KR20170099167A - Multi-training platform control device and control method for multi-training platform - Google Patents

Abstract

The present invention proposes a common message structure that allows a single control device to operate a plurality of training platforms, and based on this, a single control device can train training according to one training scenario simultaneously and efficiently A single control device (multi-training platform control device) and a multi-training platform control method that can proceed are disclosed.

Description

TECHNICAL FIELD [0001] The present invention relates to a multi-training platform control device and a multi-

The present invention proposes a common message structure that allows a single control device to operate a plurality of training platforms, and based on this, a single control device can train training according to one training scenario simultaneously and efficiently It is about a plan that can proceed.

The Navy or the Air Force is required to continue training in preparation for the exhibition. Since it is limited to train directly in the sea or over the air with actual equipment, virtual training is conducted on the training ground using real equipment or training equipment have.

Of course, besides the Navy or Air Force, the Army can also carry out simulated training, and in addition to military personnel, it is possible to conduct simulated training in other cases where training in the actual environment is limited, such as fire training.

In the following, virtual virtual training will be described for convenience of explanation.

Instructors and naval trainees may conduct virtual offshore training on land, which is conducted by the trainee's (actual or training) equipment and by the instructor's controls.

Through these virtual sea drills, trainees can improve their understanding and proficiency in the equipment before they actually go to sea, and can develop various situations to indirectly experience and cope with situations.

However, in the past, the instructor's controls (eg, training controllers) must support the training platforms (eg LST, MLS, PKX, FFX) that the trainee's (actual or training) equipment has adopted.

In other words, referring to different training platforms A and B, there is a structure of a training controller 2 that supports a training controller 1 supporting training platform A and a training platform B as shown in FIG. 1 , And a control device (eg, a training controller) is a 1: 1 matching structure with the training platform.

As a result, in the past, due to the 1: 1 matching structure of the above-mentioned control devices (for example, training control devices) and training platforms, a large number of control devices (for example, training control devices) have.

In addition, in the past, when a training platform is newly developed (added) and equipment applied (adopted) or an existing training platform is modified, existing control devices (such as training controllers) It is not possible to operate the training platform, so that there is a disadvantage that a 1: 1 matching control device (for example, a training control device) capable of operating the training platform is newly provided.

Accordingly, the present invention proposes a common message structure that enables a single control device to operate a plurality of training platforms in order to overcome the disadvantages described above, and based on this, a single control device can be used in accordance with one training scenario We propose a method to efficiently perform the training at various training platforms at the same time.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a common message structure that allows a single control device to operate a plurality of training platforms, (Multi-training platform control device) and a multi-training platform control method by which a control device can efficiently perform the training according to one training scenario at various training platforms simultaneously.

According to a first aspect of the present invention, there is provided a method for controlling a multi-training platform, the method comprising: acquiring a message structure used in a training platform for at least two training platforms to be linked; Generating a common message structure by using the acquired training platform specific message structure; A scenario management step of creating a training scenario based on the common message structure; An identification step of identifying at least one interlocking training platform to be trained; A message structure reconstruction step of reconstructing a training control message for training progress according to the training scenario into a message structure of each of the interworking training platforms in the common message structure; And a training control step of transmitting the reconfigured training control message to each of the interlocking training platforms, thereby causing the interlocking training platform to simultaneously perform the training according to the training scenarios.

Preferably, the common message structure includes all the fields included in the message structure used in the two or more training platforms, and the common message structure is located in the upper area when the number of commonly-used message structures is large. Fields contained only in the message structure can be located in the lowest sub-area.

Preferably, the method further comprises managing the interworking history for each of the at least two training platforms; In the case where the number of message structures included in the common message structure is the same, the common message structure has a field of a message structure used in a training platform having more interlocking times or more interlocking times based on the interlocking history Can be located in the upper region.

Preferably, the message structure reconstruction step sequentially scans the upper area of the common message structure according to the lower area for each interlocking training platform to extract a field necessary for message structure reconfiguration of the interleaving training platform, For each platform, the message structure used in the interworking training platform can be reconstructed using the extracted fields.

Preferably, when the training platform to be interlocked is deleted or additionally registered, the step of regenerating the common message structure may further comprise regenerating the common message structure.

Advantageously, the method further comprises reconfiguring and sending a configuration message for setting the interworking training platform to the same training environment, from the common message structure to the message structure of each interworking training platform.

Advantageously, if the further registered training platform participates in an ongoing training, a preference message for setting the same training environment as the ongoing interworking training platform is generated from the regenerated common message structure, And reconstructing the message structure of the training platform and transmitting the reconstructed message structure.

According to a second aspect of the present invention, there is provided an apparatus for controlling a multi-training platform, the apparatus comprising: an acquiring unit acquiring a message structure used in a training platform for each of at least two training platforms to be interlocked; A common message structure generating unit for generating a common message structure using the acquired training platform specific message structure; A scenario manager for generating a training scenario based on the common message structure; An interlocking identification part for identifying at least one interlocking training platform to be trained; A message structure reconstruction unit reconstructing a training control message for training progress according to the training scenario into a message structure of each of the interworking training platforms in the common message structure; And a controller for transmitting the reconfigured training control message to each of the interlocking training platforms to allow the interlocking training platform to simultaneously perform the training according to the training scenarios.

Preferably, the common message structure includes all the fields included in the message structure used in the two or more training platforms, and the common message structure is located in the upper area when the number of commonly-used message structures is large. Fields contained only in the message structure can be located in the lowest sub-area.

Preferably, the system further comprises an interlocking history management unit for managing the interworking history for each of the at least two training platforms; In the case where the number of message structures included in the common message structure is the same, the common message structure has a field of a message structure used in a training platform having more interlocking times or more interlocking times based on the interlocking history Can be located in the upper region.

Preferably, the message structure reorganization unit sequentially scans the upper area of the common message structure according to the lower area for each interworking training platform, extracts fields necessary for message structure reconfiguration of the interworking training platform, Alternatively, the message structure used in the interworking training platform can be reconstructed using the extracted fields.

Advantageously, the common message structure generation unit may regenerate the common message structure when the training platform to be interlocked is deleted or additionally registered.

Advantageously, the message structure reconfiguration unit and the control unit can reconfigure and send a configuration message for setting the interlocking training platform to the same training environment, from the common message structure to the message structure of each interlocking training platform .

Advantageously, the message structure reconfiguration unit and the control unit are configured to send a configuration message to set the same training environment as the interworking training platform under training when the further registered training platform participates in ongoing training, From a common message structure to the message structure of the further registered training platform.

Preferably, the message structure reconfiguration unit may insert header information indicating a destination into the reconfigured training control message and the configuration message.

Accordingly, the multi-training platform control apparatus and the multi-training platform control method according to the present invention propose a common message structure that allows a single control apparatus (multi-training platform control apparatus) to operate a plurality of training platforms, On the basis of this, a single control device can efficiently perform the training according to one training scenario at various training platforms simultaneously.

1 is an exemplary diagram showing a 1: 1 matching structure for a conventional virtual training.
FIG. 2 is an exemplary diagram illustrating a virtual training structure including a multi-training platform control apparatus according to a preferred embodiment of the present invention.
3 is a block diagram illustrating a configuration of a multi-training platform control apparatus according to a preferred embodiment of the present invention.
FIG. 4 is a flowchart illustrating a flow of a method for controlling a multi-training platform according to a preferred embodiment of the present invention.
5 is an exemplary view illustrating an integrated message structure according to a preferred embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Before describing the present invention with reference to the drawings, the technical field to which the present invention is applied will be described first.

The present invention relates to virtual training conducted on a control device (training controller) on the instructor side and equipment (actual or training) on the trainee side.

The Navy or the Air Force is required to continue training in preparation for the exhibition. Since it is limited to train directly in the sea or over the air with actual equipment, virtual training is conducted on the training ground using real equipment or training equipment have.

Of course, besides the Navy or Air Force, the Army can also carry out simulated training, and in addition to military personnel, it is possible to conduct simulated training in other cases where training in the actual environment is limited, such as fire training.

Hereinafter, for the sake of convenience of explanation, a virtual sea training will be described.

Instructors and naval trainees can conduct virtual offshore drills on land, which are conducted by the trainee's (actual or training) equipment and the instructor's control (training controller).

However, in the past, the instructor's controls (eg, training controllers) must support the training platforms (eg LST, MLS, PKX, FFX) that the trainee's (actual or training) equipment has adopted.

In other words, referring to different training platforms A and B, there is a structure of a training controller 2 that supports a training controller 1 supporting training platform A and a training platform B as shown in FIG. 1 , And a control device (eg, a training controller) is a 1: 1 matching structure with the training platform.

As a result, in the past, due to the 1: 1 matching structure of the above-mentioned control devices (for example, training control devices) and training platforms, a large number of control devices (for example, training control devices) have.

In addition, in the past, when a training platform is newly developed (added) and equipment applied (adopted) or an existing training platform is modified, existing control devices (such as training controllers) It is not possible to operate the training platform, so that there is a disadvantage that a 1: 1 matching control device (for example, a training control device) capable of operating the training platform is newly provided.

Accordingly, the present invention proposes a common message structure for allowing a single control device (multi-training platform control device) to operate a plurality of training platforms in order to overcome the disadvantages described above, and based on this, We propose a method to efficiently train one training scenario in several training platforms at the same time.

Hereinafter, an example of a virtual training structure including a multi-training platform control apparatus according to a preferred embodiment of the present invention will be described with reference to FIG.

That is, in the present invention, unlike a conventional control device (e.g., a training controller) and a training platform 1: 1 matching structure, a single control device capable of operating a plurality of training platforms A, B, : A training controller), the multi-training platform controller 100 is proposed.

The multi-training platform control apparatus 100 of the present invention generates one common message structure using the message structures of the plurality of training platforms A, B, C ..., and generates a training control message or message B, C ... based on a common message structure by reconfiguring and sending a variety of messages, such as configuration messages, to a plurality of training platforms A, B, and C, respectively. .

Although not shown in FIG. 2, it is understood that each of the plurality of training platforms A, B, and C is connected to one or a plurality of (actual or training) equipment of the trainee adopting the corresponding training platform .

Hereinafter, the configuration of the multi-training platform control apparatus 100 according to the present invention described above with reference to FIG. 3 will be described in more detail.

3, the multi-training platform control apparatus 100 according to the present invention includes an acquiring unit 110 for acquiring a message structure used in a training platform for each of two or more training platforms to be interlocked, A common message structure generating unit 120 for generating a common message structure using the acquired training platform specific message structure, a scenario managing unit 130 for generating a training scenario based on the common message structure, A message structure for reconstructing a training control message for training progress according to the training scenario into a message structure of each of the interworking training platforms in the common message structure; And a reconfiguration unit (150) for transmitting the reconfigured training control message to each of the interworking training platforms, And a controller 160 for causing the training platform to simultaneously perform the training according to the training scenarios.

The acquiring unit 110 acquires a message structure used in the training platform for each of two or more training platforms to be interlocked.

Hereinafter, as shown in FIG. 2 for convenience of explanation, training platforms A, B, and C will be referred to as two or more training platforms to be interlocked.

That is, the acquiring unit 110 can acquire a message structure used in the training platform for each of two or more training platforms to be linked, that is, the training platforms A, B, and C.

At this time, the acquiring unit 110 may acquire the message structure directly from each of the training platforms A, B and C, or may acquire the message structure used in each of the training platforms A, B and C in a separate device Information management server).

In this case, the acquisition unit 110 will acquire the message structure of the training platform A, the message structure of the training platform B, and the message structure of the training platform C as the training platform-specific message structure.

The common message structure generating unit 120 generates a common message structure using the training platform specific message structure acquired by the obtaining unit 110. [

The generated common message structure includes all the fields included in the message structure used in two or more training platforms. The common message structure is located in the upper area as many common message structures are included in the message structure. The included fields are located in the lowest area.

In addition, if the common message structure is a field having the same number of message structures in common, the field of the message structure used in the training platform having more interlocking times or more interlocking times based on the interlocking history It can be located in a higher region.

As described above, the training platforms A, B, and C as two or more training platforms will be described in more detail as follows.

The common message structure generation unit 120 includes all the fields included in the message structure used in each of the training platforms A, B, and C, and the common message structure generation unit 120 is located in the upper area as the number of commonly- , A field included only in one message structure is generated in a common message structure of a form located in the lowest region.

More specifically, referring to FIG. 5, the following will be described.

5, the message structure of training platform A has the structure of fields 1, 2, 3, A1, and the message structure of training platform B has the structure of fields 1, 2, 4, B1 ..., and the message structure of the training platform C is assumed to have the structure of fields 1, 3, 4, C1 ....

5, the common message structure generation unit 120 generates all the fields included in the message structure used in each of the training platforms A, B and C, i.e., fields 1, 2 and 3 , 4, A1, B1, C1 ....

At this time, the common message structure generating unit 120 places the common message structure in the upper area in the common message structure as many common message structures are included in the field.

For example, in the case of FIG. 5, since the field having the largest number of message structures included in common is the field 1 included in the message structure of all three training platforms A, B, and C, In the uppermost region (a).

In this way, a field having a large number of message structures included in common will be located in a relatively higher area in the common message structure.

In this case, A1, B1, C1, ..., which are not contained in a message structure contained in one message structure but are contained in only one message structure, will naturally be located in the lowest sub-area c in the common message structure.

5, since fields 2, 3, and 4 are fields having a large number of message structures that are commonly included next to field 1 located in the uppermost area (a) in the common message structure, 1 is located in the uppermost region (a) and then in the upper region (b).

Field 2, field 3 and field 4 have the same number of message structures in common.

The multi-training platform control apparatus 100 of the present invention may further include an interlock history management unit 170 for determining the positions in the common message structure of the fields having the same number of message structures that are commonly included.

The interlocking history management unit 170 manages the interworking history by two or more training platforms to be interlocked, that is, the training platforms A, B, and C described above.

The interlocking history at this time may be a form including information on the number of interlocking times and interlocking times of the multi-training platform controller 100 and the training platform interlocked with the past.

5, the common message structure generation unit 120 generates a common message structure based on the interlocking history of the interlocking history management unit 170 in the case of field 2, field 3, and field 4 in FIG. 5, The field of the message structure used in the training platform with more interworking times or more recent interworking time is placed in the higher area.

Assuming that the training platform A -> B -> C, in which the number of interlocking times is greater or the interworking time point is more recent, in FIG. 5, in the common message structure, training platform A -> B - > C, the field 2 is located in the uppermost region of the region (b), the field 3 is located in the next higher region of the region (b), and the field 4 is located in the lowest region of the region (b).

Similarly, in FIG. 5, fields A1, B1, C1, ..., which are not contained in a common message structure but contained in only one message structure, are transmitted to the training platform A -> B -> C The field A1 is located in the uppermost region of the region c, the field B1 is located in the next higher region of the region c, and the field C1 is located in the next higher region of the region c.

On the other hand, when the training platform to be linked is deleted or additionally registered, the common message structure generation unit 120 regenerates the common message structure in the same manner as described above.

That is, when the training platform to be interlocked is deleted or additionally registered, the common message structure generation unit 120 regenerates the common message structure and updates the common message structure.

Of course, the common message structure generation unit 120 can reconstruct and update the common message structure even when there is a training platform in which modification, particularly message structure modification, occurs among the training platforms to be interlocked.

The scenario management unit 130 creates a training scenario based on the common message structure generated by the common message structure generation unit 120. [

For example, the user (instructor) who operates the multi-training platform control apparatus 100 starts the training scenario production in the multi-training platform control apparatus 100 and inputs various training situations, conditions, etc. according to the production process You can complete the training scenario creation.

At this time, the scenario management unit 130 creates a training scenario based on the common message structure created by the common message structure generation unit 120. [

Of course, the scenario management unit 130 may also perform loading or downloading based on the common message structure at the time of loading the training scenario stored in advance or at the time of downloading the training scenario from the outside.

In this case, the multi-training platform control apparatus 100 of the present invention includes (holds) a training scenario created, loaded or downloaded based on a common message structure.

The interlocking identification unit 140 identifies at least one interlocking training platform to be trained.

For example, a user (instructor) operating the multi-training platform control device 100 can select at least one training platform or at least one equipment to be trained in the multi-training platform control device 100. [

Accordingly, the interlocking identification unit 140 can identify the selected at least one training platform or at least one training platform to which the selected at least one equipment is connected, as at least one interlocking training platform to be trained.

The message structure reconfiguring unit 150 reconstructs the training control messages for the training progress according to the training scenarios from the common message structure to the message structure of each of the interworking training platforms.

At this time, the training scenarios are limited to training scenarios based on a common message structure.

Hereinafter, for convenience of explanation, it is assumed that training platforms A and B are identified as an interlocking training platform.

The message structure reconfiguring unit 150 reconstructs the training control messages for the training progress according to the training scenarios, that is, the training scenarios based on the common message structure, from the common message structure to the message structures of the interworking training platforms A and B .

More specifically, the message structure reconfiguring unit 150 sequentially scans the upper area of the common message structure according to the lower area for each of the interworking training platforms A and B, and extracts fields necessary for message structure reconfiguration of the interworking training platform do.

That is, the message structure reconfiguring unit 150 sequentially scans the upper area of the common message structure according to the lower area, and extracts fields 1,2,3, A1 ... necessary for message structure reconstruction of the interworking training platform A do.

In addition, the message structure reconstructing unit 150 sequentially scans the upper area of the common message structure according to the lower area to extract fields 1,2,4, B1 ... necessary for message structure reconstruction of the interlaced training platform b do.

The message structure reorganization unit 150 reconstructs the message structure used in the interworking training platform by using the extracted fields for each of the interworking training platforms A and B. [

That is, the message structure reconfiguring unit 150 reconstructs the message structure used in the interworking training platform A by using the extracted fields 1, 2, 3, A1.

Also, the message structure reconstructing unit 150 reconstructs the message structure used in the interlocking training platform B by using the extracted fields 1, 2, 4, B1...

At this time, the message structure reconfiguring unit 150 inserts header information indicating a destination in the training control message reconstructed for each of the interworking training platforms A and B.

Here, the header information preferably includes information about at least one of a training platform ID, a device ID, a message ID, and a message length.

In this case, since the common message structure proposed in the present invention is located in an upper area with a larger number of commonly-used message structures, the message structure is sequentially scanned according to a lower area in an upper area of the common message structure, It is possible to shorten the consumption time of the extraction process, thereby speeding up the reconstruction of the message structure and minimizing the load.

The control unit 160 transmits the training control messages reconstructed for each of the interworking training platforms A and B to the interworking training platforms A and B in the message structure reconstructing unit 150, And so on.

Accordingly, in the present invention, even if the number of training platforms to be interlocked increases, one multi-training platform control apparatus 100 can perform a plurality of training scenarios according to one common message structure If you have only one training scenario, you can perform virtual training simultaneously through several training platforms.

Meanwhile, in the present invention, the training environment of the training platform can be consistently set at the same time before the virtual training is simultaneously performed through the various training platforms.

Specifically, if the interlocking training platforms A and B to be trained are identified, the training configuration function can be performed automatically or by a user (instructor) operating the multi-training platform control device 100. [

That is, when the training environment setting function is automatically performed, the message structure reconfiguring unit 150 transmits a configuration message for setting the interlocking training platforms A and B to the same default training environment as the interlocking training platform A, B message structures, respectively.

Alternatively, the message structure reconstructing unit 150 may set the interlocking training platforms A and B mutually to the same specific training environment when the training environment setting function is preceded by the user (instructor) operating the multi-training platform control device 100 The configuration message for setting can be reconstructed from the common message structure into the message structure of the interworking training platforms A and B, respectively.

Here, the specific training environment may be a training environment according to the data input by the user (instructor).

Of course, the message structure reconfiguring unit 150 also inserts the header information indicating the destination as described above in the reconfiguration configuration message for each of the interworking training platforms A and B. [

The control unit 160 transmits the reconfigured environment setting message for each of the interworking training platforms A and B to the interworking training platforms A and B in the message structure reconfiguring unit 150, Simultaneously set them to the same.

On the other hand, if the training platform (e.g., training platform E) to be interlocked is additionally registered as described above, the message structure reconstruction unit 150 determines that the additionally registered training platform E is the current training platform A, B , A configuration message for setting the same training environment as that of the interworking training platforms A and B under training is created in the training platform E (in the above-described training platform E, Of the message structure.

Of course, the message structure reconfiguring unit 150 also inserts the header information indicating the destination in the configuration message of the reconstructed training platform E as described above.

The control unit 160 transmits the reconfigured environment setting message to the training platform E in the message structure reconfiguring unit 150 and transmits the training platform E to the same training environment as the interlocking training platforms A and B, It can be set automatically.

Thereafter, the message structure reconfiguring unit 150 transmits training control messages for training progress according to the training scenarios, that is, the re-generated common message structure based on the training scenarios, to the interworking training platforms A, B, and E Message structure.

The control unit 160 transmits the training control messages reconstructed for each of the interworking training platforms A, B, and E to the interworking training platforms A, B, and E in the message structure reconstructing unit 150, , And E to conduct the training according to one training scenario at the same time.

Accordingly, in the present invention, even if a training platform is newly developed (added) and equipment added thereto (adopted) or an existing training platform is modified or deleted, a 1: 1 matching control device You can re-create the common message structure without updating it.

As described above, according to the present invention, a common message structure that allows a single control device (multi-training platform control device) to operate a plurality of training platforms is proposed, and a single control device Training platform controller) can run multiple training platforms simultaneously, efficiently training one training scenario at the same time, and setting the same training environment for multiple training platforms at the same time.

Therefore, in the present invention, a plurality of existing control devices (for example, a training control device) must exist for each training platform, and a disadvantage in that the efficiency of management is low, a training platform is newly developed (added) Or a new 1: 1 matching control device (for example, a training control device) that can operate the existing training platform when it is modified can be all improved.

Hereinafter, a method of controlling a multi-training platform according to a preferred embodiment of the present invention will be described with reference to FIG.

For convenience of explanation, the multi-training platform control method of the present invention will be described as an operation method of the multi-training platform control device 100. FIG.

Hereinafter, the training platforms A, B, and C will be referred to as two or more training platforms to be interlocked as described above.

The multi-training platform control method of the present invention, that is, the method of operating the multi-training platform control apparatus 100 according to the present invention is a method for controlling a multi- (S100).

In the operation method of the multi-training platform control apparatus 100 according to the present invention, one common message structure is generated using the training platform-specific message structure acquired in step S100 (S110).

More specifically, referring to FIG. 5, the following will be described.

5, the message structure of training platform A has the structure of fields 1, 2, 3, A1, and the message structure of training platform B has the structure of fields 1, 2, 4, B1 ..., and the message structure of the training platform C is assumed to have the structure of fields 1, 3, 4, C1 ....

5, the method of operation of the multi-training platform control apparatus 100 according to the present invention may be applied to all the fields included in the message structure used in each of the training platforms A, B and C I.e., fields 1, 2, 3, 4, A1, B1, C1 ....

At this time, the operation method of the multi-training platform control apparatus 100 according to the present invention places the higher-level fields in the common message structure as the number of commonly-used message structures increases.

For example, in the case of FIG. 5, since the field having the largest number of message structures included in common is the field 1 included in the message structure of all three training platforms A, B, and C, In the uppermost region (a).

In this way, a field having a large number of message structures included in common will be located in a relatively higher area in the common message structure.

In this case, A1, B1, C1, ..., which are not contained in a message structure contained in one message structure but are contained in only one message structure, will naturally be located in the lowest sub-area c in the common message structure.

5, since fields 2, 3, and 4 are fields having a large number of message structures that are commonly included next to field 1 located in the uppermost area (a) in the common message structure, 1 is located in the uppermost region (a) and then in the upper region (b).

Field 2, field 3 and field 4 have the same number of message structures in common.

Although not shown in FIG. 4, the operation method of the multi-training platform control apparatus 100 according to the present invention is a method for determining a location in a common message structure of fields having the same number of message structures in common, 2 or more training platforms, that is, the training platforms A, B, and C mentioned above.

Accordingly, the operation method of the multi-training platform control apparatus 100 according to the present invention is based on a field having the same number of message structures, that is, field 2, field 3 and field 4 in FIG. 5, The field of the message structure used in the training platform with more interworking times or more recent interworking time is placed in the higher area.

Assuming that the training platform A -> B -> C, in which the number of interlocking times is greater or the interworking time point is more recent, in FIG. 5, in the common message structure, training platform A -> B - > C, the field 2 is located in the uppermost region of the region (b), the field 3 is located in the next higher region of the region (b), and the field 4 is located in the lowest region of the region (b).

Similarly, in FIG. 5, fields A1, B1, C1, ..., which are not contained in a common message structure but contained in only one message structure, are transmitted to the training platform A -> B -> C The field A1 is located in the uppermost region of the region c, the field B1 is located in the next higher region of the region c, and the field C1 is located in the next higher region of the region c.

The operation method of the multi-training platform control apparatus 100 according to the present invention creates a training scenario based on the common message structure generated in step S110 (S120).

For example, the user (instructor) who operates the multi-training platform control apparatus 100 starts the training scenario production in the multi-training platform control apparatus 100 and inputs various training situations, conditions, etc. according to the production process You can complete the training scenario creation.

At this time, the operation method of the multi-training platform control apparatus 100 according to the present invention creates a training scenario based on the common message structure generated in step S110.

The operation method of the multi-training platform control apparatus 100 according to the present invention may also include loading or downloading based on the common message structure at the time of loading the training scenario stored in advance or downloading the training scenario from outside Can be performed.

In this case, the multi-training platform control apparatus 100 of the present invention includes (holds) a training scenario created, loaded or downloaded based on a common message structure.

The method for operating the multi-training platform control apparatus 100 according to the present invention identifies at least one inter-operation training platform to be trained (S140) when virtual training is performed (Yes in S130).

For example, a user (instructor) operating the multi-training platform control device 100 can select at least one training platform or at least one equipment to be trained in the multi-training platform control device 100. [

Accordingly, an operation method of the multi-training platform control apparatus 100 according to the present invention includes at least one training platform selected or at least one training platform to which (selected) at least one selected apparatus is connected, Platform.

Hereinafter, for convenience of explanation, it is assumed that training platforms A and B are identified as an interlocking training platform.

The operation method of the multi-training platform control apparatus 100 according to the present invention determines whether the training environment setting function precedes the interactive training platforms A and B in step S140.

More specifically, the operation method of the multi-training platform control apparatus 100 according to the present invention is such that the training environment setting function is performed by the user (instructor) who operates the multi-training platform control apparatus 100 automatically .

The operation method of the multi-training platform control apparatus 100 according to the present invention is such that when the training environment setting function is automatically performed (Yes in S150), the method for setting the interlocking training platforms A and B to the same default training environment The configuration message can be reconstructed from the common message structure into the message structure of each of the interworking training platforms A and B (S160).

Alternatively, the operation method of the multi-training platform control apparatus 100 according to the present invention may be configured such that when the training environment setting function is preceded by the user (instructor) operating the multi-training platform control apparatus 100 (Yes at S150) An environment setting message for setting the training platforms A and B to the same specific training environment can be reconstructed from the common message structure to the message structure of the interworking training platforms A and B at step S160.

Of course, the operation method of the multi-training platform control apparatus 100 according to the present invention inserts header information indicating the destination as described above into the reconfigured environment setting message for each of the interworking training platforms A and B. [

In the operation method of the multi-training platform control apparatus 100 according to the present invention, the reconfigured environment setting message for each of the interworking training platforms A and B is transmitted to the interworking training platforms A and B in step S160, , And B to set the training environment at the same time (S165).

The operation method of the multi-training platform control apparatus 100 according to the present invention is such that if the training environment of the interlocking training platforms A and B is set to the same (S165) or if the training environment setting function is not preceded in step S150 No), a training control message for training progress according to a training scenario based on a training scenario based on a training scenario (S170) is reconstructed from a common message structure into a message structure for each of the interworking training platforms A and B (S170).

More specifically, the operation method of the multi-training platform control apparatus 100 according to the present invention is a method for sequentially scanning the upper area of the common message structure according to sub-areas for each of the interworking training platforms A and B, Extract the fields necessary for message structure reconstruction.

That is, the operation method of the multi-training platform control apparatus 100 according to the present invention is to scan sequentially the sub-areas in the upper area of the common message structure, 3, A1.

The operation method of the multi-training platform control apparatus 100 according to the present invention is a method for sequentially scanning the upper area of the common message structure according to the lower area, 4, B1, ... are extracted.

The operation method of the multi-training platform control apparatus 100 according to the present invention reconstructs a message structure used in the interworking training platform by using the extracted fields for each of the interworking training platforms A and B. [

That is, the operation method of the multi-training platform control apparatus 100 according to the present invention reconstructs a message structure used in the interworking training platform A by using the extracted fields 1, 2, 3, A1.

Also, the operation method of the multi-training platform control apparatus 100 according to the present invention reconstructs a message structure used in the interlocking training platform B by using the extracted fields 1, 2, 4, B1.

At this time, the operation method of the multi-training platform control apparatus 100 according to the present invention inserts header information indicating a destination into a training control message reconstructed for each of the interworking training platforms A and B.

In this case, since the common message structure proposed in the present invention is located in an upper area with a larger number of commonly-used message structures, the message structure is sequentially scanned according to a lower area in an upper area of the common message structure, It is possible to shorten the consumption time of the extraction process, thereby speeding up the reconstruction of the message structure and minimizing the load.

In the operation method of the multi-training platform control apparatus 100 according to the present invention, the training control messages reconstructed for each of the interlocking training platforms A and B are transmitted to the interlocking training platforms A and B in step S170, (S175). In this case, as shown in FIG.

Accordingly, in the present invention, even if the number of training platforms to be interlocked increases, one multi-training platform control apparatus 100 can perform a plurality of training scenarios according to one common message structure If you have only one training scenario, you can perform virtual training simultaneously through several training platforms.

On the other hand, if the virtual training does not proceed (No in S130), the operation method of the multi-training platform control device 100 according to the present invention determines whether the training platform to be linked is deleted or additionally registered (S180).

Hereinafter, it will be assumed that the training platform E is additionally registered.

The operation method of the multi-training platform control apparatus 100 according to the present invention is such that when a training platform (e.g., training platform E) to be an interlocking target is additionally registered (Yes in S180) The structure is regenerated (S190).

At this time, the operation method of the multi-training platform control apparatus 100 according to the present invention is such that when the additionally registered training platform E participates in ongoing training on the current training platforms A and B (Yes in S200) An environment setting message for setting the same training environment as the platforms A and B can be automatically reconfigured into a message structure of the training platform E in a common message structure (re-creation after re-registration of the training platform E described above) (S210).

Of course, the operation method of the multi-training platform control apparatus 100 according to the present invention also inserts header information indicating a destination as described above in the configuration message of the reconstructed training platform E.

In the method of operating the multi-training platform control apparatus 100 according to the present invention, the reconfigured environment setting message is transmitted to the training platform E in step S210, and the same training as that of the interlocking training platforms A and B The training platform E can be automatically set to the environment (S220).

Hereinafter, an operation method of the multi-training platform control apparatus 100 according to the present invention is a method of operating a multi-training platform control apparatus 100 according to an embodiment of the present invention, in which a training control message for training progress according to a training scenario, Reconstruct and transfer the message structures of training platforms A, B, and E, respectively, so that training on one of the training scenarios is performed concurrently on the interlaced training platforms A, B, and E (2).

Accordingly, in the present invention, even if a training platform is newly developed (added) and equipment added thereto (adopted) or an existing training platform is modified or deleted, a 1: 1 matching control device You can re-create the common message structure without updating it.

As described above, according to the present invention, a common message structure that allows a single control device (multi-training platform control device) to operate a plurality of training platforms is proposed, and a single control device Training platform controller) can run multiple training platforms simultaneously, efficiently training one training scenario at the same time, and setting the same training environment for multiple training platforms at the same time.

Therefore, in the present invention, a plurality of existing control devices (for example, a training control device) must exist for each training platform, and a disadvantage in that the efficiency of management is low, a training platform is newly developed (added) Or a new 1: 1 matching control device (for example, a training control device) that can operate the existing training platform when it is modified can be all improved.

Meanwhile, the steps of a method or algorithm or control function described in connection with the embodiments disclosed herein may be embodied directly in hardware, or may be implemented in the form of a program instruction that may be executed via various computer means, . The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and configured for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

According to the multi-training platform control apparatus and the multi-training platform control method of the present invention, a common message structure for allowing a single control apparatus to operate a plurality of training platforms is proposed. Based on this, Since it is possible to operate efficiently on the platform, it is not only the use of the related technology but also the possibility of commercialization or sales of the applied device, as it exceeds the limit of the existing technology, It is an invention that can be used for commercial use.

100: Multi-training platform
110: Acquiring unit 120: Common message structure generating unit
130: scenario management unit 140:
150: message structure reconstruction unit 160:
170:

Claims (15)

An acquiring step of acquiring a message structure used in the training platform for at least two training platforms to be interlocked;
Generating a common message structure by using the acquired training platform specific message structure;
A scenario management step of creating a training scenario based on the common message structure;
An identification step of identifying at least one interlocking training platform to be trained;
A message structure reconstruction step of reconstructing a training control message for training progress according to the training scenario into a message structure of each of the interworking training platforms in the common message structure; And
And a training control step of transmitting the reconstructed training control message to each of the interlocking training platforms, and causing the interlocking training platform to simultaneously perform the training according to the training scenarios. The method according to claim 1,
Wherein the common message structure comprises:
And all fields included in the message structure used in the at least two training platforms,
Wherein a field included in only one message structure is located in an uppermost area, and a field included only in one message structure is positioned in a lowest area. 3. The method of claim 2,
Further comprising: managing the interworking history for each of the at least two training platforms;
Wherein the common message structure comprises:
In the case of a field having the same number of message structures in common, the field of the message structure used in the training platform having more interlocking times or more interlocking time points based on the interlocking history is located in a higher area A method for controlling a multi-training platform. 3. The method of claim 2,
The message structure reconstruction step may include:
And sequentially extracting fields necessary for message structure reconstruction of the interworking training platform according to the sub areas in the upper area of the common message structure,
Wherein the message structure used in the interworking training platform is reconstructed using the extracted field for each interworking training platform. The method according to claim 1,
Further comprising regenerating the common message structure if the training platform to be interlocked is deleted or additionally registered. The method according to claim 1,
Further comprising reconstructing and sending an environment setting message for setting the interlocking training platforms to the same training environment from the common message structure to the message structure of each interlocking training platform, . 6. The method of claim 5,
Wherein said additional registered training platform receives a configuration message for setting the same training environment as the interworking training platform under training if the additional registered training platform participates in ongoing training, And reconstructing the multi-tasking platform into a structure and transmitting the reconstructed multi-tasking platform. An acquiring unit for acquiring a message structure used in the training platform for each of at least two training platforms to be interlocked;
A common message structure generating unit for generating a common message structure using the acquired training platform specific message structure;
A scenario manager for generating a training scenario based on the common message structure;
An interlocking identification part for identifying at least one interlocking training platform to be trained;
A message structure reconstruction unit reconstructing a training control message for training progress according to the training scenario into a message structure of each of the interworking training platforms in the common message structure; And
And a controller for transmitting the reconfigured training control message to each of the interlocking training platforms to cause the interlocking training platform to simultaneously perform the training according to the training scenarios. 9. The method of claim 8,
Wherein the common message structure comprises:
And all fields included in the message structure used in the at least two training platforms,
Wherein a field included in only one message structure is located in an uppermost area, and a field included only in one message structure is located in a lowest area. 10. The method of claim 9,
Further comprising an interworking history management unit for managing the interworking history for each of the at least two training platforms;
Wherein the common message structure comprises:
In the case of a field having the same number of message structures in common, the field of the message structure used in the training platform having more interlocking times or more interlocking time points based on the interlocking history is located in a higher area A multi-training platform control device characterized by. 10. The method of claim 9,
The message structure re-
And sequentially extracting fields necessary for message structure reconstruction of the interworking training platform according to the sub areas in the upper area of the common message structure,
Wherein the message structure used in the interworking training platform is reconstructed using the extracted field for each interworking training platform. 9. The method of claim 8,
Wherein the common message structure generating unit comprises:
And regenerates the common message structure when the training platform to be interlocked is deleted or additionally registered. 9. The method of claim 8,
The message structure reconstruction unit and the control unit may include:
Wherein an environment setting message for setting the interlocking training platforms to the same training environment is reconstructed from the common message structure to the message structure of each interlocking training platform and transmitted. 13. The method of claim 12,
The message structure reconstruction unit and the control unit may include:
Wherein said additional registered training platform receives a configuration message for setting the same training environment as the interworking training platform under training if the additional registered training platform participates in ongoing training, And transmits the reconstructed data to the structure. The method according to claim 8, 13 or 14,
The message structure re-
And inserts header information indicating a destination into the reconfigured training control message and the environment setting message.

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