CN107623728A - FC AE ASM data general-purpose analytic methods based on product ICD - Google Patents
FC AE ASM data general-purpose analytic methods based on product ICD Download PDFInfo
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Abstract
The present invention relates to the FC AE ASM data general-purpose analytic methods based on product ICD, including ICD data base conversion method, data analysis method, data base conversion method includes step division data type, establishes message name summary table, establish data message table, establish discrete signal table, data analysis method, including step:Array for structural body is established, MsgID is read, compares MsgID and message number field, data length obtained according to element type, discrete signal data value is obtained, obtains data signal data value.The present invention can be applied in the product automation test system of all ASM of AE containing FC data, versatile;When Product Status changes, ICD database corresponding contents only need to be changed, Auto-Test System will not be impacted.
Description
Technical field
The present invention relates to FC-AE-ASM bus test technical fields, specifically based on product ICD
FC-AE-ASM data general-purpose analytic methods.
Background technology
ICD is the core of Avionic Products, is test of the realization to product and fault diagnosis, it is necessary to base
The Monitoring Data of product interface is parsed in ICD.As Avionic Products are to traffic rate and reliable journey
Desired continuous improvement is spent, FC-AE-ASM is had been widely used in each model, and the parsing for FC-AE-ASM data is more at present
It is embedded in the special test system of each product, is primarily present following 2 problems:When different product test system it
Between, interface data analytic method can not share, and need to write parsing code respectively for different ICDs, reduce
The reusability of test system;Second, when ICD changes, it is necessary to develop the number of ports of test system again
According to analytic method, the testing efficiency and reliability of test system are reduced.
The content of the invention
The technical problems to be solved by the invention are to be to provide the FC-AE-ASM data based on product ICD
General analytic method, according to the ICD of configuration, using generalization handling process, realize to different Avionic Products
The automatic parsing of FC-AE-ASM data.
The technical problems to be solved by the invention are realized using following technical scheme:
FC-AE-ASM data general-purpose analytic methods based on product ICD, including ICD data
Storehouse conversion method, data analysis method.
Described ICD data base conversion method, including step:
S1 data type) is divided:The all elements signal that message package contains by ICD, according to data class
Type is divided into data-signal, discrete signal, and data-signal can be divided into BNR1, BNR2, BC1, BC2 according to data format;
S2 message name summary table, including step) are established:
S21 the table of entitled " message name ") is established in Microsoft Office Access;
S22 " message name ", " message number " field) are established in table;
S23 the message name of each message, message number in ICD) are inserted into corresponding field;
S24) " signal name of element 0 " to " signal name of element 15 " is increased in table, " signal type of element 0 " to " element 15
Signal type ", totally 32 fields;
S25) elemental signals that each message package contains in ICD are filled in " element n signal names " by order of elements
Field, and according to elemental signals data type, " discrete signal " or " data ", wherein n are inserted in " element n signal types " field
=0,1 ... 15;
S3 data message table, including step) are established:
S31 the table of entitled " data ") is established in Microsoft Office Access;
S32) in table establish " signal name ", " data format ", " data length ", " MSB ", " unit ", " highest order ",
" lowest order ", totally 7 fields;
S33 all data types in " message name " table) are inserted into " signal name " field for the elemental signals name of data, according to
To the description of each signal parameter in ICD, by signal format, data bit length, MSB, unit, the significant number of highest
Other respective fields in table are inserted according to the information of position and minimum meaningful data position.
S4 discrete signal table, including step) are established:
S41 table) is established in Microsoft Office Access, is named with elemental signals name;
S42 " title ", " digit ", " lowest order ", " highest order ", totally 4 fields) are established in table;
S43) the data name for including elemental signals, digit shared by data, shared highest order and shared lowest order are inserted
Respective field in table;
S44) the maximum in the digit according to shared by each data, increases by 2 in tableShared digit maximumIndividual field, field name are
" numerical value 0 ", " numerical value 1 " ... " numerical value 2Shared digit maximum-1”;
S45) according to the explanation for corresponding to meaning in ICD to each value data, the practical significance that will specifically represent
Insert respective field;
S46) by step S41) to step S45) for each type it is the elemental signals Erecting and improving of discrete signal with signal
The table of name name.
Described data analysis method, including step:
Sa Array for structural body Element [16]) is established, the character string comprising representative element signal name becomes in each structure
The long of amount, the long variable of the string variable of representative element type, representative element data length and representative element value
Variable;
Sb the representative MsgID of FC-AE-ASM data frames word) is read, the character string that 16 system represents is converted to whole
Type;
Sc) by MsgID compared with the value of " message number " field in " message name " table, wherein " message name " " message number "
Step S22), step S23) in be established and assignment, in the case of numerical value identical, by " signal name of element 0 " to " element 15 is believed
Elemental signals name of the character string assignment of number name " field in the array Element [0] to Element [15], by " element 0
Signal type " to " signal type of element 15 " field character string assignment in the array Element [0] to Element [15]
In element type.
Sd data length, including step) are obtained according to element type:
Sd1) if element type is discrete signal in the array Element [n], the data length in the structure is
16;
Sd2) if element type is data in the array Element [n], by the elemental signals name in structure and step
Rapid S25) described in the value of " element n signal names " field compare, in the case of numerical value identical, by " data length " field
It is worth assignment in the data length of the structure;
Wherein n=0,1 ... 15.
Se discrete signal data value, including step) are obtained:
Se1) when element type is discrete signal in Element [n], then the elemental signals name in structure enters
Corresponding table, wherein n=0,1 ... 15;
Se2) PayLoad (payload) field in FC-AE-ASM data frames is connected, forms character string;
Se3) according to step S4) described in every record " digit ", " highest order ", " lowest order " field in discrete signal table
Value, by step Se2) in obtain character string split from a high position to low level, each character string after segmentation be this record
In " title " field references data name corresponding to 16 systems represent character string;
Se4 after each character string) is converted into integer X, be reconverted into " numerical value X " character string forms, then this record
In " value of numerical value X " fields is the practical significance of the data name corresponding data.
Sf data signal data value, including step) are obtained:
Sf1) when element type is data in the Element [n], then into step S31) described in " data "
Table, wherein n=0,1 ... 15;
Sf2) by elemental signals name in structure compared with the value of " signal name " field in table, when both are identical, obtaining should
The value of remaining field in bar record;
Sf3) PayLoad fields in FC-AE-ASM data frames are connected, form character string;
Sf4 the value of " data length " field in) being recorded according to this, in step Sf2) in the character string that obtains from a high position
The character string of corresponding length is intercepted to low level;
Sf5) by step Sf3) in obtain character string be converted to 16 system longs, according to this record in " data lattice
Formula " field, " MSB " field, " highest order " field, " lowest order " field information calculate actual numerical value.
Step Sf5) in BNE type of data format application BNR algorithms:
DHighest order*MSB+DHighest order -1*MSB*2-1+…+DLowest order*MSB*2Lowest order-highest order
Solution obtains actual numerical value.
To BC type of data format application BC algorithms:
(-1)*DHighest order*MSB+DHighest order -1*MSB+DHighest order -2*MSB*2-1+…+DLowest order*MSB*2Lowest order-highest order+1
Solution obtains actual numerical value.
The beneficial effects of the invention are as follows compared with prior art, present invention can apply to all data containing FC-AE-ASM
It is versatile in the product Auto-Test System of parsing;When Product Status changes, only ICD data need to be changed
Storehouse corresponding contents, Auto-Test System will not be impacted.
Brief description of the drawings
The present invention is further described with reference to the accompanying drawings and examples.
Fig. 1 is the message name literary name section explanation figure of the present invention;
Fig. 2 is the data-signal literary name section explanation figure of the present invention;
Fig. 3 is the discrete signal literary name section explanation figure of the present invention;
Fig. 4 is the data process of analysis figure of the present invention.
Embodiment
In order that the technical means, the inventive features, the objects and the advantages of the present invention are easy to understand, below it is right
The present invention is expanded on further.
Optical-fibre channel aeronautical environment (FC-AE) be fibre channel standard development organizations formulate cluster protocol suite, FC-AE-
ASM agreements are a kind of upper-layer protocols in FC-AE networks, and the agreement is used for supporting all kinds of places in optical-fibre channel aviation electronics environment
Determination, the communication of safety, low latency between reason device, sensor and display.The present invention includes ICD database and turned
Method and data analysis method are changed, can be applied in the product automation test system of all data containing FC-AE-ASM.
Message name literary name section explanation figure as shown in Figure 1:
" message name " table is established, includes " message number ", " message name ", " elemental signals name ", " element type " in table, its
In:
" message number " is corresponding with the MsgID in ASM frames, what a certain node that it corresponds in FC-AE networks was sent
Information;
" message name " represents the data block name in ICD files (i.e. signaling interface control file), and it represents data block
Function and implication;
" the elemental signals name " is the valid data block title of actual transmissions, and each data block contains up to 16 or 32
Individual element, each element 16, each data block is set in this program and contains up to 16 elements, each element is 16 or 32
Position, discrete signal are 16, and data signal is 16 or 32;
" element type " is divided into discrete signal and data.
Increase " signal name of element 0 " to " signal name of element 15 " in table, " signal type of element 0 " to " signal of element 15
Type ", totally 32 fields;
The elemental signals that each message package contains in ICD are filled in " element n signal names " word by order of elements
Section, and according to elemental signals data type, " discrete signal " or " data ", wherein n=are inserted in " element n signal types " field
0、1……15;
The complete frame FC-AE-ASM of a certain message name in signaling interface control file is contained in " message name " table
Frame information.
Data-signal literary name section explanation figure as shown in Figure 2:
Establish " data " table, in table it is middle establish " signal name ", " data format ", " data length ", " MSB ", " unit ",
" highest order ", " lowest order ", totally 7 fields:
Elemental signals name in " signal name " i.e. described " message name " table;
" data format " includes tetra- kinds of forms of BNR1, BNR2, BC1, BC2;
" data length " includes 16 or 32;
" MSB " represents data highest significant position;
" unit " places unit of the signal name to induction signal;
The highest order " and " lowest order " are corresponded respectively in 32 (D31-D0) or 16 (D15-D0) data
Highest order and lowest order.
Whole parsing information on a certain message are housed in " data " table.
Discrete signal literary name section explanation figure as shown in Figure 3:
Discrete signal table is established, table name is that element type is " elemental signals name " corresponding to discrete signal, is established in table
" title ", " digit ", " highest order ", " lowest order " four fields, " numerical value 0 ", " numerical value 1 " ... " numerical value 2 are established in additionDigit- 1 " totally 2DigitIndividual field, wherein:
" title " fills in the data name included in 16 discrete signals;
" digit " represents the digit shared by data;
" highest order " and " lowest order " correspond respectively to the highest order and lowest order shared by this discrete signal data, root
According to the explanation for corresponding to meaning in ICD to each value data, the practical significance specifically represented is inserted into respective field.
" numerical value 0 ", " the numerical value 1 " ... " numerical value 2Digit- 1 " totally 2DigitThe reality of this numerical value representative is deposited under individual field
Semantic information.
According to discrete signal classification in ICD, multiple discrete signal tables are established, it is convenient to be looked into data parsing
Look for practical significance information corresponding to data.
, being capable of institute in docking port control file by establishing complete " message name " table, " data " table and discrete signal table
Some message data is classified and parameterized, and is the important reference document for parsing ASM frame informations.
The software flow and operation principle of the present invention is described below:
Data process of analysis figure as shown in Figure 4, including step:
Sa Array for structural body Element [16]) is established, the character string comprising representative element signal name becomes in each structure
The long of amount, the long variable of the string variable of representative element type, representative element data length and representative element value
Variable;
Sb) read the starting character of FC-AE-ASM data frames, if reading successfully, reading represents MsgID word, by this 16
The character string that system represents is converted to integer;
Sc, will " member in the case of numerical value identical) by MsgID compared with the value of " message number " field in " message name " table
Plain 0 signal name " to " signal name of element 15 " field character string assignment in the array Element [0] into Element [15]
Elemental signals name, by the character string assignment of " signal type of element 0 " to " signal type of element 15 " field in the array
Element type in Element [0] to Element [15];
Sd data length, including step) are obtained according to element type:
Sd1) if element type is discrete signal in the array Element [n], the data length in the structure is
16;
Sd2) if element type is data in the array Element [n], by the elemental signals name in structure with
The value of " element n signal names " field in " message name " table compares, in the case of numerical value identical, by " data length " field
Value assignment in the data length of the structure;
Wherein n=0,1 ... 15.
Se discrete signal data value, including step) are obtained:
Se1) when element type is discrete signal in Element [n], then the elemental signals name in structure enters
Corresponding table, wherein n=0,1 ... 15;
Se2) PayLoad (payload) field in FC-AE-ASM data frames is connected, forms character string;
Se3) according to " digit ", " highest order ", the value of " lowest order " field is recorded in the discrete signal table, by step
Se2 the character string obtained in) is split from a high position to low level, and each character string after segmentation is " title " field in this record
The character string that 16 systems corresponding to the data name of representative represent;
Se4 after each character string) is converted into integer X, be reconverted into " numerical value X " character string forms, then this record
In " value of numerical value X " fields is the practical significance of the data name corresponding data.
Sf data signal data value, including step) are obtained:
Sf1) when element type is data in the Element [n], then described " data " table is entered, wherein n=0,
1…15;
Sf2) by elemental signals name in structure compared with the value of " signal name " field in table, when both are identical, obtaining should
The value of remaining field in bar record;
Sf3) PayLoad (payload) field in FC-AE-ASM data frames is connected, forms character string;
Sf4 the value of " data length " field in) being recorded according to this, in step Sf2) in the character string that obtains from a high position
The character string of corresponding length is intercepted to low level;
Sf5) by step Sf3) in obtain character string be converted to 16 system longs, according to this record in " data lattice
Formula " field, " MSB " field, " highest order " field, " lowest order " field information calculate actual numerical value.
" if data format " is BRN, using BRN algorithms:
DHighest order*MSB+DHighest order -1*MSB*2-1+…+DLowest order*MSB*2Lowest order-highest order
" if data format " is BC, using BC algorithms:
(-1)*DHighest order*MSB+DHighest order -1*MSB+DHighest order -2*MSB*2-1+…+DLowest order*MSB*2Lowest order-highest order+1
It is the message real data numerical value to resolve obtained numerical value.
Circulation step Se) and step Sf), all discrete signals or data signal data value are read, corresponding lookup is discrete
The practical significance that data value represents in signal table or " data " table, can be displayed on computer or industrial computer interface, that is, completes to FC-
The general parsing of AE-ASM data.
General principle, principal character and the advantages of the present invention of the present invention has been shown and described above.The technology of the industry
For personnel it should be appreciated that the present invention is not limited to the above embodiments, that described in above-described embodiment and specification is the present invention
Principle, without departing from the spirit and scope of the present invention, various changes and modifications of the present invention are possible, these change and
Improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention is by appended claims and its equivalent
Thing defines.
Claims (4)
1. the FC-AE-ASM data general-purpose analytic methods based on product ICD, it is characterised in that:Including Interface Controller
Document data bank conversion method, data analysis method, described ICD data base conversion method, including following step
Suddenly:
S1 data type) is divided;
S2 message name summary table) is established;
S3 data message table) is established;
S4 discrete signal table) is established;
Described data analysis method, comprises the following steps:
Sa Array for structural body) is established;
Sb MsgID) is read;
Sc MsgID and message number field) are compared;
Sd data length) is obtained according to element type;
Se discrete signal data value) is obtained;
Sf data signal data value) is obtained.
2. the FC-AE-ASM data general-purpose analytic methods according to claim 1 based on product ICD, it is special
Sign is:The step S1) all elements signal that contains the message package in ICD, it is divided into according to data type
Data-signal, discrete signal, data-signal can be divided into BNR1, BNR2, BC1, BC2, described BNR1, BNR2 according to data format
Data type is to apply BNR algorithms
DHighest order*MSB+DHighest order -1*MSB*2-1+…+DLowest order*MSB*2Lowest order-highest order
Solve obtained data-signal type;
BC1, BC2 type is to apply BC algorithms
(-1)*DHighest order*MSB+DHighest order -1*MSB+DHighest order -2*MSB*2-1+…+DLowest order*MSB*2Lowest order-highest order+1
Solve obtained data-signal type.
3. the FC-AE-ASM data general-purpose analytic methods according to claim 1 based on product ICD, it is special
Sign is:
Described step S2) include step:
S21 the table of entitled " message name ") is established in Microsoft Office Access;
S22 " message name ", " message number " field) are established in table;
S23 the message name of each message, message number in ICD) are inserted into corresponding field;
S24) " signal name of element 0 " to " signal name of element 15 " is increased in table, " signal type of element 0 " to " signal of element 15
Type ", totally 32 fields;
S25) elemental signals that each message package contains in ICD are filled in " element n signal names " word by order of elements
Section, and according to elemental signals data type, " discrete signal " or " data ", wherein n=are inserted in " element n signal types " field
0、1……15;
Described step S3) establish data message table, including step:
S31 the table of entitled " data ") is established in Microsoft Office Access;
S32 " signal name ", " data format ", " data length ", " MSB ", " unit ", " highest order ", " minimum) are established in table
Position ", totally 7 fields;
S33 all data types in " message name " table) are inserted into " signal name " field for the elemental signals name of data, according to interface
The description to each signal parameter in file is controlled, by signal format, data bit length, MSB, unit, highest meaningful data position
Other respective fields in table are inserted with the information of minimum meaningful data position;
Described step S4) include step:
S41 table) is established in Microsoft Office Access, is named with elemental signals name;
S42 " title ", " digit ", " lowest order ", " highest order ", totally 4 fields) are established in table;
S43) the data name for including elemental signals, digit shared by data, shared highest order and shared lowest order are inserted in table
Respective field;
S44) the maximum in the digit according to shared by each data, increases by 2 in tableShared digit maximumIndividual field, field name are " numerical value
0 ", " numerical value 1 " ... " numerical value 2Shared digit maximum-1”;
S45) according to the explanation for corresponding to meaning in ICD to each value data, the practical significance specifically represented is inserted
Respective field;
S46) by step S41) to step S45) ordered for the elemental signals Erecting and improving that each type is discrete signal with signal name
The table of name.
4. the FC-AE-ASM data general-purpose analytic methods according to claim 1 based on product ICD, it is special
Sign is:
The step Sa) it is to establish Array for structural body Element [16], include representative element signal name in each structure
String variable, the string variable of representative element type, the long variable of representative element data length and representative element value
Long variable;
Described step Sb) be read FC-AE-ASM data frames representative MsgID word, by 16 system represent character
String is converted to integer;
Described step Sc) it is by MsgID compared with the value of " message number " field in " message name " table, wherein " message name "
" message number " in step S22), step S23) in be established and assignment, in the case of numerical value identical, by " the signal of element 0
Name " to " signal name of element 15 " field element of the character string assignment in the array Element [0] to Element [15]
Signal name, by the character string assignment of " signal type of element 0 " to " signal type of element 15 " field in the array Element
[0] to the element type in Element [15];
Described step Sd) include step:
Sd1) if element type is discrete signal in the array Element [n], the data length in the structure is 16;
Sd2) if element type is data in the array Element [n], by the elemental signals name and step in structure
The value of " element n signal names " field described in S25) compares, in the case of numerical value identical, by the value in " data length " field
Assignment is in the data length of the structure, wherein n=0,1 ... 15;
Described step Se) include step:
Se1) when element type is discrete signal in Element [n], then the elemental signals name in structure enters corresponding
Table, wherein n=0,1 ... 15;
Se2) PayLoad fields in FC-AE-ASM data frames are connected, form character string;
Se3) according to step S4) described in every record " digit " in discrete signal table, " highest order ", " lowest order " field
Value, by step Se2) in obtain character string split from a high position to low level, each character string after segmentation be this record in
The character string that 16 systems corresponding to the data name of " title " field references represent;
Se4 after each character string) is converted into integer X, it is reconverted into and " numerical value X " character string forms, then " is counted in this record
The value of value X " fields is the practical significance of the data name corresponding data;
Described step Sf) include step:
Sf1) when element type is data in the Element [n], then into step S31) described in " data " table, its
Middle n=0,1 ... 15;
Sf2) by elemental signals name in structure compared with the value of " signal name " field in table, when both are identical, this note is obtained
The value of remaining field in record;
Sf3) PayLoad fields in FC-AE-ASM data frames are connected, form character string;
Sf4 the value of " data length " field in) being recorded according to this, in step Sf2) in the character string that obtains from a high position to low
The character string of the corresponding length of position interception;
Sf5) by step Sf3) in obtain character string be converted to 16 system longs, according to this record in " data format " word
Section, " MSB " field, " highest order " field, " lowest order " field information calculate actual numerical value.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109688208A (en) * | 2018-12-12 | 2019-04-26 | 中国航空工业集团公司西安航空计算技术研究所 | A kind of data load method based on FC-AE-ASM message |
CN111371596A (en) * | 2020-02-25 | 2020-07-03 | 中国航空无线电电子研究所 | Data distribution service software based on FC-AE bus |
CN111683075A (en) * | 2020-06-01 | 2020-09-18 | 沈阳航盛科技有限责任公司 | Data encryption algorithm based on FC-AE-ASM protocol communication |
CN112685031A (en) * | 2020-12-31 | 2021-04-20 | 江苏兴邦能源科技有限公司 | Analysis method and system for DBC file of fuel cell test system |
CN115600323A (en) * | 2022-11-15 | 2023-01-13 | 南京芯传汇电子科技有限公司(Cn) | Aviation system simulation method and system, electronic device and readable storage medium |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080028327A1 (en) * | 2006-07-27 | 2008-01-31 | Canon Kabushiki Kaisha | Information processing apparatus and user interface control method |
CN102523129A (en) * | 2011-12-05 | 2012-06-27 | 西北工业大学 | Universal avionics bus test analysis method and device |
CN103049414A (en) * | 2012-12-28 | 2013-04-17 | 中国航空工业集团公司第六三一研究所 | Method for converting and transmitting data between FC (fiber channel) bus and CAN (controller area network) bus |
CN104750758A (en) * | 2013-12-31 | 2015-07-01 | 深圳航天东方红海特卫星有限公司 | Micro satellite test data packet general analysis processing method and system |
CN106100919A (en) * | 2016-05-27 | 2016-11-09 | 中国航空工业集团公司沈阳飞机设计研究所 | A kind of FC bus testing system and FC bus test method |
-
2017
- 2017-09-07 CN CN201710800697.4A patent/CN107623728B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20080028327A1 (en) * | 2006-07-27 | 2008-01-31 | Canon Kabushiki Kaisha | Information processing apparatus and user interface control method |
CN102523129A (en) * | 2011-12-05 | 2012-06-27 | 西北工业大学 | Universal avionics bus test analysis method and device |
CN103049414A (en) * | 2012-12-28 | 2013-04-17 | 中国航空工业集团公司第六三一研究所 | Method for converting and transmitting data between FC (fiber channel) bus and CAN (controller area network) bus |
CN104750758A (en) * | 2013-12-31 | 2015-07-01 | 深圳航天东方红海特卫星有限公司 | Micro satellite test data packet general analysis processing method and system |
CN106100919A (en) * | 2016-05-27 | 2016-11-09 | 中国航空工业集团公司沈阳飞机设计研究所 | A kind of FC bus testing system and FC bus test method |
Non-Patent Citations (1)
Title |
---|
申鹏亮等: "《基于ICD的通用化航电测试软件研究》", 《测控技术》 * |
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109688208A (en) * | 2018-12-12 | 2019-04-26 | 中国航空工业集团公司西安航空计算技术研究所 | A kind of data load method based on FC-AE-ASM message |
CN111371596A (en) * | 2020-02-25 | 2020-07-03 | 中国航空无线电电子研究所 | Data distribution service software based on FC-AE bus |
CN111683075A (en) * | 2020-06-01 | 2020-09-18 | 沈阳航盛科技有限责任公司 | Data encryption algorithm based on FC-AE-ASM protocol communication |
CN112685031A (en) * | 2020-12-31 | 2021-04-20 | 江苏兴邦能源科技有限公司 | Analysis method and system for DBC file of fuel cell test system |
CN115600323A (en) * | 2022-11-15 | 2023-01-13 | 南京芯传汇电子科技有限公司(Cn) | Aviation system simulation method and system, electronic device and readable storage medium |
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