CN115019595A - Avionics simulation I/O management-based training simulator implementation method and system - Google Patents

Abstract

The invention discloses a method and a system for realizing a training simulator based on avionic simulation I/O management, wherein the method comprises the following steps: step 1: acquiring an ICD file, establishing a mapping table for the key information and generating a corresponding database file; step 2: generating an ICD file in an XML format and a serialized ICD file; and 3, step 3: modeling according to the ICD file in the XML format and generating an interface control configuration information file; and 4, step 4: generating an interface control according to the interface control configuration information file; and 5: generating a standardized input/output interface according to the serialized ICD file; step 6: forming the man-machine interaction training data into standardized training excitation data; and 7: forming other training data into standardized training incentive data; and 8: normalized training record data is generated. The invention can improve the efficiency of data editing and excitation of the training simulator and increase the reusability, flexibility and expansibility of the simulator data.

Description

Avionics simulation I/O management-based training simulator implementation method and system

Technical Field

The invention relates to the field of training simulation application, in particular to a method for realizing adaptation of input/output (I/O) types of general training data aiming at the control management, storage, monitoring, recording and other related applications of training data of a flight training simulator of a combat aircraft and a task training simulator of a special aircraft, so as to achieve efficient centralized management and convenient use of I/O resources in the training simulator.

Background

Training simulators of combat airplanes and special airplanes become important equipment for flight training and task operation training of pilots and special airplane operators in various countries on the ground, and the related training data interaction and management technology is an important link for ensuring the efficient use of the training simulators. With the rapid development and deep research of computer simulation, virtual reality technology, human in-loop technology and other related subjects, and the packaging of various airplanes in China, the requirements on the fidelity and the efficient use of training simulators of corresponding combat airplanes and special airplanes are higher and higher, and the large amount of data, multiple types of data and frequent data interaction generated in the training process become one of the typical characteristics of the existing training simulators. In order to ensure the efficient use of the training simulator and reduce the expenditure of time cost and labor cost for the development of the whole training simulator, the existing training simulator needs to be capable of dynamically adapting training data and interface control files in real time, and new requirements are provided for the control management and monitoring record of data and the convenience of people in a loop.

The training simulator is a real-time simulation system with a human-in-loop system regardless of flight training simulator or task training simulator, a training instructor can issue a training instruction and specify a training subject on a guidance control platform or a instructor platform, and can also check the training state of the instructor and the running state of the training simulator in real time; and the trainees carry out a series of training activities in the flight training cockpit or the mission training seat according to the training incentive data. In order to support the training system of the set of people in the loop, the rear end of the training system also needs various data excitation sources as supports, for example, human-computer interaction training data, real-installation training data, simulation model training data, battlefield environment data, historical playback data, training sample data, assessment data, guidance control data and the like, the data size is large, the data types are multiple, and the data interaction is frequent, so that the method capable of carrying out classification processing and interface standardization processing on various training data is needed to realize the functions of unified input/output (I/O) training data storage, monitoring, recording and the like, and the I/O resources used by various training stations can be efficiently and conveniently and centrally managed.

In the training simulator, a task training seat or a flight training cockpit for training simulation needs a training instructor, a real-mounted training incentive device, a training device simulation model, a training battlefield simulation environment and a training database to perform function and data synchronization, the interface protocol between the training instructor, the real-mounted training incentive device, the training device simulation model, the training battlefield simulation environment and the training database is complex, the data communication traffic is large and frequent, and the matching and management of interface input/output become a great application difficulty of the training simulator in various models. The existing I/O adaptation and management technology mostly adopts a customized development mode, each training simulator carries out data interaction by using a specific interface control file (ICD) interface form, a human-computer interaction interface of the training simulator needs to be drawn by a user according to the interface control file, once new training simulator development is carried out, the part of work almost needs to be redeveloped, and the data interface and the human-computer interaction interface can not be reused, so that the I/O adaptation and management technology has low reusability, poor transplanting flexibility, difficulty in expansion and incapability of quick reconstruction, can not adapt to the requirement of concurrent development of multiple models of the current training simulator, is also not convenient for monitoring and analysis in the data interaction process, and is not beneficial to function debugging and fault positioning.

Disclosure of Invention

Aiming at the defects of the existing I/O adaptation and management technology, the invention provides a training simulator implementation method and system based on avionic simulation I/O management, which can improve the data editing and exciting efficiency of the training simulator and increase the reusability, flexibility and expansibility of simulator data so as to solve the problems of large workload of development of a man-machine interaction interface of the training simulator, difficult later maintenance and upgrading, low generalization degree and the like.

The technical scheme adopted by the invention is as follows:

a training simulator implementation method based on avionic simulation I/O management comprises the following steps:

step 1: ICD files in various forms are obtained from an external designated position through an ICD intelligent management module, ICD names and elements in the ICD files are extracted, a mapping table is established for key information, and a corresponding database file is generated;

step 2: the ICD intelligent management module determines a required file format, a size end sequence and a data alignment mode according to a data application scene of the current training simulator, and automatically generates a corresponding XML format ICD file and a serialized ICD file;

and 3, step 3: after the ICD file in the XML format provided by the ICD intelligent management module is obtained through the dynamic ICD configuration module, modeling is carried out on the content in the ICD file in the XML format according to an object-oriented idea, a data channel between an ICD internal data item and a view is established, and an interface control configuration information file is generated according to the ICD file in the XML format;

and 4, step 4: generating an interface control by a training data human-computer interaction interface according to an interface control configuration information file, and automatically forming data constraint of human-computer interaction input and output according to constraint conditions in interface control configuration file information;

and 5: after the serialized ICD file provided by the ICD intelligent management module is obtained through the I/O standardized management module, ICD data is automatically analyzed item by item in a structured form, the packaging and unpacking of the ICD data are completed, and a standardized input/output interface is generated;

step 6: when a training instructor inputs human-computer interaction training data through an interface control automatically generated on a training data human-computer interaction interface, the human-computer interaction training data are sent to an I/O (input/output) standardized management module, standardized training excitation data are automatically formed by the I/O standardized management module according to the ICD information after serialization processing, and the standardized training excitation data are sent to a task training seat or a flight training cabin in training simulation equipment;

and 7: when the I/O standardized management module receives other training data, standardized training excitation data are generated according to the serialized ICD information and are used by training simulation equipment;

and 8: the training process and state data returned by the training simulation equipment are automatically unpacked, packaged and distributed through the I/O standardization management module to form standardized training record data, the standardized training record data are sent to the training database for classification storage, the standardized training process and state data are sent to the training data man-machine interaction interface for display, and training monitoring and assessment data are provided for training instructors.

Further, the other training data includes the real-loading training data generated by the real-loading training incentive device, the model training data generated by the simulation model of the training device, the battlefield environment data generated by the training battlefield simulation environment, and the historical playback data of the training database.

Further, the human-computer interaction training data comprises training control instructions, training subject selection and assessment data.

Furthermore, the ICD intelligent management module is provided with a visual viewing and editing interface for editing and correcting the analyzed elements and contents.

Further, the interface control generated by the training data human-computer interaction interface comprises Button, Edit, CheckBox, ComboBox, List and radio group.

A training simulator implementation system based on avionics simulation I/O management, comprising:

the ICD intelligent management module is used for acquiring ICD files in various forms from an external designated position, extracting ICD names and elements in the ICD files, establishing a mapping table for key information and generating a corresponding database file; determining a required file format, a size end sequence and a data alignment mode according to a data application scene of the current training simulator, and automatically generating a corresponding XML format ICD file and a serialized ICD file;

the dynamic ICD configuration module is used for acquiring the ICD file in the XML format provided by the ICD intelligent management module, modeling the content in the ICD file in the XML format according to an object-oriented idea, establishing a data channel between an ICD internal data item and a view, and generating an interface control configuration information file according to the ICD file in the XML format;

training a data human-computer interaction interface, generating an interface control according to the interface control configuration information file, and automatically forming data constraint of human-computer interaction input and output according to constraint conditions in the interface control configuration file information;

the I/O standardized management module is used for automatically analyzing ICD data item by item in a structured form after acquiring the serialized ICD file provided by the ICD intelligent management module, completing the packaging and unpacking of the ICD data and generating a standardized input/output interface; automatically forming standardized training excitation data by the human-computer interaction training data sent by the human-computer interaction interface according to the ICD information after the serialization processing, and sending the standardized training excitation data to a task training seat or a flight training cabin in training simulation equipment; generating standardized training excitation data for training simulation equipment by other training data according to the serialized ICD information; the training process and the state data returned by the training simulation equipment are automatically unpacked, packaged and distributed to form standardized training record data, the standardized training record data are sent to a training database for classified storage, the standardized training process and the standardized state data are sent to a training data man-machine interaction interface for display, and training monitoring and assessment data are provided for a training instructor.

Further, the other training data includes the real-loading training data generated by the real-loading training incentive device, the model training data generated by the simulation model of the training device, the battlefield environment data generated by the training battlefield simulation environment, and the historical playback data of the training database.

Further, the human-computer interaction training data comprises training control instructions, training subject selection and assessment data.

Furthermore, the ICD intelligent management module is provided with a visual viewing and editing interface for editing and correcting the analyzed elements and contents.

Further, the interface control generated by the training data human-computer interaction interface comprises Button, Edit, CheckBox, ComboBox, List and radio group.

The invention has the beneficial effects that:

(1) the invention takes ICD intelligent management technology, dynamic ICD configuration technology and I/O standardized management technology as the core, uniformly manages and adapts various, large-capacity and frequently-interacted data in the running process of a training simulator to form standardized input and output, realizes the functions of excitation, storage, monitoring, recording and the like of the training data, and centrally manages I/O resources used by various task training seats or flight training cabins so as to achieve the purposes of high efficiency and convenience.

(2) The ICD intelligent management technology adopted by the invention extracts ICD names and elements in the ICD original files with different models and complicated training simulators through an ICD intelligent management module no matter the file formats of the ICD original files are of any types, and establishes a mapping table for key information and generates corresponding database files through a file intelligent identification technology. Meanwhile, the ICD intelligent management module also provides a visual viewing and editing interface for users, so that the operation of the users in the loop is realized. The ICD intelligent management module can automatically produce corresponding XML files, serialized files or text files of the ICD according to the file format, the size end sequence, the data alignment and other rules required by the data application scene, and provide the XML files, the serialized files or the text files and the like of the ICD for subsequent steps to be applied.

(3) The dynamic ICD configuration technology adopted by the invention can quickly convert the XML format ICD file acquired by the ICD intelligent management module into the interface control configuration file through the dynamic ICD configuration module and support the generation of common control types, including Button, Edit, checkBox, Combo Box, List, radio group and the like, thereby greatly reducing the repetitive mental labor in the training data human-computer interaction interface development process, ensuring the software quality, shortening the development period, and solving the problems of large workload, difficult later maintenance and upgrade, low generalization degree and the like of the training simulator human-computer interaction interface.

(4) The I/O standardization technology adopted by the invention forms a standardized input/output interface from the serialized ICD file acquired by an ICD intelligent management module through an I/O standardization management module, and a series of large, various and frequent interactive data such as man-machine interaction training data, loading training data, simulation model training data, battlefield environment data, historical playback data, training sample data, assessment data, guidance control data and the like which need to be generated in the training process, the I/O standardized management module is used for carrying out unified I/O training data excitation, storage, monitoring, recording and the like, and I/O resources used by various task training seats or flight training cabins are managed in a centralized manner, dynamic adaptation of the I/O resources of various training stations is realized, and the I/O resources in the training simulator are managed in a centralized manner efficiently and conveniently.

(5) The I/O intelligent management technology based on avionic simulation provided by the invention can be suitable for the development of various flight training simulators and task training simulators, and can be applied to the I/O interface intelligent management in the fields of physical training simulation, semi-physical simulation, test application environment construction and the like.

In summary, the present invention is implemented by applying the ICD intelligent management technology, the dynamic ICD configuration technology and the I/O standardized technology, and can provide various data stimuli for the training simulator under different tasks, form a standardized data processing format, and improve the efficiency of data editing and stimulus, so as to achieve the purpose of centralized management and convenient use of various I/O data in the training simulator, increase the reusability, flexibility and extensibility of the simulator data, facilitate the user to perform rapid function development and upgrade, and reduce the cost of human resources while increasing the working efficiency.

Drawings

Fig. 1 is a schematic diagram of a training simulator implementation method based on avionics simulation I/O management in embodiment 1 of the present invention.

Detailed Description

In order to more clearly understand the technical features, objects, and effects of the present invention, specific embodiments of the present invention will now be described. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Along with the rapid development of various combat aircrafts and special mission aircrafts, matched training equipment is also developed synchronously, and even the trend of prior equipment shaping appears in recent years, the aim is to provide an environment for ground training operation for pilots or mission operators in advance, to ensure that the pilots or mission operators can carry out vivid simulation operation training before the operation of the pilots or the mission operators are on the airplane, and to carry out monitoring analysis and assessment on the training process by training instructors.

The embodiment provides a training simulator implementation method based on avionic simulation I/O management, which can convert external ICD files (interface control files) with any format and difference into XML files, serialized files or text files and the like with uniform formats through intelligent management and conversion capability, form standardized input and output interfaces through analysis of the files, and dynamically generate a human-computer interaction interface.

As shown in fig. 1, the method for implementing a training simulator based on avionics simulation I/O management in this embodiment includes the following steps:

step 1: ICD files in various forms are obtained from an external designated position through an ICD intelligent management module, ICD names and elements in the ICD files (interface control files) are extracted, a mapping table is established for key information, and corresponding database files are generated. Preferably, the ICD intelligent management module is provided with a visual viewing and editing interface for editing and correcting the analyzed elements and contents, so that a user can conveniently control and manage the ICD intelligent management module.

And 2, step: the ICD intelligent management module determines a required file format, a size end sequence and a data alignment mode according to a data application scene of the current training simulator, and automatically generates a corresponding XML format ICD file and a serialized ICD file.

And step 3: after the ICD file in the XML format provided by the ICD intelligent management module is obtained through the dynamic ICD configuration module, the content in the ICD file in the XML format is modeled according to the object-oriented idea, a data channel between an ICD internal data item and a view is established, and an interface control configuration information file is generated according to the ICD file in the XML format.

And 4, step 4: and generating an interface control by the training data human-computer interaction interface according to the interface control configuration information file, and automatically forming data constraint of human-computer interaction input and output according to constraint conditions in the interface control configuration file information. Preferably, the interface control generated by the training data human-computer interaction interface comprises Button, Edit, CheckBox, ComboBox, List and radio group.

And 5: after the serialized ICD file provided by the ICD intelligent management module is obtained through the I/O standardized management module, ICD data is automatically analyzed item by item in a structured form, the packaging and unpacking of the ICD data are completed, and a standardized input/output interface is generated.

Step 6: when a training instructor inputs human-computer interaction training data through an interface control automatically generated on a training data human-computer interaction interface, the human-computer interaction training data are sent to an I/O standard management module, standard training excitation data are automatically formed by the I/O standard management module according to the ICD information after serialization processing, and the training excitation data are sent to a task training seat or a flight training cockpit in training simulation equipment. Specifically, the human-computer interaction training data comprises training control instructions, training subject selection and assessment data.

And 7: when the I/O standardization management module receives other training data, standardized training excitation data is generated according to the serialized ICD information and is used for training the simulation equipment. Specifically, the other training data includes the live training data generated by the live training incentive device, the model training data generated by the training device simulation model, the battlefield environment data generated by the training battlefield simulation environment, and the historical playback data of the training database.

And 8: the training process and state data returned by the training simulation equipment are automatically unpacked, packaged and distributed through the I/O standardized management module to form standardized training record data, the standardized training record data are sent to the training database for classified storage, the standardized training process and state data are sent to the training data man-machine interaction interface for display, and training monitoring and assessment data are provided for training instructors.

According to the steps, unified data excitation, storage, monitoring and recording based on an avionic simulation I/O intelligent management technology, automatic generation and data constraint protection of a human-computer interaction interface can be realized in the development of the training simulator, the I/O resources in the training simulator are efficiently and conveniently managed in a centralized manner, and meanwhile, the problems of large workload of development of the human-computer interaction interface of the training simulator, difficulty in later maintenance and upgrading, low generalization degree and the like are solved, so that the purpose of convenient use is achieved.

Example 2

The embodiment provides a training simulator implementation system based on avionic simulation I/O management, which comprises an ICD intelligent management module, a dynamic ICD configuration module, an I/O standardized management module and a training data human-computer interaction interface, wherein:

the ICD intelligent management module acquires ICD files in various forms from an external designated position, extracts ICD names and elements in the ICD files, establishes a mapping table for key information and generates a corresponding database file. Meanwhile, according to the data application scene of the current training simulator, the required file format, the sequence of the size end and the data alignment mode can be determined, and the corresponding XML format ICD file and the serialized ICD file can be automatically generated.

Preferably, the ICD intelligent management module is provided with a visual viewing and editing interface for editing and correcting the analyzed elements and contents.

The dynamic ICD configuration module is used for obtaining the ICD file in the XML format provided by the ICD intelligent management module, modeling the content in the ICD file in the XML format according to an object-oriented idea, establishing a data channel between an ICD internal data item and a view, and generating an interface control configuration information file according to the ICD file in the XML format.

The training data human-computer interaction interface is used for generating an interface control according to the interface control configuration information file and automatically forming data constraint of human-computer interaction input and output according to constraint conditions in the interface control configuration file information.

Preferably, the interface control generated by the training data human-computer interaction interface comprises Button, Edit, CheckBox, ComboBox, List and radio group.

The I/O standardization management module is used for automatically analyzing ICD data item by item in a structured form after acquiring the serialized ICD files provided by the ICD intelligent management module, completing the packaging and unpacking of the ICD data and generating a standardized input/output interface; automatically forming standard training excitation data by the human-computer interaction training data sent by the human-computer interaction interface according to the ICD information after serialization processing, and sending the standard training excitation data to a task training seat or a flight training cockpit in training simulation equipment; generating other training data into standardized training excitation data for training simulation equipment according to the serialized ICD information; the training process and the state data returned by the training simulation equipment are automatically unpacked, packaged and distributed to form standardized training record data, the standardized training record data are sent to a training database for classified storage, the standardized training process and the standardized state data are sent to a training data man-machine interaction interface for display, and training monitoring and assessment data are provided for a training instructor.

Preferably, the human-computer interaction training data comprises training control instructions, training subject selection and assessment data.

Preferably, the other training data includes live training data generated by the live training incentive device, model training data generated by the training device simulation model, battlefield environment data generated by the training battlefield simulation environment, and historical playback data of the training database.

The training simulator needs to generate man-machine interaction training data, loading training data, simulation model training data, battlefield environment data, historical playback data, training sample data, assessment data, guidance control data and the like in the training process, the data volume is large, the data types are various, the data interaction is frequent, the functions of I/O training data excitation, storage, monitoring, recording and the like can be unified, I/O resources used by various task training seats or flight training cabins are managed in a centralized mode, the I/O type adaptation of the general training data is achieved, and the I/O resources in the training simulator are managed in a centralized mode efficiently and conveniently. In addition, the embodiment can also quickly convert the ICD file in the XML format acquired from the ICD intelligent management module into the interface control configuration file through the dynamic ICD configuration module, and support the generation of common control types, such as Button, Edit, CheckBox, ComboBox, List, radio group and the like, thereby greatly reducing the repetitive mental labor in the training data human-computer interaction interface development process, ensuring the software quality, shortening the development period, solving the problems of large workload, difficult later maintenance and upgrade, low generalization degree and the like of the training simulator human-computer interaction interface, and achieving the purpose of convenient use.

It should be noted that the foregoing method embodiments are described as a series of acts or combinations for simplicity in description, but it should be understood by those skilled in the art that the present application is not limited by the order of acts described, as some steps may occur in other orders or concurrently depending on the application. Further, those skilled in the art should also appreciate that the embodiments described in the specification are preferred embodiments and that the acts and modules referred to are not necessarily required in this application.

Claims (10)

1. A training simulator implementation method based on avionic simulation I/O management is characterized by comprising the following steps:

step 1: ICD files in various forms are obtained from an external designated position through an ICD intelligent management module, ICD names and elements in the ICD files are extracted, a mapping table is established for key information, and a corresponding database file is generated;

step 2: the ICD intelligent management module determines a required file format, a size end sequence and a data alignment mode according to a data application scene of the current training simulator, and automatically generates a corresponding XML format ICD file and a serialized ICD file;

and step 3: after the ICD file in the XML format provided by the ICD intelligent management module is obtained through the dynamic ICD configuration module, modeling is carried out on the content in the ICD file in the XML format according to an object-oriented idea, a data channel between an ICD internal data item and a view is established, and an interface control configuration information file is generated according to the ICD file in the XML format;

and 4, step 4: generating an interface control by a training data human-computer interaction interface according to an interface control configuration information file, and automatically forming data constraint of human-computer interaction input and output according to constraint conditions in interface control configuration file information;

and 5: after the serialized ICD file provided by the ICD intelligent management module is obtained through the I/O standardized management module, ICD data is automatically analyzed item by item in a structured form, the packaging and unpacking of the ICD data are completed, and a standardized input/output interface is generated;

step 6: when a training instructor inputs human-computer interaction training data through an interface control automatically generated on a training data human-computer interaction interface, the human-computer interaction training data are sent to an I/O (input/output) standardized management module, standardized training excitation data are automatically formed by the I/O standardized management module according to the ICD information after serialization processing, and the standardized training excitation data are sent to a task training seat or a flight training cabin in training simulation equipment;

and 7: when the I/O standardized management module receives other training data, standardized training excitation data are generated according to the serialized ICD information and are used by training simulation equipment;

and 8: the training process and state data returned by the training simulation equipment are automatically unpacked, packaged and distributed through the I/O standardized management module to form standardized training record data, the standardized training record data are sent to the training database for classified storage, the standardized training process and state data are sent to the training data man-machine interaction interface for display, and training monitoring and assessment data are provided for training instructors.

2. The method of claim 1, wherein the other training data includes real-world training data generated by a real-world training incentive device, model training data generated by a training device simulation model, battlefield environment data generated by a training battlefield simulation environment, and historical replay data of a training database.

3. The method of claim 1, wherein the human-computer interaction training data comprises training control instructions, training subject selection, and assessment evaluation data.

4. The method for implementing the training simulator based on the avionics simulation I/O management according to claim 1, wherein the ICD intelligent management module is provided with a visual viewing and editing interface for editing and correcting the analyzed elements and contents.

5. The method for implementing an avionics simulation I/O management-based training simulator of claim 1, wherein interface controls generated by the training data human-computer interaction interface include Button, Edit, CheckBox, ComboBox, List, and Radiogroup.

6. A training simulator implementation system based on avionics simulation I/O management, comprising:

the ICD intelligent management module is used for acquiring ICD files in various forms from an external designated position, extracting ICD names and elements in the ICD files, establishing a mapping table for key information and generating a corresponding database file; determining a required file format, a size end sequence and a data alignment mode according to a data application scene of the current training simulator, and automatically generating a corresponding XML format ICD file and a serialized ICD file;

the dynamic ICD configuration module is used for acquiring the ICD file in the XML format provided by the ICD intelligent management module, modeling the content in the ICD file in the XML format according to an object-oriented idea, establishing a data channel between an ICD internal data item and a view, and generating an interface control configuration information file according to the ICD file in the XML format;

training a data human-computer interaction interface, generating an interface control according to the interface control configuration information file, and automatically forming data constraint of human-computer interaction input and output according to constraint conditions in the interface control configuration file information;

the I/O standardized management module is used for automatically analyzing ICD data item by item in a structured form after acquiring the serialized ICD file provided by the ICD intelligent management module, completing the packaging and unpacking of the ICD data and generating a standardized input/output interface; automatically forming standard training excitation data by the human-computer interaction training data sent by the human-computer interaction interface according to the ICD information after serialization processing, and sending the standard training excitation data to a task training seat or a flight training cockpit in training simulation equipment; generating other training data into standardized training excitation data for training simulation equipment according to the serialized ICD information; the training process and the state data returned by the training simulation equipment are automatically unpacked, packaged and distributed to form standardized training record data, the standardized training record data are sent to a training database for classified storage, the standardized training process and the standardized state data are sent to a training data man-machine interaction interface for display, and training monitoring and assessment data are provided for a training instructor.

7. The avionics simulation I/O management-based training simulator implementation system of claim 6, wherein the other training data includes live training data generated by live training incentive devices, model training data generated by training device simulation models, battlefield environment data generated by training battlefield simulation environments, and historical replay data of a training database.

8. The avionics simulation I/O management-based training simulator implementation system of claim 6, wherein the human-machine interaction training data comprises training control instructions, training subject selection and assessment evaluation data.

9. The avionics simulation I/O management-based training simulator implementation system of claim 6, wherein the ICD intelligent management module is provided with a visual viewing and editing interface for editing and correcting the parsed elements and content.

10. The avionics simulation I/O management-based training simulator implementation system of claim 6, wherein the interface controls generated by the training data human-computer interaction interface include Button, Edit, CheckBox, ComboBox, List, and radio group.

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