KR102401940B1 - Apparatus and method for operating measuring deceptive devices - Google Patents

Abstract

The present invention relates to an apparatus and a method for operating a measuring deceptive device, which prevent an opponent from identifying the accurate location of a user. More specifically, the apparatus for operating a measuring deceptive device comprises: a capture checking unit identifying whether a measuring deceptive device is captured in a weapon system of an opponent; a location checking unit identifying whether the current location of the corresponding weapon system can be checked by the measuring deceptive device if the measuring deceptive device is determined to be captured in the weapon system of the opponent; a distance checking unit identifying the distance between the measuring deceptive device and the weapon system of the opponent if it is determined that the current location of the weapon system of the opponent can be checked; and a deceptive mode control unit controlling to maintain or change a deceptive mode of the current measuring deceptive device to fly if it is determined that the distance between the measuring deceptive device and the weapon system of the opponent is included in a preset reference distance.

Description

DEVICES AND METHOD FOR OPERATING MEASURING DECEPTIVE DEVICES

The present invention relates to an apparatus and method for operating a measuring device and a method thereof, and more particularly, when it is determined that the measuring device has been captured by the opponent's weapon system, and the current location of the opponent's weapon system is not identified or identified as possible. The present invention relates to an apparatus and method for operating a measuring device that changes the deception mode of the measuring device according to the distance between the measuring device and the opponent's weapon system so that the opponent's weapon system cannot determine the exact location.

In the case of a weapon system that strikes an enemy through flight, each mission is performed while having a certain flight time. However, in the case of being captured by the enemy during the flight stage, it is difficult for the weapon system to directly determine whether or not it is captured. can be lowered

In addition, if the weapon system is an unguided weapon, it is difficult to respond separately, so it is difficult to avoid the defense system even if you know whether it is captured. As the location approaches the impact point, it is difficult to correct the trajectory, and when terminal guidance is performed, a constant bullet posture and altitude/speed are required to perform the terminal mission.

Therefore, even with a guided weapon, it is impossible to perform an evasive maneuver depending on the situation, or a sudden evasive maneuver is performed, resulting in a situation such as a decrease in bullet stability and an increase in the impact error, and a situation in which the final strike fails.

In this regard, Korean Patent Application Laid-Open No. 2019-0041208 discloses "a device and method for generating a satellite navigation deceptive signal".

The present invention was invented to solve the above problems, and when it is determined that a signal is not detected through a sensor provided in the instrumentation device based on previously identified identification information for the opponent's weapon system, the opponent's weapon system The purpose of the present invention is to provide an apparatus and method for operating the instrumentation deception device that determines that the instrumentation deception device has not been captured and controls the flight to continue in the deception mode of the current instrumentation deception device.

In addition, the present invention provides a device for operating a measuring device that changes the deception mode of the measuring device according to the distance between the device and the weapon system of the opponent, which is not determined to be capable of confirming the current location of the opponent's weapon system, and The purpose is to provide the method.

In order to achieve the above object, an apparatus for operating a measuring device according to the present invention includes: a capture confirmation unit for determining whether a measuring device is captured by an opponent's weapon system; a positioning unit configured to determine whether the current location of the corresponding weapon system can be confirmed by the measuring device when it is determined that the measuring device has been captured by the opponent's weapon system; If it is determined that the current location of the opponent's weapon system can be confirmed, the distance check unit to determine the distance between the measuring device and the opponent's weapon system; and a deception mode control unit configured to maintain or change the deception mode of the current instrumentation deception device and control the flight when it is determined that the distance between the instrumentation deception device and the opponent's weapon system is included in the preset reference distance.

In addition, the capture confirmation unit is characterized in that based on the identification information previously identified with respect to the opponent's weapon system, it is characterized in that it grasps whether a signal is detected through a sensor provided in the instrumentation device.

In addition, the deception mode control unit is characterized in that when it is determined that the instrumentation deception device is not captured by the opponent's weapon system, the current flight of the instrumentation deception device is continued.

In addition, the deception mode control unit is characterized in that it changes the deception mode of the measuring deception device according to the distance between the measured deception device and the opponent's weapon system that is not determined or that the current location of the opponent's weapon system can be confirmed.

In addition, the deception mode control unit is characterized in that the deception mode is selected as at least one of measurement signal absorption, disturbance, and deception based on the mutual distance from the opponent's weapon system and the remaining impact time with respect to the measurement deception device.

In addition, the positioning unit determines whether the current position of the corresponding weapon system can be confirmed by the measurement deception device, and if it is determined that the current position of the opponent's weapon system is not possible as a result of the determination, the deception mode changed after a preset time is selected It is characterized in that it is re-figured whether it is possible to confirm the current location of the weapon system by the instrumentation device based on it.

In addition, the distance check unit determines the distance between the measuring device and the opponent's weapon system, and if it is determined that the identified distance between the measuring device and the opponent's weapon system is not included in the preset reference distance, the changed after a preset time It is characterized by reassessing the distance between the instrument deception device based on the deception mode and the opponent's weapon system.

In order to achieve the above object, there is provided a method of operating a measuring deception device according to the present invention, comprising the steps of: determining, by a capture confirmation unit, whether a measuring deception device is captured by an opponent's weapon system; determining, by the positioning unit, whether the current location of the corresponding weapon system can be confirmed by the measuring device, when it is determined that the measuring device has been captured by the opponent's weapon system; determining, by the distance check unit, a distance between the measuring device and the opponent's weapon system when it is determined that the current location of the opponent's weapon system can be checked; and controlling, by the deception mode control unit, to maintain or change the deception mode of the current instrumentation deception device to fly when it is determined that the distance between the instrumentation deception device and the opponent's weapon system is included in the preset reference distance. .

In addition, the step of determining whether the instrumentation deception device has been captured by the opponent's weapon system includes determining whether a signal is detected through a sensor provided in the instrumentation deception device based on previously identified identification information for the opponent's weapon system. characterized.

In addition, after the step of determining whether the instrumentation deception device has been captured in the opponent's weapon system, if it is determined that the instrumentation deception device is not captured in the opponent's weapon system, the flight of the current instrumentation deception device is continued. do.

In addition, if it is determined that the instrumentation deception device has been captured by the opponent's weapon system, the step of determining whether the current location of the weapon system can be checked by the instrumentation deception device, and if it is determined that the current location of the opponent's weapon system can be checked After the step of determining the distance between the instrumentation deception device and the opponent's weapon system, the deception of the instrumentation deception device is determined according to the distance between the measured deception device and the opponent's weapon system, which is not identified or that it is not possible to check the current location of the opponent's weapon system Changing the mode; characterized in that it includes.

In addition, if it is determined that the instrumentation deception device has been captured by the opponent's weapon system, the step of determining whether the current location of the weapon system can be checked by the instrumentation deception device may include: If it is determined whether the current location of the opponent's weapon system can be checked as a result of the determination, it is re-checked whether the current location of the weapon system can be checked by the instrument deception device based on the changed deception mode after a preset time. characterized by comprehension.

In addition, if it is determined that the current location of the opponent's weapon system can be checked, the step of determining the distance between the instrumentation deception device and the opponent's weapon system is to determine the distance between the instrumentation deception device and the opponent's weapon system, and If it is determined that the distance between the device and the opponent's weapon system is not included in the preset reference distance, the distance between the measuring deception device and the opponent's weapon system based on the changed deception mode after a preset time is re-figured.

An apparatus and method for operating a measuring device according to the present invention for achieving the above object, the signal is not detected through the sensor provided in the measuring device based on the identification information previously identified for the opponent's weapon system If it is detected, it is determined that the instrumentation deception device is not captured in the opponent's weapon system and controls the flight to continue in the deception mode of the current instrumentation deception device. It has the effect of dispersing or absorbing so that the opponent cannot grasp my exact location.

In addition, the present invention determines whether the current location of the corresponding weapon system can be confirmed by the measuring device, and if it is determined that the current location of the opponent's weapon system is not possible as a result of the determination, the location of the measuring device cannot be determined. By changing to the most probable deception mode, it has the effect of contributing to the improvement of the survival rate and accuracy of the instrumentation deception device by making it impossible for the opponent to determine the exact location of the current me.

In addition, the present invention determines the distance between the measuring device and the opponent's weapon system, and if it is determined that the identified distance between the measuring device and the opponent's weapon system is not included in the preset reference distance, survivability and accuracy can be increased. By changing to the deception mode that can be used, it is possible to improve the deception success rate of the measuring deception device by making it impossible for the opponent to determine the exact location of the current me.

In addition, in the present invention, if it is determined that the distance between the measuring device and the opponent's weapon system is included in the preset reference distance, the deception mode that is most likely to be unable to determine the exact location of the measuring device at that time is maintained or changed By doing so, it has the effect of making it impossible for the opponent to grasp my exact location, so that the measuring device can efficiently perform the mission.

1 is a conceptual diagram for explaining an apparatus and method for operating only a measuring device according to the present invention.
2 is a view for explaining the configuration of a device for operating only a measuring device according to the present invention.
3 is a view for explaining the sequence of a method of operating a measuring device only according to the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and described in detail.

However, this is not intended to limit the present invention to specific embodiments, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. In describing each figure, like reference numerals have been used for like elements.

When an element is referred to as being “connected” or “connected” to another element, it is understood that it may be directly connected or connected to the other element, but other elements may exist in between. it should be On the other hand, when it is said that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It is to be understood that this does not preclude the possibility of addition or existence of numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. Hereinafter, the same reference numerals are used for the same components in the drawings, and repeated descriptions of the same components are omitted.

1 is a conceptual diagram for explaining an apparatus and method for operating only a measuring device according to the present invention.

Referring to FIG. 1, the apparatus and method for operating the measuring deception device according to the present invention transmit a specific signal (radio wave) from the sensor provided in the measuring deception device based on a situation in which an enemy is attacked using a weapon system. By simulating it, it emits, disperses, or absorbs disturbance/deception signals so that the opponent can determine your exact location.

2 is a view for explaining the configuration of a device for operating only a measuring device according to the present invention.

Referring to FIG. 2 , the device 100 for operating the measuring device according to the present invention is largely a capture check unit 110 , a location check unit 120 , a distance check unit 130 , and a deception mode control unit 140 . ) is included.

The capture confirmation unit 110 determines whether a measuring device has been captured by the opponent's weapon system.

The capture confirmation unit 110 determines whether a signal is detected through a sensor provided in the instrument only based on identification information (eg, heat/radio intensity/image measurement through a searcher rule, etc.) previously identified for the opponent's weapon system. That is, the acquisition confirmation unit 110 may confirm the previously identified identification information based on feedback according to a preset time interval.

When it is determined that the measuring device has been captured by the opponent's weapon system, the positioning unit 120 determines whether the current location of the corresponding weapon system can be confirmed by the measuring device.

The positioning unit 120 determines whether the current position of the opponent's weapon system can be confirmed by the measurement deception device, and if it is determined that the current position of the opponent's weapon system cannot be confirmed as a result of the determination, the deception changed after a preset time It is re-determined whether the current location of the weapon system can be determined by the instrumentation device based on the mode.

When it is determined that the current location of the opponent's weapon system can be confirmed, the distance check unit 130 detects the distance between the measuring device and the opponent's weapon system.

The distance check unit 130 determines the distance between the measuring device and the opponent's weapon system, and if it is determined that the identified distance between the measuring device and the opponent's weapon system is not included in the preset reference distance, after a preset time Based on the changed deception mode, re-evaluate the distance between the instrument deception device and the opponent's weapon system.

When it is determined that the distance between the instrumentation deception device and the opponent's weapon system is included in the preset reference distance, the deception mode controller 140 maintains or changes the deception mode of the current instrumentation deception device and controls it to fly.

When it is determined by the capture confirmation unit 110 that the instrumentation deception device is not captured by the opponent's weapon system, the deception mode control unit 140 allows the current flight of the instrumentation deception device to continue.

In addition, the deception mode control unit 140 determines that the current position of the opponent's weapon system cannot be confirmed by the positioning unit 120, or the deception mode of the instrumentation deception device is determined according to the distance between the detected instrumentation deception device and the opponent's weapon system. to control to fly.

Here, the deception mode control unit 140 maintains or changes the deception mode with a high probability of not being able to determine the exact location of the instrumentation deception device based on the mutual distance from the opponent's weapon system and the remaining impact time with respect to the instrumentation deception device, but A deception mode may be selected as at least one of signal absorption, disturbance, and deception. At this time, the time to change the deception mode is determined according to the mission of the instrumentation deception device or the pre-loaded flight scenario.

In more detail, the deception mode control unit 140 determines based on the distance between the opponent's weapon system and mine, the remaining time of impact, etc. to re-change the deception mode when necessary to increase the survival rate and accuracy of the weapon system. In addition, for mission success, set the ratio of survival rate and accuracy according to the system scenario and mission (eg, 70% survival rate, 30% accuracy), and give weight to the more important of the two so that it can be considered when switching modes.

3 is a view for explaining the sequence of a method of operating a measuring device only according to the present invention.

Referring to FIG. 3 , the method of operating the measuring device according to the present invention uses the above-described device for operating the measuring device, and the overlapping description will be omitted below.

First, the flight of the measuring device is executed (S100).

Next, it is determined whether the instrumentation deception device is captured in the opponent's weapon system (S200).

In step S200, based on identification information (eg, heat/radio intensity/image measurement through a searcher rule, etc.) previously identified for the opponent's weapon system, it is possible to determine whether a signal is detected through a sensor provided in the instrument only.

On the other hand, if it is determined in step S200 that the instrumentation deception device is not captured by the opponent's weapon system, the flight of the current instrumentation deception device is continued (S250).

Next, if it is determined in step S200 that a measuring device has been captured by the opponent's weapon system, it is determined whether the current location of the corresponding weapon system can be checked by the measuring device or not (S300).

In step S300, after determining whether it is possible to check the current location of the weapon system by the measuring device Reassess whether the current location of the weapon system can be identified by the deception device.

And if it is determined that it is not possible to check the current location of the opponent's weapon system in step S300, the deception mode of the instrumentation deception device is changed to a deception mode that is highly likely to not be able to determine the exact location and controls to fly (S350) . This is repeated until the current location of the opponent's weapon system is confirmed.

Next, if it is determined in step S300 that it is possible to check the current location of the opponent's weapon system, the distance between the measuring device and the opponent's weapon system is determined (S400).

In step S400, the distance between the measuring device and the opponent's weapon system is determined, and if it is determined that the identified distance between the measuring device and the opponent's weapon system is not included in the preset reference distance, the changed deception mode is applied after a preset time. Reassess the distance between the underlying instrument and the opponent's weapon system.

And in step S400, if it is determined that the distance between the instrumentation deception device and the opponent's weapon system is not included in the preset reference distance, the deception mode of the instrumentation deception device is changed to a deception mode that is highly likely to not be able to determine the exact location and fly to control to do so (S450).

In the next step S400, if it is determined that the distance between the instrumentation deception device and the opponent's weapon system is included in the preset reference distance, the deception mode of the current instrumentation deception device is maintained or changed to a deception mode with a high probability that the exact location cannot be determined. to control to fly (S500).

The functional operations described herein and the embodiments related to the present subject matter are implemented in a digital electronic circuit or computer software, firmware or hardware, including the structures disclosed herein and structural equivalents thereof, or in a combination of one or more of these It is possible.

Embodiments of the subject matter described herein relate to one or more computer program products, ie one or more computer program instructions encoded on a tangible program medium for execution by or for controlling the operation of a data processing device. It can be implemented as a module. A tangible program medium may be a radio wave signal or a computer-readable medium. A radio wave signal is an artificially generated signal, eg, a machine-generated electrical, optical or electromagnetic signal, that is generated to encode information for transmission to an appropriate receiver device for execution by a computer. The computer-readable medium may be a machine-readable storage device, a machine-readable storage substrate, a memory device, a combination of materials that affect a machine-readable radio wave signal, or a combination of one or more of these.

A computer program (also known as a program, software, software application, script or code) may be written in any form of any programming language, including compiled or interpreted language or a priori or procedural language, and may be a stand-alone program or module; It can be deployed in any form, including components, subroutines, or other units suitable for use in a computer environment.

A computer program does not necessarily correspond to a file on a file device. A program may be stored in a single file provided to the requested program, or in multiple interacting files (eg, files that store one or more modules, subprograms, or portions of code), or in files holding other programs or data. It may be stored within some (eg, one or more scripts stored within a markup language document).

The computer program may be deployed to be executed on a single computer or multiple computers located at one site or distributed over a plurality of sites and interconnected by a communication network.

Additionally, the logic flows and structural block diagrams described in this patent document describe corresponding acts and/or specific methods supported by corresponding functions and steps supported by the disclosed structural means, and corresponding It can also be used to establish software structures and algorithms and their equivalents.

The processes and logic flows described herein may be performed by one or more programmable processors executing one or more computer programs to perform functions by operating on received data and generating outputs.

Processors suitable for the execution of computer programs include, for example, both general and special purpose microprocessors and any one or more processors of any form of digital computer. Typically, the processor will receive instructions and data from either read-only memory or random access memory or both.

A key component of a computer is one or more memory devices for storing instructions and data and a processor for executing instructions. In addition, a computer is generally configured to be operable to receive data from, transmit data to, or perform both operations on one or more mass storage devices for storing data, such as, for example, magnetic, magneto-optical disks or optical disks. combined or will include. However, the computer need not have such a device.

The present description sets forth the best mode of the invention, and provides examples to illustrate the invention, and to enable any person skilled in the art to make or use the invention. The specification thus prepared does not limit the present invention to the specific terms presented.

Accordingly, although the present invention has been described in detail with reference to the above-described examples, those skilled in the art can make modifications, changes, and modifications to the examples without departing from the scope of the present invention. In short, in order to achieve the intended effect of the present invention, it is not necessary to separately include all the functional blocks shown in the drawings or follow all the orders shown in the drawings. Note that it may fall within the scope.

100: a device that operates only a measuring instrument
110: capture confirmation unit
120: positioning unit
130: distance check unit
140: deception mode control unit

Claims (13)

a capture confirmation unit to determine whether a measuring device has been captured by the opponent's weapon system;
a positioning unit configured to determine whether the current location of the weapon system can be confirmed by the measuring device when it is determined that the measuring device has been captured by the opponent's weapon system;
If it is determined that the current location of the opponent's weapon system can be confirmed, the distance check unit to determine the distance between the measuring device and the opponent's weapon system; and
a deception mode control unit for controlling the flight by maintaining or changing the deception mode of the current instrumentation deception device when it is determined that the distance between the instrumentation deception device and the opponent's weapon system is included in the preset reference distance;
A device for operating only a measuring instrument, characterized in that it comprises a. According to claim 1,
The device for operating a measuring device, characterized in that the capture confirmation unit detects whether a signal is detected through a sensor provided in the measuring device based on the identification information previously identified for the opponent's weapon system. The method of claim 1,
The device for operating a measuring device, characterized in that the deception mode control unit continues the flight of the current measuring device when it is determined that the measuring device is not captured by the opponent's weapon system. According to claim 1,
The deception mode control unit is a measuring deception device, characterized in that it changes the deception mode of the measuring deception device according to the distance between the measured deception device and the opponent’s weapon system that is not determined or that it is not possible to check the current location of the opponent's weapon system operating device. According to claim 1,
The deception mode control unit selects the deception mode as at least one of measurement signal absorption, disturbance, and deception based on the mutual distance with the opponent's weapon system and the remaining impact time for the instrumentation deception device. Device. The method of claim 1,
The positioning unit determines whether the current position of the corresponding weapon system can be confirmed by the measuring deception device, and if it is determined that the current position of the opponent's weapon system cannot be confirmed as a result of the determination, based on the deception mode changed after a preset time A device for operating a measuring device, characterized in that it is re-figured whether the current location of the weapon system can be checked by the measuring device. The method of claim 1,
The distance check unit determines the distance between the measuring device and the opponent's weapon system, and if it is determined that the identified distance between the measuring device and the opponent's weapon system is not included in the preset reference distance, the deception mode changed after a preset time A device for operating a measuring device, characterized in that the distance between the measuring device and the opponent's weapon system is re-established. recognizing, by the capture confirmation unit, whether or not a measuring device has been captured by the opponent's weapon system;
determining, by the positioning unit, whether the current location of the corresponding weapon system can be confirmed by the measuring device when it is determined that the measuring device has been captured by the opponent's weapon system;
determining, by the distance check unit, a distance between the measuring device and the opponent's weapon system when it is determined that the current location of the opponent's weapon system can be confirmed; and
controlling, by the deception mode controller, to fly by maintaining or changing the deception mode of the current instrumentation deception device when it is determined that the distance between the instrumentation deception device and the opponent's weapon system is included in the preset reference distance;
A method of operating a measuring instrument comprising a. 9. The method of claim 8,
Determining whether an instrumentation gimmick has been detected by the opponent's weapon system includes:
A method of operating a measuring device, characterized in that it is determined whether a signal is detected through a sensor provided in the measuring device based on previously identified identification information for the opponent's weapon system. 9. The method of claim 8,
After the step of determining whether an instrumentation gimmick has been detected by the opponent's weapon system,
A method of operating an instrumentation deception device, characterized in that if it is determined that the instrumentation deception device is not captured by the opponent's weapon system, the flight of the current instrumentation deception device is continued. 9. The method of claim 8,
If it is determined that a measuring device has been detected in the opponent's weapon system, the step of determining whether the current location of the weapon system can be checked by the measuring device, and if it is determined that the current location of the opponent's weapon system can be confirmed After determining the distance between the device and the opponent's weapon system,
Changing the deception mode of the instrumentation deception device according to the distance between the instrumentation deception device and the weapon system of the opponent, which is not determined to be capable of confirming the current location of the opponent’s weapon system, or How to operate. 9. The method of claim 8,
If it is determined that the instrumentation deception device has been captured by the opponent's weapon system, the step of determining whether the current location of the corresponding weapon system can be confirmed by the instrumentation deception device comprises:
It is checked whether the current location of the weapon system can be checked by the instrumentation device, and if it is determined that the current location of the opponent’s weapon system cannot be confirmed as a result of the determination, it is sent to the instrumentation device based on the changed deception mode after a preset time. A method of operating a measuring device, characterized in that it is re-figured whether it is possible to check the current location of the weapon system by means of a method. 9. The method of claim 8,
If it is determined that it is possible to check the current location of the opponent's weapon system, the step of determining the distance between the measuring device and the opponent's weapon system is:
Determine the distance between the instrument deception device and the opponent’s weapon system, and if it is determined that the identified distance between the instrument deception device and the opponent’s weapon system is not included in the preset reference distance, instrument deception based on the changed deception mode after a preset time A method of operating a measuring device, characterized in that the distance between the device and the opponent's weapon system is re-figured.

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