KR20150124874A - Radar system based on cooperative communication and extension method of sensing range by cooperative communication between radar system - Google Patents

Abstract

The present invention relates to a radar system based on cooperative communications. The present invention includes: a transmission and reception part which transmits or receives a signal; and a first information processing part which determines where a radar operating mode is changed by using the radar operating mode determined based on a received signal and a peripheral radar operating mode stored in the peripheral radar data base, calculates present radar control information by using prior radar control information and the peripheral radar data base when the radar operating mode is changed according to the determination result, and determines the present radar operating mode by using the calculated present data control information. The transmission and reception part is for outputting a detection signal generated according to the radar operating mode.

Description

Technical Field [0001] The present invention relates to a cooperative communication based radar system and a cooperative communication between a radar system and a radar system,

The present invention relates to a radar system, and more particularly to a cooperative communication based radar system and a method of extending the detection area through cooperative communication between radar systems.

A radar system is a system for measuring distance and movement speed of a target by using radio waves. In order to detect, identify and track a target, it is necessary to detect a certain area, to be installed in a specific place, Several units can be used simultaneously in the same area mounted on the moving means.

The radar system selects one operation mode according to the detection purpose, the identification and tracking step of the policy or the target according to the purpose of the operation, and performs the corresponding target detection. According to the operation mode of the radar system, the target detection region is determined, and the waveform, the size and the shape of the detection region, the operation order of the signal for detecting the detection region, and the like are changed, and the frequency band, ), And the pulse repetition frequency. These key variables are the factors that cause differences in the performance of target detection, identification and tracking in the detection domain.

However, even when many radar systems are used in the same area, most radar systems use the same operation mode independently, so that when the operation mode is changed or the detection area is changed, the target for the external area may not be detected do.

In particular, when the performance of a radar is concentrated in a specific area such as a combat mode, a detection area between radar systems as well as a problem that exists outside or in proximity to the target may be overlapped.

Also, when multiple targets are tracked, the maximum detection distance is shortened as the number of targets increases.

In addition, in the case of a radar system using an active phased array antenna, it is possible to support multi-mode in an interleaved manner, but there is a problem that a large load is generated in the system.

It is an object of the present invention to provide a cooperative communication based radar system for expanding a target detection area by applying an operation mode having different target detection areas between radar systems through cooperative communication.

According to an aspect of the present invention, there is provided a cooperative communication-based radar system including a transmission / reception unit for transmitting or receiving a signal; Determining whether the determined radar operation mode is changed by using the radar operation mode determined based on the received signal and the surrounding radar operation mode stored in the surrounding radar database, A first information processing unit for calculating current radar control information by using the surrounding radar database and previous radar control information, and determining a current radar operation mode by applying the calculated current radar control information; And a transceiver for outputting a detection signal generated according to the radar operation mode.

Receiving means for updating the detection information database using the detection information of the surrounding radar included in the surrounding radar signal when the signal received by the transmission / reception unit is a surrounding radar signal transmitted from the surrounding radar, And a second information processing unit for updating the peripheral radar database using the control information.

The first information processing unit compares the priority of the current radar operation mode with the priority of the surrounding radar operation mode stored in the peripheral radar database and determines whether the priority of the current radar operation mode is equal to or greater than the priority of the current radar operation mode, The control unit determines that it is necessary to change the determined radar operation mode.

The priority is highest in the case of the radar operation mode selected by the user and lowest in the radar operation mode in which there is no target in the detection area.

Wherein the first information processing unit determines that it is necessary to change the determined radar operation mode when a region overlapping the detection region of the determined radar operation mode among the detection regions of the surrounding radar operation mode stored in the peripheral radar database .

Wherein the second information processing unit is configured to detect the surrounding information by using the detection information of the surrounding radar included in the signal, and to distinguish from the detection information included in the reflected signal transmitted in accordance with the radar operation mode before updating the detection information database, And an identification code is given to the detection information included in the surrounding radar signal transmitted from the surrounding radar.

The detection information includes target information, jammer information, and feature information obtained in a detection area according to the radar operation mode.

And the radar control information includes a scheduling information, a shape, and a jammer avoiding function of a detection signal for detecting a detection area according to the radar operation mode.

Receiving unit that receives the signal received by the transceiver unit and detects the detection signal included in the reflected signal and transmits the detected signal to the first information processing unit when the received signal is a reflected signal transmitted according to the radar operation mode, And a signal processing unit for transmitting the detection information of the surrounding radar included in the surrounding radar signal and the radar control information of the surrounding radar to the second information processing unit in case of a surrounding radar signal.

Wherein the control unit controls the transceiver unit to transmit the detection signal to the detection region according to the radar operation mode determined through the first information processing unit, separates the entire detection distance to which the detection signal is steered into a plurality of distance segments, Determining whether or not the target is positioned for each of the distance sections with respect to the reflected signal that is reflected and returning, assigning priorities in descending order of the distance section in which the target is located, and comparing the priority with respect to the target included in the surrounding radar signal And information on the target with the highest priority is displayed through the display unit.

According to an aspect of the present invention, there is provided a method of extending a detection area through cooperative communication between radar systems, the method including: receiving a signal; Determining a radar operation mode based on the detection information included in the signal; Determining whether the determined radar operation mode is changed using the surrounding radar operation mode pre-stored in the surrounding radar database; Calculating current radar control information using the surrounding radar database and previous radar control information when the radar operation mode is changed according to the determination result; Determining a current radar operation mode by applying the calculated current radar control information; And outputting a detection signal generated according to the radar operation mode.

Updating the detection information database using the detection information of the surrounding radar included in the peripheral radar signal when the signal is the peripheral radar signal transmitted from the surrounding radar; And updating the peripheral radar database using the peripheral radar control information included in the peripheral radar signal.

Wherein the determining of whether or not the change is made is made by comparing the priority of the current radar operation mode with the priority of the surrounding radar operation mode stored in the peripheral radar database, It is necessary to change the determined radar operation mode when the area overlapping with the detection area of the determined radar operation mode is equal to or larger than a predetermined part of the detection area of the surrounding radar operation mode stored in the surrounding radar database .

Accordingly, the present invention increases the number of simultaneously trackable targets as the number of associated radar systems increases, and it is possible to manage the tracking information for multiple targets while maintaining the maximum detection distance.

Also, since the radar system mounted on different objects is operated by the spaced antenna, the present invention can acquire the surrounding information that can not be obtained in the operation mode of the radar system.

Further, since the present invention can be operated using an existing radar system, there is no additional cost, which is economical advantage.

1 is a block diagram that schematically illustrates a cooperative communication based radar system in accordance with an embodiment of the present invention.
FIG. 2 is a diagram illustrating a detection area for each operation mode according to an embodiment of the present invention.
FIG. 3 is a flowchart briefly illustrating a detection area expansion method through cooperation communication between radar systems according to an embodiment of the present invention.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. However, the present invention can be implemented in various different forms, and is not limited to the embodiments described. In order to clearly describe the present invention, parts that are not related to the description are omitted, and the same reference numerals in the drawings denote the same members.

Throughout the specification, when an element is referred to as " including " an element, it does not exclude other elements unless specifically stated to the contrary. The terms "part", "unit", "module", "block", and the like described in the specification mean units for processing at least one function or operation, And a combination of software.

1 is a block diagram that schematically illustrates a cooperative communication based radar system in accordance with an embodiment of the present invention.

1, a cooperative communication-based radar system according to an embodiment of the present invention includes a transceiver unit 110, a signal processing unit 120, an information processing unit 130, a control unit 140, a display unit 150, 160).

The transceiver 110 is a device that receives signals from outside and transmits signals generated from the inside. The transmission / reception unit 110 may receive an external radar signal generated by the external radar system. The transceiver 110 includes an auxiliary transceiver for receiving an ambient radar signal from a peripheral radar system located behind its side. The transmission / reception unit 110 also includes a method of interworking with other antennas using the same frequency band, such as a radar warning receiver (RWR) antenna connected to the auxiliary transceiver.

The surrounding radar signal generated by the surrounding radar system includes radar control information of the surrounding radar system and detection information detected by the surrounding radar system. Here, the radar control information of the surrounding radar system includes the detection area according to the radar operation mode and the radar operation mode, the scheduling information of the detection signal, the shape of the detection signal, and the jammer avoidance function information. Detection information of the surrounding radar system includes target information, jammer information, and feature information acquired in the detection area according to the operation mode. The target information includes the distance from the target, the speed, and the quantity of the target. The jammer information includes the type of the jammer, the direction and frequency of the jammer, and various information that can recognize the characteristics and location of the jammer. The feature information includes information such as the type of the feature, the position and height of the feature, and the like.

The transceiver 110 may periodically receive an ambient radar signal from the surrounding radar system. Here, the surrounding radar signal is a detection signal transmitted by the surrounding radar system in order to detect and track a target for the detection area, and this surrounding radar signal is used to detect radar control information and detection information of the surrounding radar system, As shown in FIG. In addition, the control information and the detection information of the peripheral radar system are periodically transmitted to the detection signal in order to prevent system overload on both sides of transmission and reception when encoding is performed on all detection signals.

The transceiver 110 may transmit a detection signal for detecting a target in the detection area according to the radar operation mode. Here, the detection signal is transmitted in accordance with the radar control information set in the radar operation mode. The radar control information includes a scheduling information of a detection signal, a shape of a detection signal, a jamming avoidance function, and the like. The scheduling information of a detection signal determines a processing order of a detection signal according to a radar operation mode. Basically, When the target is detected while the search is performed, the control unit 140 processes the target signal to request the detection signal of the next step in consideration of the maximum target tracking number and the target priority, . Here, the control unit 140 gives the highest priority to the relatively closest target and gives the lowest priority to the newly detected unidentified target.

As described above, the transceiver unit 110 periodically transmits control information and detection information of its own radar system 100 to a detection signal, and transmits a detection signal including the radar control information and the detection information. This is to determine the radar operation mode through the surrounding radar system receiving the detection signal and the radar control information and detection information of the other radar system.

The transmission / reception unit 110 may receive a reflection signal reflected from a target, a jammer, a feature, and the like, and the detection signal transmitted from the radar system 100 of the transmission / reception unit 110 may be reflected. The information obtained by the reflection signal includes target information in the detection area, jammer information, and feature information.

The transmission / reception unit 110 may acquire detection information obtained from a radar signal transmitted from the surrounding radar system or a detection signal transmitted from its radar system, and may transmit the returned reflection signal to the signal processing unit 120 .

The signal processing unit 120 processes various signals transmitted from the transmitting / receiving unit 110 and transmits the signals to the information processing unit 130. When the signal processor 120 recognizes a signal received from the transceiver 110 as a signal including various information, it can decode the signal to obtain various information.

When the received signal is a reflected signal transmitted back from the radar system 100, the signal processing unit 120 detects the detection information of the detection area acquired by the radar system 100 of the radar system 100 and transmits the detection information to the first information processing unit .

When the received signal is a radar signal transmitted from the surrounding radar system, the signal processing unit 120 may detect the control information and the detection information of the surrounding radar system and transmit the detection information to the second information processing unit. Here, there is a specific header for informing that the radar signal transmitted from the surrounding radar system is transmitted from the surrounding radar system, and the signal processing unit 120 can recognize that it is a radar signal transmitted from the surrounding radar system through the specific header .

The information processing unit 130 is a device for determining a radar operation mode using information transmitted from the signal processing unit 120 and includes a first information processing unit and a second information processing unit.

The first information processing unit receives the detection information acquired from the detection area of the radar system 100 of the radar system 100 from the signal processing unit 120 and includes the detection information transmitted to the detection information database stored in the storage unit 160 The detection information database can be updated. The first information processing unit can compare the newly acquired detection information with the previously stored detection information database and improve the reliability and accuracy of the newly obtained detection information. Also, the first information processing unit may update the detection information database by removing redundant information of the newly acquired detection information and the previously stored detection information database.

The first information processing unit may determine the radar operation mode based on the updated detection information database. The first information processing unit can determine the radar operation mode using the detection information database in which the detection information obtained in the surrounding radar system and the detection information acquired in the radar system 100 of the first information processing unit are integrated and managed, Target information included, jammer information, and feature information. The first information processing unit may determine the radar operation mode through a predetermined algorithm using various information stored in the target information database.

The first information processing unit can determine whether the determined radar operation mode is changed or not. The first information processing unit may determine whether the radar operation mode is changed based on the determined radar operation mode and the surrounding radar database. The first information processing unit may compare the radar operation mode of the surrounding radar system recorded in the surrounding radar database with the determined radar operation mode to redefine the radar operation mode when necessary.

The first information processing unit may perform a comparison between the radar operation modes through a priority policy between predetermined radar operation modes. For example, a radar operation mode, which requires the highest level of real-time and information reliability, such as ACM (Air Combat Mode), may have the highest priority, and a detection area may be set The radar operation mode may have the lowest priority. Therefore, the first information processing unit can redefine the determined radar operation mode when the determined priority of the radar operation mode is equal to or lower than the priority of the surrounding radar operation mode recorded in the surrounding radar database. At this time, if the determined radar operation mode is determined by the user, the first information processing unit can be regarded as having the highest priority of the determined radar operation mode, and the determined radar operation mode is not redefined.

The first information processing unit may determine that it is necessary to change the radar operation mode when a detection region according to the determined radar operation mode overlaps with the detection region according to the radar operation mode recorded in the surrounding radar database. Accordingly, the first information processing unit can redefine the radar operation mode so as to avoid detecting the target for the same area in the same mode.

The first information processing unit may calculate the radar control information applied to the radar operation mode for redefining the determined radar operation mode. The first information processing unit may calculate the current radar control information using the surrounding radar database and the previous radar control information. The first information processing unit calculates current radar control information according to a predetermined algorithm using information of a radar operation mode, a detection area, an operating frequency, and the like among control information of the surrounding radar system recorded in the surrounding radar database, can do. The detection area of the calculated radar control information enables the entire detection area and its level obtained in cooperation with the surrounding radar system to be maximized in consideration of the detection area and the detection distance of the surrounding radar system. In addition, the radar control information includes not only the operation mode, the detection area, and the operation frequency but also the scheduling information of the detection signal, the shape of the detection signal, and the jammer avoiding function.

The first information processing unit can determine the final radar operation mode by applying the calculated radar control information.

The second information processing unit may receive the detection information and the radar control information acquired by the surrounding radar system from the signal processing unit 120 and update the detection information database and the surrounding radar database. The second information processing unit detects the error by referring to the CRC (Cyclic Redundancy Check) code included in the detection information of the surrounding radar system and the radar control information transmitted before the update, and can recover the recoverable error have.

In addition, the second information processing unit may assign an identification code to the detection information acquired by the surrounding radar system to distinguish it from the detection information acquired by the surrounding radar system. Accordingly, the second information processing unit can separately record the detection information acquired by the surrounding radar system and the detection information acquired in the radar system of the user, in the detection information database. The second information processing unit updates the surrounding radar database by using the radar control information of the surrounding radar system, and the radar operation mode, the detection area, and the operating frequency of the surrounding radar system are recorded in the surrounding radar database.

The control unit 140 controls the transmission / reception unit 110 to transmit a detection signal to the detection region according to the radar operation mode determined through the information processing unit 130. [ The control unit 140 periodically transmits radar control information and detection information of the radar system on the detection signal when the detection signal is transmitted. The control unit 140 may add a CRC code when the control information and detection information of the radar system are included in the detection signal.

The control unit 140 also outputs various kinds of information such as the radar control information, the detection area, and the detection information for the radar operation mode determined by the operator of the place where the radar system is installed (the pilot) .

In addition, the controller 140 controls the transceiver 110 in the detection area according to the radar operation mode determined through the first information processing unit to transmit the detection signal, and detects the entire detection distance at which the detection signal is steered into a plurality of distance sections The target is positioned in each distance section with respect to the reflected signal reflected from the target, and a high priority is given in descending order of the distance section in which the target is located, and the target included in the surrounding radar signal Information on a target to which a higher priority is assigned can be displayed through the display unit. Through this, the operator can quickly determine which target to respond to through the information displayed on the display unit 150. [

The display unit 150 is a device that outputs various kinds of information of the radar system to the user. The display unit 150 can display information such as target information, jammer information, and feature information among the detection information, and can display information such as the radar operation mode and the detection area in the control information of the radar system at a predetermined time interval have.

The display unit 150 can distinguish the detection information obtained in the surrounding radar system from the detection information obtained in the radar system 100 by using the identification code. In this way, the user can intuitively distinguish the detection information. The reason for distinguishing the detection information is that the real-time property of the detection information acquired in the surrounding radar system is deteriorated according to the delay time.

The display unit 150 may be configured as a touch screen capable of receiving a command from a user and may receive an input for determining a user's operation mode, which is a top priority in determining a radar operation mode. This allows the user to select a radar operation mode without comparison with the surrounding radar database.

The storage unit 160 stores various kinds of information of the radar system 100 and various information of the surrounding radar system. The storage unit 160 stores a detection information database, a surrounding radar database, and radar control information of the radar system 100 of the radar system 100 itself. Various information stored in the storage unit 160 can be updated in real time by the information processing unit 130. [ Various information stored in the storage unit 160 is used for determining a radar operation mode and setting a detection area.

2 is a diagram illustrating a detection area for each radar mode according to an embodiment of the present invention.

2 (a) is a view showing the same detection area according to the same radar operation mode of the conventional air vehicles P1, P2, P3 and P4, and FIG. 2 (b) Ar2, Ar3, and Ar4 according to different radar operation modes of the airplanes PL1, PL2, PL3, and PL4 equipped with the radar system 100 of the present invention.

For example, when viewed from the perspective of the third flight PL3, the third flight PL3 receives the radar control information including the detection area Ar1 from the first airplane PL1, Updates the surrounding radar database and the detection information database when receiving the radar control information including the detection area Ar2 from the second airplane PL2, Upon reception of the radar control information including the area Ar4, the surrounding radar database and the detection information database can be updated.

When the third flight object PL3 receives the detection information about its own detection area Ar3, it updates the detection information database and determines the radar operation mode based on the updated detection information database. The third flight object PL3 compares the priority with the radar operation modes of the other airplanes PL1, PL2, and PL4 stored in the surrounding radar database to determine the necessity of changing the determined radar operation mode. The third flight (PL3) determines whether or not the other radar operation mode is changed according to the priority among the predetermined radar operation modes, and re-determines the radar operation mode having the detection area that does not overlap with a certain portion, The radar control information to be applied can be calculated. Here, if the radar operation mode selected by the user is the highest priority, it is determined without comparison with other radar operation modes.

The third flight object PL3 can transmit a detection signal to detect a target with respect to the detection area according to the determined radar operation mode. At this time, the surrounding airborne radar database of the other airplanes PL1, PL2, PL4 and the detection information data It is possible to store its own radar control information and detection information in a detection signal transmitted for updating the base. At this time, because the amount of detection information carried in the detection signal is large and the capacity is limited, only a certain portion of the detection information is included in the detection signal according to the priority of the target included in the detection information. The priority of the target can be set to an unidentified target with the nearest target being the highest, followed by the far target, and the lowest ranking being the unverified target.

In addition, the third flight object PL3 may add a header or a bit sequence to indicate that the third flight object PL3 is meaningful information when it loads its own radar control information and detection information in the detection signal. Here, the radar control information and the detection information are not carried in all the detection signals but are carried out at regular intervals.

The third flight object PL3 can acquire detection information about the detection area through transmission of the detection signal or periodically inform the surrounding air vehicles PL1, PL2, PL4 of its own radar control information and detection information, The flight objects PL1, PL2, PL3, and PL4 have an extended detection area.

FIG. 3 is a flowchart briefly illustrating a detection area expansion method through cooperation communication between radar systems according to an embodiment of the present invention.

1 to 3, a transmitting and receiving unit 110 of a radar system according to the present invention receives a signal from outside (S301)

Then, the signal processing unit 120 distinguishes which signal it is based on the header information included in the received signal (S303). Here, the signal is a signal obtained by reflecting a detection signal for detecting a target, And the surrounding radar signal. The signal processing unit 120 detects the detection information from the reflection signal and detects the detection information and the operation information from the transmission signal.

Then, in the case of a reflected signal, the first information processing unit updates the detection information database using the detection information included in the reflected signal (S305)

Then, the first information processing unit determines the radar operation mode based on the detection information database. (S307) Here, the first information processing unit searches the target information, jammer information, Information can be used to determine the mode of operation of the radar.

Then, the first information processing unit determines whether the radar operation mode is changed by comparing the determined radar operation mode and the radar operation mode of the surrounding radar system stored in the surrounding radar database (S309). Here, the comparison between the radar operation modes The priority of the radar operation mode is used, and the priority of the radar operation mode is set according to a predetermined priority policy, and in the case of the user selection of the radar operation mode, the priority can be set to the highest priority.

If it is not necessary to change the determined radar operation mode, the control unit 140 generates a detection signal according to the radar operation mode and outputs a detection signal through the transmission / reception unit 110. Here, the detection signal is a signal for detecting the detection area by the scheduling according to the radar operation mode, and the control unit 140 periodically transmits the radar control information and the detection information on the detection signal.

Returning to the previous step, if the signal analyzed after step S303 is the surrounding radar signal, the second information processing unit updates the detection information database using the detection information included in the surrounding radar signal (S313)

Then, the second information processing unit updates the surrounding radar database using the radar control information included in the surrounding radar signal (S315)

If it is determined in step S309 that the radar operation mode should be changed, the first information processor calculates the current radar control information based on the surrounding radar database and the previous radar control information, and applies the current radar control information to the changed operation mode (S317)

Thus, the cooperative communication-based radar system of the present invention can utilize the information of the surrounding radar system to construct a more extended detection area, thereby enabling to more effectively detect and track the target.

The method according to the present invention can be implemented as a computer-readable code on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored. Examples of the recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like, and a carrier wave (for example, transmission via the Internet). The computer-readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: Cooperative communication based radar system
110: Transmitting /
120: Signal processor
130: Information processor
140:
150:
160:

Claims (13)

A transceiver for transmitting or receiving a signal;
Determining whether the determined radar operation mode is changed by using the radar operation mode determined based on the received signal and the surrounding radar operation mode stored in the surrounding radar database, A first information processing unit for calculating current radar control information by using the surrounding radar database and previous radar control information, and determining a current radar operation mode by applying the calculated current radar control information; And
And a controller for controlling the transceiver to output a detection signal generated according to the radar operation mode. The method according to claim 1,
Receiving means for updating the detection information database using the detection information of the surrounding radar included in the surrounding radar signal when the signal received by the transmission / reception unit is a surrounding radar signal transmitted from the surrounding radar, A second information processing unit for updating the peripheral radar database using control information,
Further comprising: a cooperative communication based radar system. 2. The apparatus of claim 1, wherein the first information processing unit
The priority of the current radar operation mode is compared with the priority of the surrounding radar operation mode stored in the peripheral radar database, or if the priority of the current radar operation mode is lower than the priority of the peripheral radar operation mode , A determination that the determined change of the radar operation mode is necessary
Wherein the radar system comprises: 4. The method of claim 3,
The highest in the case of the radar operation mode selected by the user, and the lowest in the radar operation mode in which there is no target in the detection area
Wherein the radar system comprises: 2. The apparatus of claim 1, wherein the first information processing unit
When it is determined that a change in the determined radar operation mode is necessary when an area overlapping the detection area of the determined radar operation mode among the detection areas of the surrounding radar operation mode stored in the surrounding radar database is greater than a predetermined portion
Wherein the radar system comprises: 3. The apparatus of claim 2, wherein the second information processing unit
Wherein the radar system further comprises a radar operating unit operable to transmit the radar operating signal to the surrounding radar, wherein the radar operating mode includes: To give an identification code to the detection information contained in the radar signal
Wherein the radar system comprises: The method of claim 1,
And includes target information, jamer information, and feature information obtained in the detection area according to the radar operation mode
Wherein the radar system comprises: 2. The method of claim 1, wherein the radar control information
And includes a scheduling information, a shape, and a jammer avoiding function of a detection signal for detecting a detection area according to the radar operation mode
Wherein the radar system comprises: The method according to claim 1,
Receiving unit that receives the signal received by the transceiver unit and detects a detection signal included in the reflected signal and transmits the detected signal to the first information processing unit,
And a signal processing unit for transmitting the detection information of the surrounding radar included in the peripheral radar signal and the radar control information of the peripheral radar to the second information processing unit in case of a peripheral radar signal transmitted from the peripheral radar,
Further comprising: a cooperative communication based radar system. The apparatus of claim 1, wherein the control unit
The control unit controls the transmitting and receiving unit to transmit the detection signal to the detection area according to the radar operation mode determined through the first information processing unit, separates the entire detection distance to which the detection signal is steered into a plurality of distance sections, A priority is assigned to the reflected signal in descending order of distance segments in which the target is located and a priority is given to the target included in the surrounding radar signal to determine a priority To display information on the target of the vehicle through the display unit
Wherein the radar system comprises: Receiving a signal;
Determining a radar operation mode based on the detection information included in the signal;
Determining whether the determined radar operation mode is changed using the surrounding radar operation mode pre-stored in the surrounding radar database;
Calculating current radar control information using the surrounding radar database and previous radar control information when the radar operation mode is changed according to the determination result;
Determining a current radar operation mode by applying the calculated current radar control information; And
And outputting a detection signal generated according to the radar operation mode
Wherein the detection area includes a plurality of radar systems. 12. The method of claim 11,
Updating the detection information database using the detection information of the surrounding radar included in the peripheral radar signal when the signal is the surrounding radar signal transmitted from the surrounding radar; And
Updating the peripheral radar database using the surrounding radar control information included in the peripheral radar signal
Further comprising the steps of: detecting a position of the detection area in the radar system; 12. The method of claim 11, wherein the determining
The priority of the current radar operation mode is compared with the priority of the surrounding radar operation mode stored in the peripheral radar database, or if the priority of the current radar operation mode is lower than the priority of the peripheral radar operation mode or
When it is determined that a change in the determined radar operation mode is necessary when an area overlapping the detection area of the determined radar operation mode among the detection areas of the surrounding radar operation mode stored in the surrounding radar database is greater than a predetermined portion
Wherein the detection area includes a plurality of radar systems.

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