instruction existence duration evaluation parameter tc is arranged in the regulation and control module,

and if t1 is greater than tc and G is less than or equal to G0, the timing module resets the existing duration of the instruction U to zero.

Further, an instruction permission data volume initial value Dc is arranged in the regulation module, and when the instruction U is supplemented into the ith interface instruction set Ci1, the instruction U is regarded as the instruction U permission data volume and is supplemented into the ith interface instruction data volume transmission set Ci 2.

Furthermore, the regulation and control module records the forced transmission stopping times R of the jth class instruction of the ith interface, a forced transmission stopping time evaluation parameter Rx is arranged in the regulation and control module,

if R is larger than Rx, the adjusting and controlling module increases the value of Eij to Eij ', eij' = Eij + Ep, wherein Ep is a parameter for increasing the data transmission quantity.

Further, when recording that j-th class instruction data transmission of the ith interface is forcibly stopped for the first time, the timing module records the stopping time length, when R is greater than Rx, the stopping time length is recorded as t2, the numerical value of the increased data transmission quantity parameter Ep is related to t2, and Ep =

Wherein Eb is a basic value for increasing the data transmission amount, E1 is a constant value for increasing the data transmission amount, tz is an evaluation parameter of the stop duration, and

=E1。

compared with the prior art, the interface data transmission method has the advantages that the intelligence of interface data transmission is improved by automatically adjusting the instruction content allowed to pass through and the data volume allowed to pass through the instruction by the interface through the management center, and meanwhile, the speed of data transmission is improved by automatically adjusting the instruction content allowed to pass through and the data volume allowed to pass through the instruction.

Furthermore, the data instruction allowing the interface to pass is set, and the instruction in the data transmission process is judged, so that the safety and the stability in the data transmission process are guaranteed.

Furthermore, the data volume during data transmission is limited, so that the stability and the safety of data transmission are guaranteed, meanwhile, an intermediate value is set in the transmission process, and when the intermediate value is reached, an operator judges whether the allowed data volume is increased or not, so that the integrity of data transmission is guaranteed.

Further, addresses with different security authentication levels are set, a solid foundation is laid for adjustment of subsequent allowable instruction contents and allowable instruction data volumes, the management center performs security certification on the access addresses with security authentication, adjustment of the allowable instruction contents and the allowable instruction data volumes can be directly performed, intelligence of interface data transmission is increased, auxiliary authentication is performed manually on the access addresses with general authentication, so that adjustment of the allowable instruction contents and the allowable instruction data volumes is guaranteed, safety of a data transmission process is guaranteed, the management center prohibits the adjustment of the allowable instruction contents and the allowable instruction data volumes on the access addresses which do not pass the security authentication and do not pass the general authentication, and safety of the interface data transmission is further guaranteed.

Further, when a certain instruction requests through a certain interface for multiple times, it indicates that the interface has a transmission requirement for the instruction, at this time, if the address accessed by the interface is an access address passing security authentication, the management center directly adjusts the instruction content allowed to pass through, so that the intelligence of interface data transmission is increased, and if the address accessed by the interface is an access address passing general authentication, the auxiliary authentication is performed manually, so that the instruction content allowed to pass through is adjusted, and the security of the data transmission process is ensured.

Furthermore, when a certain instruction requests to pass through a certain interface for multiple times in a short time, the transmission requirement of the interface for the instruction is urgent, at the moment, the request frequency judgment parameter is reduced, the intelligence of interface data transmission is increased, and the timeliness of data transmission is guaranteed.

Further, for a certain instruction which does not pass the request, when the request times of the certain instruction is lower than the request time judgment parameter for a long time, the transmission requirement of the interface for the certain instruction is low, the instruction should not be allowed to pass the interface, for the instruction, in order to avoid the long-time accumulation to enable the request times to be larger than the request time judgment parameter, an instruction existence duration evaluation parameter is set, through regular zero clearing, the unnecessary instruction is prevented from being allowed to pass, the intelligence of interface data transmission is increased, and the safety of the data transmission process is guaranteed.

Further, when a certain instruction is stopped for multiple times in the transmission process, it indicates that the instruction transmission interface has a large transmission demand for the instruction, and the current allowable data volume is small, at this time, the allowable data volume of the instruction is increased, the intelligence of interface data transmission is increased, and the demand of interface data transmission is ensured.

Further, when a certain instruction is stopped for multiple times in the transmission process in a short time, the instruction transmission interface has a high transmission demand degree for the instruction, a larger numerical value is given to the increased data transmission quantity parameter at the moment, when the instruction is stopped for multiple times in the transmission process for multiple times, the instruction transmission interface has a relatively lower transmission demand degree for the instruction, and a smaller numerical value is given to the increased data transmission quantity parameter at the moment, so that the accuracy of allowing the instruction to be corrected by the data quantity is guaranteed, the intelligence of interface data transmission is increased, and the safety and the stability in the data transmission process are guaranteed.

Drawings

FIG. 1 is a block diagram of a low-code hub system for interface management according to an embodiment;

FIG. 2 is a block diagram of an embodiment of a management hub.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the invention is further described below with reference to examples; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and do not limit the scope of the present invention.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of a low-code hub system for interface management in an embodiment; FIG. 2 is a block diagram of an embodiment of a management hub.

The invention provides a low code hub system for interface management, comprising,

a plurality of interfaces for connecting with external devices;

a management hub coupled to the interface;

the instruction identification module is arranged in the management center and used for identifying the type of the allowed instruction and the data volume of the instruction transmitted by the interface according to the preset instruction judgment set group corresponding to each interface and the allowed data volume;

the address identification module is arranged in the management center and used for identifying the access address of the interface according to a preset first type access address set D1 and a preset second type access address set D2;

a timing module, arranged inside the management center, for timing;

and the regulation and control module is arranged in the management center, integrates the data acquired by the instruction identification module, the address identification module and the timing module, monitors the instruction type and the transmission data volume requested by any interface which determines to finish the safety certification according to the access address within a certain time period, and automatically regulates the instruction type and the data volume of the allowed instruction allowed by the interface within the next time period.

The intelligent interface data transmission system increases the intelligence of interface data transmission by self-adjusting the instruction content allowed by the interface and the data volume allowed by the instruction through the management center, and simultaneously improves the data transmission speed by self-adjusting the instruction content allowed by the interface and the data volume allowed by the instruction.

Specifically, the regulation and control module numbers a plurality of interfaces, and the interfaces are respectively marked as a first interface A1, a second interface A2, a. For Ci1, ci1= { Di1, di2,. Once, diz }, where Di1 is a first class of instructions that the i-th interface allows through, di2 is a second class of instructions that the i-th interface allows through, and so, diz is a Z-th class of instructions that the i-th interface allows through, and for Ci2, ci2= { Ei1, ei2,. Once, ez }, where Ei1 is an allowed-through data amount of Di1 instructions, ei2 is an allowed-through data amount of Di2 instructions, and so, eiz is an allowed-through data amount of Diz instructions; if the ith interface transmits the instruction, the instruction identification module identifies the instruction U transmitted by the ith interface,

if U belongs to Ci1, the regulation and control module determines that the ith interface can transmit the instruction;

if U \ 8713 and Ci1, the regulation and control module determines that the i-th interface cannot transmit the instruction, and records the request times of the instruction type U.

By setting the data instruction allowing the interface to pass and judging the instruction in the data transmission process, the safety and the stability in the data transmission process are guaranteed.

Specifically, the instruction identification module counts the data volume K of the jth class of instructions passing through the ith interface and transmits the counted result to the regulation and control module,

if K is less than or equal to 0.8 multiplied by Eij, continuing to transmit the data of the j-th class instruction;

if K is more than 0.8 multiplied by Eij and less than or equal to Eij, the regulation and control module generates an allowance increasing data amount Eij prompting instruction, and whether the value of Eij is regulated or not is judged according to feedback information of the prompting instruction;

if K is larger than Eij and the numerical value of Eij is not adjusted, the regulation and control module forcibly stops the instruction transmission of the ith interface and records the transmission stopping times of the jth instruction of the ith interface;

for Eij, which is the amount of data allowed to pass by the Dij instruction, j =1, 2.

The data volume during data transmission is limited, so that the stability and the safety of the data transmission are guaranteed, meanwhile, an intermediate value is set in the transmission process, and when the intermediate value is reached, an operator judges whether the data volume allowing the data transmission to be increased or not, so that the integrity of the data transmission is guaranteed.

Specifically, the address identification module identifies an access address D of an i-th interface, and a first type access address set D1 and a second type access address set D2 are arranged in the regulation and control module;

if D belongs to D1, the regulation and control module actively regulates an instruction set Ci1 and an instruction data volume transmission set Ci2 of the ith interface;

if D belongs to D2, the regulation and control module supervises an instruction set Ci1 and an instruction data volume transmission set Ci2 of the ith interface to generate a regulation and control request instruction, and judges whether to regulate the instruction set Ci1 and the instruction data volume transmission set Ci2 or not according to feedback information of the regulation and control request instruction;

and judging and feeding back the control request instruction by an operator.

If the interface I comprises a command set Ci1 and a command data volume transmission set Ci2, the regulation module does not regulate the command set Ci1 and the command data volume transmission set Ci2 of the interface I, wherein the command set Ci 8713, the D1 and the D8713 are the same.

The first type access address set D1 stores access addresses of security authentication, and the second type access address set D2 stores access addresses of general authentication.

The management center directly adjusts the allowed instruction content and the allowed instruction data volume, the intelligence of interface data transmission is increased, the auxiliary authentication is performed manually on the general authenticated access address, so as to adjust the allowed instruction content and the allowed instruction data volume, the safety of the data transmission process is guaranteed, and the management center prohibits the allowed instruction content and the allowed instruction data volume from being adjusted on the access address which does not pass the safety authentication and does not pass the general authentication, so that the safety of the interface data transmission is further guaranteed.

Specifically, the regulation and control module records the request times of the instruction U which can not be transmitted at the ith interface, the request times are recorded as G, a request time judgment parameter G0 is arranged in the regulation and control module,

if D belongs to D1 and G is larger than G0, the regulation and control module judges that the ith interface has a transmission requirement on the instruction U, and the regulation and control module supplements the instruction U to an ith interface instruction set Ci 1;

if D belongs to D2 and G is larger than G0, the regulation and control module judges that the ith interface has a transmission requirement on the instruction U, the regulation and control module generates an instruction supplementing request, and the regulation and control module judges whether the instruction U is supplemented to the ith interface instruction set Ci1 or not according to the feedback of the instruction supplementing request.

And judging and feeding back the instruction supplementing request by an operator.

When a certain instruction makes an instruction request through a certain interface for multiple times, the interface has a transmission requirement for the instruction, at the moment, if the access address of the interface is the access address passing the security authentication, the management center directly adjusts the allowed instruction content, the intelligence of interface data transmission is increased, if the access address of the interface is the access address passing the general authentication, the auxiliary authentication is performed manually, so that the allowed instruction content is adjusted, and the security of the data transmission process is guaranteed.

Specifically, when the number of times of requests of the instruction class U is recorded for the first time, the timing module records the existence duration of the instruction U, the duration is t1, the request number determination parameter G0 is related to the duration t1, and G0= Gz + t1 × G is set, where Gz is a request number basic value, and G is a calculation compensation parameter of the duration t1 to the request number determination parameter.

When a certain instruction requests to pass through a certain interface for multiple times in a short time, the transmission requirement of the interface for the instruction is urgent, at the moment, the request frequency judgment parameter is reduced, the intelligence of interface data transmission is increased, and the timeliness of data transmission is guaranteed.

Specifically, an instruction existence duration evaluation parameter tc is arranged in the regulation and control module,

and if t1 is greater than tc and G is less than or equal to G0, the timing module resets the existence duration of the instruction U to zero.

For a certain instruction which does not pass through the request, when the request times of the certain instruction are lower than the request time judgment parameter for a long time, the transmission requirement of the interface for the instruction is low, the instruction is not allowed to pass through the interface, for the instruction, in order to avoid long-time accumulation to enable the request times to be larger than the request time judgment parameter, an instruction existence time length evaluation parameter is set, through regular zero clearing, unnecessary instructions are prevented from being allowed to pass through, the intelligence of interface data transmission is increased, and the safety of the data transmission process is guaranteed.

Specifically, an initial value Dc of the allowed data volume of the instruction is set in the regulation and control module, and when the instruction U is supplemented into the ith interface instruction set Ci1, the initial value Dc is taken as the allowed data volume of the instruction U and is supplemented into the ith interface instruction data volume transmission set Ci 2.

Specifically, the regulation and control module records the forced transmission stopping times R of the jth class instruction of the ith interface, a forced transmission stopping time evaluation parameter Rx is arranged in the regulation and control module,

if R is larger than Rx, the adjusting and controlling module increases the value of Eij to Eij ', eij' = Eij + Ep, wherein Ep is a parameter for increasing the data transmission quantity.

When a certain instruction is stopped for multiple times in the transmission process, the instruction transmission interface has a larger transmission requirement on the instruction, and the current allowable data volume is smaller, at the moment, the allowable data volume of the instruction is increased, the intelligence of interface data transmission is increased, and the requirement of interface data transmission is guaranteed.

Specifically, when the j-th class instruction data transmission of the i-th interface is forcibly stopped by first recording, the timing module records the stop durationWhen R > Rx appears, the stop time length is recorded as t2, the numerical value of the data transmission quantity parameter Ep is increased and is related to t2, and Ep =

Wherein Eb is a basic value for increasing the data transmission amount, E1 is a constant value for increasing the data transmission amount, tz is an evaluation parameter of the stop duration, and

=E1。

when a certain instruction is stopped for multiple times in the transmission process in a short time, the instruction transmission interface has high transmission demand for the instruction, a larger numerical value is given to the parameter for increasing the data transmission quantity at the moment, when the instruction is stopped for multiple times in the transmission process for multiple times, the instruction transmission interface has relatively lower transmission demand for the instruction, a smaller numerical value is given to the parameter for increasing the data transmission quantity at the moment, the accuracy of allowing the instruction to be corrected by the data quantity is guaranteed, the intelligence of interface data transmission is increased, and the safety and the stability in the data transmission process are guaranteed.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can be within the protection scope of the invention.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention; various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A low-code hub system for interface management, comprising,

a plurality of interfaces for connecting with external devices;

the management center is respectively connected with the plurality of interfaces;

the instruction identification module is arranged in the management center and used for identifying the type of the allowed instruction and the data volume of the instruction transmitted by the interface according to the preset instruction judgment set group corresponding to each interface and the allowed data volume;

the address identification module is arranged in the management center and used for identifying the access address of the interface according to a first access address set D1 and a second access address set D2 which are preset;

a timing module, arranged inside the management center, for timing;

the regulation and control module is arranged in the management center, integrates the data acquired by the instruction identification module, the address identification module and the timing module, monitors the instruction type and the transmission data volume requested by any interface which determines to finish safety certification in a certain time period according to the access address, and automatically regulates the instruction type and the data volume of the allowed instruction allowed by the interface in the next time period;

the regulation and control module numbers a plurality of interfaces, and respectively records the interfaces as a first interface A1, a second interface A2, a. For Ci1, ci1= { Di1, di2,. Once, diz }, where Di1 is a first class of instructions that the i-th interface allows through, di2 is a second class of instructions that the i-th interface allows through, and so, diz is a Z-th class of instructions that the i-th interface allows through, and for Ci2, ci2= { Ei1, ei2,. Once, ez }, where Ei1 is an allowed-through data amount of Di1 instructions, ei2 is an allowed-through data amount of Di2 instructions, and so, eiz is an allowed-through data amount of Diz instructions;

if the ith interface transmits the instruction, the instruction identification module identifies the instruction U transmitted by the ith interface,

if U belongs to Ci1, the regulation and control module determines that the ith interface can transmit the instruction;

if U \8713, ci1, the regulation and control module determines that the i-th interface cannot transmit the instruction, and records the request times of the instruction type U;

the instruction identification module counts the data volume K of the jth class of instructions passing through the ith interface and transmits the counted result to the regulation and control module,

if K is less than or equal to 0.8 multiplied by Eij, continuing to transmit the data of the j-th class instruction;

if K is more than 0.8 multiplied by Eij and less than or equal to Eij, the regulation and control module generates an Eij prompt instruction for increasing the allowed data volume, and whether the value of Eij is regulated or not is judged according to feedback information of the prompt instruction;

if K is larger than Eij and the numerical value of Eij is not adjusted, the regulation and control module forcibly stops the instruction transmission of the ith interface and records the transmission stopping times of the jth instruction of the ith interface;

for Eij, which is the amount of allowed data for the Dij instruction, j =1, 2.. Once, z;

the address identification module identifies an access address D of an i-th interface, and a first access address set D1 and a second access address set D2 are arranged in the regulation module;

if D belongs to D1, the regulation and control module actively regulates an instruction set Ci1 and an instruction data volume transmission set Ci2 of the ith interface;

if D belongs to D2, the regulation and control module supervises an instruction set Ci1 and an instruction data volume transmission set Ci2 of the ith interface to generate a regulation and control request instruction, and judges whether to regulate the instruction set Ci1 and the instruction data volume transmission set Ci2 or not according to feedback information of the regulation and control request instruction;

if the interface I comprises D \ 8713D 1 and D \ 8713D 2, the regulation and control module does not regulate an instruction set Ci1 and an instruction data volume transmission set Ci2 of the interface I;

the regulation and control module records the request times of the instruction U which can not be transmitted at the ith interface, the request times is recorded as G, a request time judgment parameter G0 is arranged in the regulation and control module,

if D belongs to D1 and G is larger than G0, the regulation and control module judges that the ith interface has a transmission requirement on the instruction U, and supplements the instruction U to an ith interface instruction set Ci 1;

if D belongs to D2 and G is larger than G0, the regulation and control module judges that the ith interface has a transmission requirement on the instruction U, the regulation and control module generates an instruction supplementing request, and the regulation and control module judges whether the instruction U is supplemented to the ith interface instruction set Ci1 or not according to the feedback of the instruction supplementing request.

2. The low-code hub system for interface management according to claim 1, wherein when the number of times of requests of the command class U is recorded for the first time, the timing module records a time length of existence of the command U, the time length is t1, the request number determination parameter G0 is associated with the time length t1, and G0= Gz + t1 × G is set, where Gz is a base value of the request number, and G is a calculated compensation parameter of the time length t1 to the request number determination parameter.

3. The low-code hub system for interface management according to claim 2, wherein an instruction existence duration evaluation parameter tc is provided in the control module,

and if t1 is greater than tc and G is less than or equal to G0, the timing module resets the existing duration of the instruction U to zero.

4. The low-code hub system for interface management according to claim 1, wherein an initial value Dc of an allowed data volume of the command is set in the regulating module, and when the command U is supplemented to the ith interface command set Ci1, the allowed data volume of the command U is set Dc as the command U and is supplemented to the ith interface command data volume transmission set Ci 2.

5. The low-code hub system for interface management according to claim 1, wherein the control module records the forced transmission stop times R of the jth class instruction of the ith interface, and an evaluation parameter Rx for forced transmission stop times is provided in the control module,

if R is larger than Rx, the adjusting and controlling module increases the value of Eij to Eij ', eij' = Eij + Ep, wherein Ep is a parameter for increasing the data transmission quantity.

6. The low-code hub system for interface management as claimed in claim 5, wherein the timing module records a stop duration when first recording of forced stop of class j instruction data transmission of the i interface, the stop duration is recorded as t2 when R > Rx occurs, the value of the increased data transmission amount parameter Ep is related to t2, and Ep = is related to t2

Wherein Eb is a basic value for increasing the data transmission amount, E1 is a constant value for increasing the data transmission amount, tz is an evaluation parameter of the stop duration, and

=E1。

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