CN113138984B - Heater control information generation method, system and medium based on associated index - Google Patents

Abstract

The invention provides a heater control information generation method based on an associated index, which comprises a telemetering information table, a heater control information table, a telemetering index information source, a remote control information table, a remote control index information source, a heater temperature control information table and an associated control information source; the remote measuring information table is used as a remote measuring index information source of the heater control information table, the remote control information table is used as a remote control index information source of the heater control information table, and the heater temperature control information table is used as an associated control signal source of the heater control information table. The heater control information generation method based on the associated index is simple to implement, can be flexibly adjusted to meet the control requirements of different heaters in different periods, can greatly improve the working efficiency, simultaneously reduces the heater control information generation complexity caused by information flow updating, and realizes the associated index processing based on remote measurement and remote control.

Description

Heater control information generation method, system and medium based on correlation index

Technical Field

The invention relates to the technical field of spacecraft remote measurement and control and heater control logic, in particular to a heater control information generation method, system and medium based on an associated index.

Background

At present, a self-closed loop program control temperature control mode based on a heater control information table is adopted by a spacecraft, all temperature points and all heater switch states of the spacecraft are stored according to a format of a telemetering information table, and in each heater temperature control period, current heater switch states are obtained by indexing in the telemetering information table according to a heater telemetering index value in the heater control information table; according to the telemetering index value of the temperature measuring point in the heater control information table, the telemetering value of the temperature of one or more temperature measuring points is obtained by indexing in the telemetering information table and is compared with a temperature control digital threshold value set in the heater control information table, when the temperature is lower than the lower limit of the threshold value and the heater is in an off state, an on command is sent autonomously to control the heater to be turned on, and if the temperature is higher than the upper limit of the threshold value and the heater is in the on state, an off command is sent autonomously to control the heater to be turned off, so that the purpose of controlling the environmental temperature of each cabin section and each part of the spacecraft within a preset range is achieved.

The aerospace field is rapidly developed, the satellite functions are increasingly complex, the autonomy of program control is increased, the temperature control requirement of a heater is more and more, the development period is greatly shortened, and the requirements on the reliability and the universality of products are greatly increased. The traditional heater control information table manually calculated and filled based on experience and visual methods separates ground remote measurement processing from heater temperature control calculation, so that the situation that the actual temperature control threshold value on the satellite is inconsistent with the temperature display of a ground temperature measuring point is easily caused; the modification difference can be modified, manual calculation is needed again each time the temperature control point of the heater changes, and the requirements of the whole process of spacecraft ground development and frequent change in the on-orbit flight stage are difficult to meet; the method is lack of inheritance and adaptability and cannot be directly applied to scenes except the model. Therefore, a heater control information generation method which is simple and flexible and can adapt to different heater control methods in different periods is needed, and correlation index processing of remote measurement, remote control and heater control is realized.

At present, through the search discovery of the prior art and documents, no precedent exists for adopting the position-based correlation index generation and heater control method. An information system for indexing, retrieving, storing and actually controlling associated data is disclosed in the Chinese invention patent with publication number CN101178733A, and mainly provides a recording and judging mode for input information, which is used for quickly inquiring and retrieving information in a data pool, but does not solve the problem of heater information associated multi-source input and the problem of real-time change of remote measurement and control data.

When the satellite generates heater control information, the telemetering and remote control information is unified and combed according to the formats of the telemetering information table and the remote control information table, and the telemetering information table and the remote control information table are indexed and associated to serve as the basis of on-satellite program control of the heater according to the telemetering code of a heater switch and the telemetering code of a temperature measuring point in the heater temperature control information table. No matter whether the telemetering addition and deletion or telemetering change is carried out, for the heater control, the key telemetering index relation is not changed, the latest telemetering remote control information can be obtained through index association, and the latest telemetering remote control information becomes the accurate input of the heater program control.

Disclosure of Invention

In view of the shortcomings in the prior art, it is an object of the present invention to provide a heater control information generation method, system and medium based on an association index.

The invention provides a heater control information generation method based on an associated index, which comprises a telemetering information table, a heater control information table, a telemetering index information source, a remote control information table, a remote control index information source, a heater temperature control information table and an associated control information source;

the telemetering information table is used as a telemetering index information source of the heater control information table and comprises a telemetering code number, a telemetering source number, a telemetering channel number, a telemetering bit number, a telemetering processing formula and a processing formula coefficient;

the remote control information table is used as a remote control index information source of the heater control information table and comprises a remote measurement criterion and a remote control instruction code;

the heater temperature control information table is used as an associated control signal source of the heater control information table and comprises a heater serial number, a heater switch telemetering code, a temperature measuring point telemetering code, a temperature control physical lower limit and an upper limit;

the heater control information table comprises a heater serial number, a heater switch telemetering code, a heater switch instruction code, a heater switch Guan Yaoce index value, a temperature measuring point telemetering index value and a temperature control digital threshold value.

Preferably, the method comprises the steps of:

step 1: establishing a telemetering information table;

step 2: establishing a remote control information table;

and step 3: establishing a heater temperature control information table;

and 4, step 4: accessing an ith heater Hi in a heater temperature control information table, wherein i is more than or equal to 1 and less than or equal to N, searching TMi in the telemetering code of the telemetering information table by taking a heater switch telemetering code TMi as an index, and correlating to obtain a telemetering source number Sourcei, a telemetering channel number Idi and a telemetering bit number Biti to form a heater switch Guan Yaoce index value Sourcei _ Idi _ Biti in the heater control information table;

and 5: searching for TM in telemetry criteria of a remote control information table _i Associated to obtain a heater H _i Switch remote control command code Cmd _ ON _i And Cmd _ OFF _i ；

Step 6: with temperature measuring point C of i-th path heater _1,i ～C _X,i For indexing, search C in telemetry code of telemetry information table _1,i ～C _X,i And obtaining the Source number of the remote measuring Source by correlation _1,i ～Source _X,i Telemetry channel number Id _1,i ～Id _X,i Formula F for telemetry processing _1,i ～F _X,i Processing formula coefficients Form _1,i ～Form _X,i Forming a telemetering index value Source of the temperature measuring point in the heater control information table _1,i _Id _1,i ～Source _X,i _Id _X,i ；

And 7: controlling a physical lower limit Rg _ low by a temperature of a heater of an ith path _i And an upper limit Rg _ high _i Combining as input the 1 st temperature measurement point C obtained in step 6 _1,i Formula F of telemetry processing _1,i And processing formula coefficients Form _1,i And calculating to obtain the lower limit Hold _ low of the temperature control digital threshold _i And an upper bound Hold _ high _i ；

And 8: and (5) repeating the step 4 to the step 7, finishing the access of the N paths of heaters and forming a heater control information table.

Preferably, in the telemetry information table, the telemetry source number is a virtual device source end address number, the telemetry channel number is byte position information of all telemetry in the telemetry source number, the telemetry bit number is a bit identifier of all telemetry in the telemetry channel number in the telemetry source number, and the telemetry processing formula and the processing formula coefficient are combined to represent a conversion relation between a digital value and a physical value of the telemetry.

Preferably, the temperature measuring point C of each heater in the step 5 _1,i ～C _X,i The number of the heater temperature measuring points is X, and the number of the heater temperature measuring points is less than X.

Preferably, the code number TM is telemetered by a heater switch in the steps 4 to 6 _i And its temperature measuring point C _1,i ～C _X,i For indexing, corresponding information is not searched in the telemetering information table and the remote control information table, and a heater switch command code corresponding to the heater, a heater switch Guan Yaoce index value, a temperature measurement point telemetering index value and a temperature control digital threshold value are identified in the heater control information table, so that the heater is not associated with effective remote control telemetering information.

Preferably, in the step 7, the temperature control physical lower limit Rg _ low is not indexed in the heater temperature control information table _i And an upper limit Rg _ high _i In the temperature control digital threshold, 0xFFF,0x000 was filled, indicating that the heater was kept in the off state all the time.

The invention also includes a system for generating heater control information based on the associated index, the system comprising the following modules:

a module M1: establishing a telemetering information table;

a module M2: establishing a remote control information table;

a module M3: establishing a heater temperature control information table;

a module M4: accessing an ith heater Hi in a heater temperature control information table, wherein i is more than or equal to 1 and less than or equal to N, searching TMi in the telemetering code of the telemetering information table by taking a heater switch telemetering code TMi as an index, and correlating to obtain a telemetering source number Sourcei, a telemetering channel number Idi and a telemetering bit number Biti to form a heater switch Guan Yaoce index value Sourcei _ Idi _ Biti in the heater control information table;

a module M5: searching for TM in telemetry criteria of a remote control information table _i Correlating to obtain a heater H _i Switch remote control ofInstruction code Cmd _ ON _i And Cmd _ OFF _i ；

A module M6: with temperature measuring point C of i-th path heater _1,i ～C _X,i Searching C in telemetry code number of telemetry information table for indexing _1,i ～C _X,i And obtaining the Source number of the remote measuring Source by correlation _1,i ～Source _X,i Telemetry channel number Id _1,i ～Id _X,i Telemetry processing equation F _1,i ～F _X,i Processing formula coefficients Form _1,i ～Form _X,i Form the telemetering index value Source of the temperature measuring point in the heater control information table _1,i _Id _1,i ～Source _X,i _Id _X,i ；

A module M7: controlling a physical lower limit Rg _ low by a temperature of an ith path heater _i And an upper limit Rg _ high _i As input, the 1 st temperature measurement point C obtained in module M6 is combined _1,i Formula F of telemetry processing _1,i Sum processing formula coefficient Form _1,i And calculating to obtain the lower limit Hold _ low of the temperature control digital threshold _i And an upper bound Hold _ high _i ；

A module M8: and repeating the module M4-the module M7 to finish the access of the N paths of heaters and form a heater control information table.

Preferably, the temperature measuring point C of each heater in the module M5 _1,i ～C _X,i The number of the heater temperature measuring points is X, and the number of the heater temperature measuring points is less than X; the module M4-the module M6 are telemetered with a code number TM by a heater switch _i And its temperature measuring point C _1,i ～C _X,i For indexing, corresponding information is not searched in the telemetering information table and the remote control information table, and a heater switch command code corresponding to the heater, a heater switch Guan Yaoce index value, a temperature measurement point telemetering index value and a temperature control digital threshold value are identified in the heater control information table, so that the heater is not associated with effective remote control telemetering information.

Preferably, the module M7 does not index the physical lower limit Rg _ low of temperature control in the heater temperature control information table _i And an upper limit Rg _ high _i In the temperature control digital threshold, 0xFFF,0x000 is filled, indicating that the heater is kept in the off state.

The invention also comprises a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method as set forth above.

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

1. the invention has simple logic and flexible change, and can adapt to various application conditions;

2. the invention automatically associates and indexes the remote-measuring and remote-controlling information, has good input and output consistency and improves the working efficiency;

3. the invention can effectively avoid blind areas generated by only depending on manual accounting and visual observation, and improves the reliability and correctness of heater control.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic diagram showing the relationship between input information and heater control information according to the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

The invention takes the telemetering information table as a telemetering index information source of the heater control information table, the remote control information table as a remote control index information source of the heater control information table, and the heater temperature control information table as an associated control information source of the heater control information table. Suppose the spacecraft has 10 telemetering and 5-way heater remote control commands, and 3-way heaters need to be controlled.

The specific implementation steps of the heater control information generation method based on the associated index are as follows:

step 1:

a table of telemetry information is established as shown in table 1. The telemetry source number, the telemetry channel number and the telemetry bit number are used for indicating the specific positions of all telemetry transmission, namely, the measurement value represented by TM01 can be obtained at the 1 st whole byte position of the virtual device 1, and the measurement value represented by TM12 can be obtained at the 926 rd byte 3 bit position of the virtual device 4; the telemetering processing formula represents a conversion method adopted during telemetering processing, and the conversion of digital quantity and physical quantity is completed by matching with the processing formula coefficient, such as formula 107 in formula summary table 2 and the processing formula coefficient-6.011336/4622.237168/-86381.470189/the source code 0x5C is converted into the actual measured temperature of 22.43 ℃.

TABLE 1 some type of telemetric information table

TABLE 2 summary of treatment formulas

Name of formula	Processing formula F	Processing formula coefficient Form	Source code	Results
					Original code display	101	/	0x2B	0x2B
Temperature treatment	107	-6.011336/4622.237168/-86381.470189/	0x5C	22.43

Processing equation 101 indicates that the telemetry parameters are displayed in hexadecimal.

N _H ←N _H … … … … … … … … … … … … … … (equation 1)

The processing formula 107 shows that the hexadecimal source code is firstly converted into an unsigned decimal number, then the acquired value is converted into a voltage value V by the formula (2), the resistance value Rt of the temperature-measuring thermistor is calculated according to the formula (3), and then the resistance value of the thermistor is converted into temperature by the formula (4).

V＝0.00244×N _D -5 … … … … … … … … … … … … … … (equation 2)

In the formula:

t-temperature calculation (. Degree. C.);

d, e, f-processing parameters.

And 2, step:

a remote control information table is established containing the 3-way heaters to be programmed as shown in table 3.

TABLE 3 some type of remote control information table

And 3, step 3:

a heater temperature control information table is established as shown in table 4. Suppose that the number of 3 heater temperature test points X =4.

TABLE 4 temp. CONTROL INFORMATION TABLE FOR HEATER OF SPECIAL TYPE

And 4, step 4:

accessing a 1 st path of heater in a heater temperature control information table, taking a heater switch telemetry code TM12 as an index, searching the TM12 in the telemetry code of the telemetry information table, and correlating to obtain a telemetry Source number Source1=4, a telemetry channel number Id1=926 and a telemetry Bit number Bit1=3 to form a heater switch Guan Yaoce index value 4_926_3 in a heater control information table; the heater control information table is filled as control information of the 1 st path heater as shown in the first row of table 5.

And 5:

TM12 is searched in the remote measuring criteria of the remote control information table, switch remote control command codes 0100 and 0100 of the 1 st path of heater are obtained through correlation, and the heater control information table is filled.

Step 6:

the method comprises the steps of taking a first temperature measuring point telemetry code TMR05 of a 1 st path heater as an index, searching TMR05 in the telemetry code of a telemetry information table, correlating to obtain telemetry Source numbers Source1,1=2, telemetry channel numbers Id1,1=1, telemetry processing formulas F1,1=107, processing formula coefficients Form1,1= -6.011336/4622.237179/-86381.470189/, filling 2_1 into a heater control information table to serve as first temperature measuring point telemetry index value information of the 1 st path heater; and continuously indexing the 2 nd to 4 th temperature control points, and additionally filling the index values 0_0,0 _0and 0 _0as the information of the telemetering index values of the remaining 3 temperature measurement points of the 1 st path of heater because the effective values of the temperature measurement points of the path of heater are only 1.

And 7:

taking the physical lower temperature control limit Rg _ low1= -10 and the upper limit Rg _ high1=15 of the 1 st heater as input, combining the telemetering processing formula F1,1= -107 and the processing formula coefficient Form1,1= -6.011336/4622.237179/-86381.470189/, of the 1 st temperature measurement point TMR05 obtained in the step 6, reversely deducing the temperature control digital threshold values E2F, BC6 through the formula 5, and filling a heater control information table as the lower temperature control threshold value and the upper temperature control threshold value of the 1 st heater. The conversion significance lies in that the collected temperature remote measurement value is hexadecimal digital quantity, and when a heater control information table is accessed, the value can be directly compared with a hexadecimal temperature control threshold value, so that the aim of simple and controllable on-board processing is fulfilled.

Thus, the heater control information table of the 1 st path heater H1 is established.

And 8:

and repeating the steps 4-7, completing the access of the heater in the 2 nd path and filling the information of the heater in the 2 nd path in the heater control information table. Wherein the number of the temperature measuring points of the 2 nd path heater is 2, and the telemetering index values of the temperature measuring points of 0 _0and 0 _0need to be filled in; and (3) taking a telemetering processing formula and a processing formula coefficient of the 1 st temperature control point TMR06 as processing input of temperature digital quantity and analog quantity conversion.

And step 9:

and repeating the steps 4-7, completing the access of the heater in the 3 rd path and filling the information of the heater in the 3 rd path in the heater control information table. So far, the index establishment of all 3-way heater control information tables needing to be controlled is completed. Heater serial number, heater switch telemetering code, heater switch instruction code, heater switch Guan Yaoce index value, temperature measurement point telemetering index value and temperature control digital threshold value.

TABLE 5 certain Heater control information Table

The invention also provides a system for generating the heater control information based on the associated index, which comprises the following modules: a module M1: establishing a telemetering information table; a module M2: establishing a remote control information table; a module M3: establishing a heater temperature control information table; a module M4: accessing an ith heater Hi in a heater temperature control information table, wherein i is more than or equal to 1 and less than or equal to N, searching TMi in the telemetering code of the heater switch by taking the telemetering code TMi of the telemetering information table as an index, correlating to obtain a telemetering source number Sourcei, a telemetering channel number Idi and a telemetering bit number Biti, and forming a heater switch Guan Yaoce index value Sourcei _ Idi _ Biti in a heater control information table;

a module M5: searching for TM in telemetry criteria of a remote control information table _i Associated to obtain a heater H _i Switch remote control command code Cmd _ ON _i And Cmd _ OFF _i (ii) a Temperature measuring point C of each heater in module M5 _1,i ～C _X,i The number of the heater temperature measuring points is X, and the number of the heater temperature measuring points is less than X.

A module M6: with temperature measuring point C of i-th path heater _1,i ～C _X,i For indexing, search C in telemetry code of telemetry information table _1,i ～C _X,i And obtaining the Source number of the remote measuring Source by correlation _1,i ～Source _X,i Telemetry channel number Id _1,i ～Id _X,i Formula F for telemetry processing _1,i ～F _X,i Processing formula coefficients Form _1,i ～Form _X,i Form the telemetering index value Source of the temperature measuring point in the heater control information table _1,i _Id _1,i ～Source _X,i _Id _X,i (ii) a Telemetry of code number TM with heater switch in Module M4-Module M6 _i And its temperature measuring point C _1,i ～C _X,i For indexing, corresponding information is not searched in the telemetering information table and the remote control information table, and a heater switch command code corresponding to the heater, a heater switch Guan Yaoce index value, a temperature measurement point telemetering index value and a temperature control digital threshold value are identified in the heater control information table, which indicates that the heater is not associated with effective remote control telemetering information。

A module M7: controlling a physical lower limit Rg _ low by a temperature of an ith path heater _i And an upper limit Rg _ high _i As input, the 1 st temperature measurement point C obtained in module M6 is combined _1,i Formula F of telemetry processing _1,i Sum processing formula coefficient Form _1,i And calculating to obtain the lower limit Hold _ low of the temperature control digital threshold _i And an upper bound Hold _ high _i (ii) a The module M7 does not index the physical lower limit Rg _ low of temperature control in the heater temperature control information table _i And an upper limit Rg _ high _i In the temperature control digital threshold, 0xFFF,0x000 was filled, indicating that the heater was kept in the off state all the time.

A module M8: and repeating the module M4-the module M7 to finish the access of the N paths of heaters and form a heater control information table.

The invention also comprises a computer-readable storage medium having stored thereon a computer program which, when being executed by a processor, carries out the steps of the method as set forth above.

Those skilled in the art will appreciate that, in addition to implementing the system and its various devices, modules, units provided by the present invention as pure computer readable program code, the system and its various devices, modules, units provided by the present invention can be fully implemented by logically programming method steps in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system and various devices, modules and units thereof provided by the invention can be regarded as a hardware component, and the devices, modules and units included in the system for realizing various functions can also be regarded as structures in the hardware component; means, modules, units for performing the various functions may also be regarded as structures within both software modules and hardware components for performing the method.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (9)

1. A heater control information generation method based on associated index is characterized by comprising a telemetering information table, a heater control information table, a telemetering index information source, a remote control information table, a remote control index information source, a heater temperature control information table and an associated control information source;

the telemetering information table is used as a telemetering index information source of the heater control information table and comprises a telemetering code number, a telemetering source number, a telemetering channel number, a telemetering bit number, a telemetering processing formula and a processing formula coefficient;

the remote control information table is used as a remote control index information source of the heater control information table and comprises a remote measurement criterion and a remote control instruction code;

the heater temperature control information table is used as an associated control signal source of the heater control information table, and comprises a heater serial number, a heater switch remote measuring code, a temperature measuring point remote measuring code, a temperature control physical lower limit and an upper limit;

the heater control information table comprises a heater serial number, a heater switch telemetering code, a heater switch instruction code, a heater switch Guan Yaoce index value, a temperature measuring point telemetering index value and a temperature control digital threshold value;

the method comprises the following steps:

step 1: establishing a telemetering information table;

step 2: establishing a remote control information table;

and step 3: establishing a heater temperature control information table;

and 4, step 4: accessing an ith heater Hi in a heater temperature control information table, wherein i is more than or equal to 1 and less than or equal to N, searching TMi in the telemetering code of the telemetering information table by taking a heater switch telemetering code TMi as an index, and correlating to obtain a telemetering source number Sourcei, a telemetering channel number Idi and a telemetering bit number Biti to form a heater switch Guan Yaoce index value Sourcei _ Idi _ Biti in the heater control information table;

and 5: telemetry criteria in a remote control message tableMiddle search TM _i Associated to obtain a heater H _i Switch remote control command code Cmd _ ON _i And Cmd _ OFF _i ；

Step 6: with temperature measuring point C of i-th path heater _1,i ～C _X,i For indexing, search C in telemetry code of telemetry information table _1,i ～C _X,i And obtaining the Source number of the remote measuring Source by correlation _1,i ～Source _X,i Telemetry channel number Id _1,i ～Id _X,i Formula F for telemetry processing _1,i ～F _X,i Processing formula coefficients Form _1,i ～Form _X,i Form the telemetering index value Source of the temperature measuring point in the heater control information table _{1,i_} Id _1,i ～Source _{X,i_} Id _X,i ；

And 7: controlling a physical lower limit Rg _ low by a temperature of an ith path heater _i And an upper limit Rg _ high _i Combining as input the 1 st temperature measurement point C obtained in step 6 _1,i Formula F of telemetry processing _1,i Sum processing formula coefficient Form _1,i And calculating to obtain the lower limit Hold _ low of the temperature control digital threshold _i And an upper bound Hold _ high _i ；

And 8: and (5) repeating the step 4 to the step 7, finishing the access of the N paths of heaters and forming a heater control information table.

2. The correlation index-based heater control information generation method according to claim 1, wherein the telemetry source number in the telemetry information table is a virtual device source address number, the telemetry channel number is byte position information of all telemetry in the telemetry source number, the telemetry bit number is a bit identifier of all telemetry in the telemetry channel number in the telemetry source number, and the telemetry processing formula and the processing formula coefficient are combined to represent a conversion relationship between a digital quantity value and a physical quantity value of the telemetry.

3. The correlation index-based heater control information generation method according to claim 1, wherein the temperature measurement point C of each heater in step 5 is _1,i ～C _X,i Is X number of heatersThe number of the temperature measuring points is less than X.

4. The correlation index-based heater control information generating method as claimed in claim 1, wherein the code number TM is telemetered with a heater switch in the steps 4 to 6 _i And its temperature measuring point C _1,i ～C _X,i For indexing, corresponding information is not searched in the telemetering information table and the remote control information table, and a heater switch command code corresponding to the heater, a heater switch Guan Yaoce index value, a temperature measurement point telemetering index value and a temperature control digital threshold value are identified in the heater control information table, so that the heater is not associated with effective remote control telemetering information.

5. The method as claimed in claim 1, wherein the physical lower limit Rg _ low of temperature control is not indexed in the heater temperature control information table in the step 7 _i And an upper limit Rg _ high _i In the temperature control digital threshold, 0xFFF,0x000 is filled, indicating that the heater is kept in the off state.

6. A system for generating heater control information based on an association index, the system comprising:

a module M1: establishing a telemetering information table;

a module M2: establishing a remote control information table;

a module M3: establishing a heater temperature control information table;

a module M4: accessing an ith heater Hi in a heater temperature control information table, wherein i is more than or equal to 1 and less than or equal to N, searching TMi in the telemetering code of the telemetering information table by taking a heater switch telemetering code TMi as an index, and correlating to obtain a telemetering source number Sourcei, a telemetering channel number Idi and a telemetering bit number Biti to form a heater switch Guan Yaoce index value Sourcei _ Idi _ Biti in the heater control information table;

a module M5: searching for TM in telemetry criteria of a remote control information table _i Associated to obtain a heater H _i Switch remote control command code Cmd _ ON _i And Cmd _ OFF _i ；

A module M6: with temperature measuring point C of i-th path heater _1,i ～C _X,i For indexing, search C in telemetry code of telemetry information table _1,i ～C _X,i And obtaining the Source number of the remote measuring Source by correlation _1,i ～Source _X,i Telemetry channel number Id _1,i ～Id _X,i Formula F for telemetry processing _1,i ～F _X,i Processing formula coefficients Form _1,i ～Form _X,i Form the telemetering index value Source of the temperature measuring point in the heater control information table _{1,i_} Id _1,i ～Source _{X,i_} Id _X,i ；

A module M7: controlling a physical lower limit Rg _ low by a temperature of an ith path heater _i And an upper limit Rg _ high _i As input, the 1 st temperature measurement point C obtained in module M6 is combined _1,i Formula F of telemetry processing _1,i Sum processing formula coefficient Form _1,i And calculating to obtain the lower limit Hold _ low of the temperature control digital threshold _i And an upper bound Hold _ high _i ；

A module M8: and repeating the module M4-the module M7 to finish the access of the N paths of heaters and form a heater control information table.

7. The correlation index-based heater control information generation system according to claim 6, wherein the temperature measurement point C of each heater in the module M5 is _1,i ～C _X,i The number of the heater temperature measuring points is X, and the number of the heater temperature measuring points is less than X; the module M4-the module M6 are telemetered with a code number TM by a heater switch _i And its temperature measuring point C _1,i ～C _X,i For indexing, corresponding information is not searched in the telemetering information table and the remote control information table, and a heater switch command code corresponding to the heater, a heater switch Guan Yaoce index value, a temperature measurement point telemetering index value and a temperature control digital threshold value are identified in the heater control information table, so that the heater is not associated with effective remote control telemetering information.

8. The heater control information generation system based on the correlation index according to claim 6,the method is characterized in that the module M7 does not index the physical lower limit Rg _ low of temperature control in the heater temperature control information table _i And an upper limit Rg _ high _i In the temperature control digital threshold, 0xFFF,0x000 is filled, indicating that the heater is kept in the off state.

9. A computer-readable storage medium, in which a computer program is stored which, when being executed by a processor, carries out the steps of the method according to any one of claims 1 to 5.

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