JP2013164314A - Radar video display device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem that an RHI display of the conventional radar video console displays, on an RHI display device, information on an elevation direction only in an azimuth angle and a direction range designated on a PPI display, and it is therefore difficult to know information on the elevation directions in all of the azimuth angles in a moment.SOLUTION: A radar video display device includes: a radar video storage memory 1 that stores radar video information corresponding to an elevation angle, a distance, and an azimuth angle; an input unit with which a user can voluntarily designate an elevation angle; and an elevation angle selector. The elevation angle selector transmits the radar video information on the distance and the azimuth angle of the designated elevation angle from the radar video storage memory 1 to a PPI display memory 3, and therefore the radar video display device displays the radar video information on the voluntarily designated elevation angle on a PPI screen to achieve RHI display.

Description

  The present invention relates to a radar video display device that displays a target video signal captured by a radar device.

  As a conventional radar video display device, there is a PPI (Plan Position Indicator) display device that displays the intensity of a radar reflection signal from a target existing on a two-dimensional coordinate composed of an azimuth and a distance, centering on itself. Further, using a three-dimensional radar device that detects a target position on a three-dimensional polar coordinate composed of an azimuth angle, an elevation angle, and a distance, the radar reflection intensity of a target existing in a specific azimuth and distance range from the self specified by the operator There is an RHI (Range Height Indicator) display device that cuts out and displays information in the elevation angle direction (see, for example, Patent Document 1).

JP 2001-296348 A

  FIG. 9 is a diagram showing a configuration of a conventional RHI display device (FIG. 9A) and a screen configuration example (FIG. 9B). The conventional RHI display device sequentially records the radar video composed of the elevation angle and distance information of the radar reflected signal captured by the three-dimensional radar device in the video storage memory 91, and two-dimensionally relates to the elevation angle and distance recorded in the video storage memory 91. Is transferred to the display memory 92 constituting the frame memory. The video data transferred to the display memory 92 is read by raster scanning, and is displayed on the two-dimensional display screen as bright points on the two-dimensional coordinates of the elevation angle and the distance. As shown in FIG. 9B, the conventional RHI display device only displays information in the elevation angle direction limited to the azimuth angle and distance range specified by the PPI display. For this reason, it is difficult to instantaneously grasp the information of the elevation direction in all azimuth angles. Further, the display device disclosed in Patent Document 1 proposes a method of dividing the elevation angle by color display. However, since this method can only display the video extracted as a target, the state of all elevation angles of the radar video can be quickly displayed. There was a problem that could not be grasped.

  The present invention has been made to solve such a problem, and an object thereof is to quickly display radar video information of an arbitrary elevation angle and provide it to an operator.

  A radar video display device according to the present invention includes a radar video storage memory for storing an amplitude value of a radar video corresponding to an elevation angle, an azimuth angle, and a distance of the radar video, and information on the radar video stored in the radar video storage memory. An elevation angle designation unit that designates a specific elevation angle to be displayed, and an elevation angle selector device that acquires data corresponding to the designated elevation angle from the radar video storage memory and transfers the data to a PPI display memory It is.

  Also, the radar video storage memory that stores the radar video amplitude values corresponding to the elevation angle, azimuth angle, and distance of the radar video, and the range of elevation angles to be merged among all the elevation angles stored in the radar video storage memory are specified. Adds the radar video information corresponding to the merged elevation angle range specified by the elevation angle merge range specification unit and the elevation angle merge range specification unit, and temporarily outputs the output of the adder The radar video temporary storage memory and the radar video information stored in the radar video temporary storage memory are designated with a specific elevation angle to be displayed, and the radar video information corresponding to the designated elevation video is temporarily displayed. An elevation angle selector device that acquires the data from the storage memory and transfers it to the PPI display memory.

  According to this invention, since radar video information in all azimuth angles of any elevation angle can be viewed at a time, radar video information of distance and azimuth direction in all elevation directions is highly visible to the operator and has good operability. It is possible to display.

1 is a diagram illustrating a configuration of a radar video display device according to Embodiment 1. FIG. 5 is a diagram illustrating a screen configuration example according to Embodiment 1. FIG. It is a figure which shows the structure of the radar video display apparatus by Embodiment 2. FIG. FIG. 10 is a diagram illustrating a screen configuration example according to the second embodiment. FIG. 6 is a diagram illustrating a configuration of a radar video display device according to a third embodiment. FIG. 10 is a diagram illustrating a screen configuration example according to a third embodiment. It is a figure which shows the structure of the radar video display apparatus by Embodiment 4. FIG. FIG. 10 is a diagram illustrating a screen configuration example according to a fourth embodiment. It is a figure which shows the structure and screen structural example of the conventional RHI display apparatus.

Embodiment 1 FIG.
A radar video display apparatus according to Embodiment 1 of the present invention will be described. FIG. 1 is a diagram showing a configuration of a radar video display apparatus according to the first embodiment. The radar video display device includes a radar video storage memory 1, an elevation angle selector device 2, a PPI (Plan Position Indicator) display memory 3, and an elevation angle designation unit 4.

  The radar video storage memory 1 stores radar video information consisting of three-dimensional information corresponding to the azimuth angle, distance, and elevation angle at a storage address of a three-dimensional array structure. The radar video information is composed of information indicating the radar video signal intensity for each azimuth angle, distance, and elevation angle. The radar video signal intensity is obtained, for example, by detecting the signal intensity or amplitude value of a reflected wave transmitted from a radar apparatus, reflected by a target, and received by the radar apparatus. Radar video information obtained by reception of the radar device is stored in the radar video storage memory 1. At that time, information indicating the radar video signal intensity is stored in the memory addresses corresponding to the azimuth, distance, and elevation from the azimuth, distance, and elevation information of the radar video information received from the radar. .

  The elevation selector device 2 designates a specific elevation angle, extracts all radar video information that matches the designated elevation angle from the radar video storage memory 1, and transfers the extracted radar video information to the PPI display memory 3. The extracted radar video information becomes two-dimensional array information of azimuth and distance with the same elevation angle.

  In the PPI display memory 3, two-dimensional information corresponding to the azimuth angle and the distance is stored in the display storage address of the two-dimensional array structure. The two-dimensional information stored in the PPI display memory 3 is output to a display device (not shown) for screen display. The PPI display memory 3 displays the radar video signal intensity for each azimuth and distance represented by discrete values of polar coordinates on a screen in a coordinate system converted into orthogonal coordinates. Thereby, pseudo RHI (Range Height Indicator) display is performed on the PPI screen.

  The elevation angle designating unit 4 inputs an arbitrary elevation angle to the elevation angle selector device 2 and designates the elevation angle for RHI display. The elevation angle designating unit 4 is composed of a slider arranged beside the PPI screen of a radar console (not shown), for example. The user can instruct the elevation angle to be displayed by moving the slider of the elevation angle designating unit 4 up and down. Alternatively, a text box for directly inputting a value may be prepared, and the user may input the value through the text box.

  FIG. 2 is a screen configuration example showing a display device (not shown) displaying the radar video signal intensity at a certain elevation angle on the screen. As shown in FIG. 2, at the same elevation angle designated by the elevation angle designation unit 4, the radar video signal intensity (for example, the amplitude value of the radar video) at the distance and azimuth is displayed in a pseudo RHI on the PPI screen. Good sex. The elevation angle designating unit 4 instructs a specific elevation angle using a slider. By moving the slider up and down, the elevation angle designated by the elevation angle designation unit 4 can be quickly moved in the entire elevation angle range (0 ° to 90 °). For this reason, RHI display can be performed with good operability. Moreover, since the PHI display is used for pseudo RHI display, the visibility is good.

  As described above, the radar video display device according to the first embodiment includes the radar video storage memory 1 that stores the amplitude value of the radar video corresponding to the elevation angle, the azimuth angle, and the distance of the radar video, and the radar video storage memory 1. For the stored radar video information, an elevation angle designating unit 4 for designating a specific elevation angle to be displayed, and data corresponding to the designated elevation angle are acquired from the radar video storage memory and transferred to the PPI display memory. An elevation angle selector device 2 is provided. As a result, radar video information in all azimuth angles of any elevation angle can be viewed at a time, so that radar video information of distance and azimuth direction in all elevation angles can be quickly displayed. In addition, it is possible to provide an RHI display method with good operability and visibility for the radar console operator.

Embodiment 2. FIG.
FIG. 3 is a diagram showing the configuration of the radar video display apparatus according to Embodiment 1 of the present invention. The radar video display device includes a radar video storage memory 1, an adder 5, a radar video temporary storage memory 6, an elevation angle selector device 2, a PPI display memory 3, an elevation angle designation unit 4, and an elevation angle merge range designation unit. 7 is provided. The radar video display device according to the second embodiment is characterized in that an adder 5 is connected between the radar video storage memory 1 and the radar video temporary storage memory 6, and an elevation angle designation unit 4 is connected to the adder 5. .

  The radar video storage memory 1 stores radar video information consisting of three-dimensional information corresponding to the azimuth angle, distance, and elevation angle at a storage address of a three-dimensional array structure. The radar video information is composed of information indicating the radar video signal intensity for each azimuth angle, distance, and elevation angle. The radar video signal intensity is obtained, for example, by detecting the signal intensity or amplitude value of a reflected wave transmitted from a radar apparatus, reflected by a target, and received by the radar apparatus. Radar video information obtained by reception of the radar device is stored in the radar video storage memory 1. At that time, information indicating the radar video signal intensity is stored in the memory addresses corresponding to the azimuth, distance, and elevation from the azimuth, distance, and elevation information of the radar video information received from the radar. .

  The elevation angle merge range designation unit 7 divides the total elevation angle in the radar video information in the radar video storage memory 1 into a plurality of angle units for each predetermined elevation angle range designated as the elevation angle merge range. Information indicating the radar video signal intensity corresponding to the two-dimensional information of the azimuth angle and the distance corresponding to each elevation angle in each elevation angle merge range is input to the adder 5 for each divided elevation angle merge range. The adder 5 adds the information indicating the radar video signal strength for every elevation angle in each elevation angle merge range, divides the added value by all the elevation angles in the elevation angle merge range, averages the values, and merges (information Merge processing is performed to obtain information indicating the intensity of the radar video signal compressed together.

  Information indicating the intensity of each radar video signal merged for each elevation angle merging range by the adder 5 is stored in the radar video temporary storage memory 6. For example, when the total elevation angle is 90 ° and the elevation angle merge range is 2, information indicating the radar video signal intensity for each azimuth angle and distance when the elevation angle is 0 degrees, and for each azimuth angle when the elevation angle is 1 degree and Information indicating the radar video signal intensity for each distance is added. Accordingly, radar video information including information indicating the azimuth angle, the distance, and the radar video signal intensity merged with 0 degree and 1 degree is stored in the radar video temporary storage memory 6. Similarly, radar video information including information indicating the azimuth angle, distance, and radar video signal intensity merged in units of 2 degrees such as 3 degrees, 4 degrees, 5 degrees, and 6 degrees is stored in the radar video temporary storage memory 6 respectively. Is done. Therefore, the range of the total elevation angle after merging is 45 °, which is half the original size, and the information amount of the radar video information is reduced to half.

  When the elevation angle merge range is 3, similarly, information indicating the radar video signal intensity for each azimuth and distance at elevation angles of 0 degrees, 1 degree, and 2 degrees is added, and the merged radar video information The value is stored in the radar video temporary storage memory 6. Therefore, the range of the elevation angle is 1/3, and the information amount is reduced to 1/3.

  The elevation selector device 2 designates a specific elevation angle, extracts all radar video information that matches the designated elevation angle from the radar video storage memory 1, and transfers the extracted radar video information to the PPI display memory 3. The extracted radar video information becomes two-dimensional array information of azimuth and distance with the same elevation angle.

  In the PPI display memory 3, two-dimensional information corresponding to the azimuth angle and the distance is stored in the display storage address of the two-dimensional array structure. The two-dimensional information stored in the PPI display memory 3 is output to a display device (not shown) for screen display. The PPI display memory 3 displays on the screen in a coordinate system in which radar video signal strengths (for example, amplitude values of radar video) for each azimuth and distance expressed by discrete values of polar coordinates are converted into orthogonal coordinates. As a result, RHI (Range Height Indicator) is displayed on the PPI screen in a pseudo manner.

  The elevation angle merge range specifying unit 7 has an input unit for specifying an elevation angle range for the adder 5 in the radar console. The user can designate an arbitrary elevation angle range from the elevation angle merge range designation section 7 of the radar console.

  FIG. 4 shows a screen configuration example in which the display device (not shown) displays the radar video signal intensity at a certain elevation angle on the screen. For example, the input unit of the elevation angle merge range specifying unit 7 provides a slider on the side of the PPI display screen, and specifies the elevation angle range to be merged by moving the slider up and down.

  The elevation angle designating unit 4 inputs an arbitrary elevation angle to the elevation angle selector device 2 and designates the elevation angle for RHI display. The elevation angle designating unit 4 is composed of a slider arranged beside the PPI screen of a radar console (not shown), for example. The user can instruct the elevation angle to be displayed by moving the slider of the elevation angle designating unit 4 up and down. Alternatively, a text box for directly inputting a value may be prepared, and the user may input the value through the text box.

  As described above, the radar video display apparatus according to the second embodiment includes the radar video storage memory 1 that stores the amplitude value of the radar video corresponding to the elevation angle, the azimuth angle, and the distance of the radar video, and the radar video storage memory 1. The elevation angle merge range designating unit 7 for designating the range of elevation angles to be merged and the radar video information corresponding to the merged elevation angle range designated by the elevation angle merge range designating unit 7 are added out of the stored all elevation angles. The output adder 5, the radar video temporary storage memory 6 that temporarily holds the output of the adder 5, and the radar video information stored in the radar video temporary storage memory 6 are displayed. A specific elevation angle is designated, radar video information corresponding to the designated elevation angle is acquired from the radar video temporary storage memory 6, and a PPI display memory is obtained. Characterized by comprising the elevation selector device 2 to be transferred to Li, a. As a result, radar video information in all azimuth angles of any elevation angle can be viewed at a time, so that radar video information of distance and azimuth direction in all elevation angles can be quickly displayed. In addition, it is possible to provide an RHI display method with good operability and visibility for the radar console operator.

  In the second embodiment, the elevation angle range is specified by using the elevation angle merge range specifying unit 5 to widen the range of the elevation angle displayed at a time, so that the radar video information in the elevation angle range is smoothed and displayed. As compared with the first embodiment, it becomes easier to grasp the outline of the surrounding radar video signal intensity designated by the elevation designation unit 4. When the elevation angle range is 90 °, which is the maximum, the display is the same as normal PPI display. That is, the designation of the slider 4 does not make sense.

Embodiment 3 FIG.
FIG. 5 is a diagram showing a configuration of a radar video display apparatus according to Embodiment 3 of the present invention. The third embodiment is characterized in that the elevation angle specifying unit 4 described in the first embodiment or the second embodiment is replaced by using an elevation angle monotonic increasing device 8. The elevation monotone increasing device 8 automatically increases monotonously the elevation angle designation input to the elevation angle selector device 2, not by an instruction from the console operator.
In addition, about another structure, it is the same as what was demonstrated in FIG. 3, and the thing of the same code | symbol as FIG. 3 in FIG. 5 becomes the same structure and the same operation | movement.

  FIG. 6 shows a screen configuration example in which the display device (not shown) displays the RHI display radar video signal intensity (for example, the amplitude value of the radar video) at a certain moment, which is output from the elevation angle monotone increasing device 8. Yes. The elevation angle indicator 9 is displayed on the screen using the elevation angle information generated by the elevation angle monotonous increase device 8. The elevation angle indicator 9 shows the elevation angle of the currently displayed RHI display radar video on the screen, thereby assisting the operator to intuitively grasp the display elevation angle. In addition to the indicator 9, the elevation angle information displayed may be notified to the operator by displaying a value in a text box. Further, in the elevation monotone increasing device 8, the operator can change the speed at which the elevation angle is monotonously increased, thereby updating the display of the radar video displayed on the PPI screen for each elevation angle at the speed desired by the operator. You can also. By doing so, the RHI display changes from moment to moment on the PPI screen, and it becomes easier to visualize the three-dimensional shape of the radar video while the afterimage of the PPI screen for each elevation angle remains in memory.

Embodiment 4 FIG.
FIG. 7 is a diagram showing a configuration of a radar video display apparatus according to Embodiment 4 of the present invention. In FIG. 7, the azimuth / distance range specifying unit 10 is connected to the adder 5 and the elevation selector device 2. Other configurations are the same as those described with reference to FIG. 3. In FIG. 7, components having the same reference numerals as those in FIG. 3 have the same configurations and operations.

  The azimuth / distance range designation unit 10 is preset with azimuth and distance ranges, and inputs the azimuth and distance ranges designated by the settings to the adder 5 and the elevation selector device 2. The adder 5 performs a merge process for each elevation angle merge range only within the azimuth and distance range designated by the azimuth / distance range designation unit 10. The elevation angle selector device 2 designates a specific elevation angle only within the azimuth angle and distance range designated by the azimuth / distance range designation unit 10 and matches all elevation angles designated from the radar video storage memory 1. The radar video information is extracted, and the extracted radar video information is transferred to the PPI display memory 3.

  Thus, the radar video display apparatus according to the fourth embodiment includes the azimuth / distance range designation unit 10 so that the radar video signal in the elevation direction is limited to a specific azimuth / distance range area on the PPI screen. The intensity is displayed. For areas other than the azimuth and distance range designated by the azimuth / distance range designation unit 10, all the information in the elevation angle direction is merged and the elevation angle range designation is set to the maximum (for example, 90 °), so that The display is equivalent to the PPI display. The azimuth / distance range designation by the azimuth / distance range designation unit 10 can designate not only one area but a plurality of areas. In this case, a plurality of areas are displayed simultaneously. Further, the azimuth / distance range specification unit 10 prepares a text box for directly inputting values, and the user inputs values of desired azimuth and distance ranges through the text box. A corner and a distance range may be set.

  FIG. 8 shows a screen configuration example in which the display device (not shown) displays the radar video signal intensity of the RHI display for the case where two azimuth / distance range designations are set. In FIG. 8, two azimuth / distance range designations are set, namely azimuth / distance range designation 10a and azimuth / distance range designation 10b. The azimuth / distance range designation 10a and the azimuth / distance range designation 10b both display a trapezoidal or fan-shaped frame on the display screen. Further, an elevation angle slider 4 and an elevation angle range slider 7 are provided to the right of the area on the screen where RHI display is performed. By setting the elevation angle slider 4 and the elevation angle range slider 7, the radar video of the radar video corresponding to the elevation angle designated in the azimuth / distance range designations 10a and 10b in the same manner as described in the second embodiment. The signal strength setting display can be performed. In addition, in a region outside the range of the azimuth / distance range designations 10a and 10b (outside the frame), conventional PPI display corresponding to all elevation angles is performed.

  Further, by placing an indicator for displaying the currently displayed elevation angle information (for example, the indicator 9 described with reference to FIG. 6) on the right side of the area where the RHI display in the elevation angle direction is performed, the elevation angle currently displayed. It is also possible to make it easier to visually confirm the range.

  As described above, the fourth embodiment includes the azimuth and distance range designating unit 10 for inputting the azimuth angle and the distance range to the adder 5 and the elevation angle selector device 2. Only for the azimuth and distance range designated by the angle and distance range designation unit, processing for adding radar video information corresponding to the merged elevation angle range designated by the elevation angle merge range designation unit 7 is performed, and the elevation angle selector device 2 designates a specific elevation angle to be displayed only for radar video information stored in the radar video temporary storage memory 6 in the azimuth and distance range designated by the azimuth and distance range designation unit. The radar video information corresponding to the specified specific elevation angle is acquired from the radar video temporary storage memory 6 and transferred to the PPI display memory 3. Carry out the management. Using the conventional PPI display as a reference for screen display, the RHI display described in the first to third embodiments is partially mixed and displayed on the screen, thereby narrowing down to a specific azimuth and distance range to be watched. The radar video signal intensity for each elevation angle (for example, the amplitude value of the radar video) can be displayed.

  The radar video display apparatus according to the first to fourth embodiments has been described above. The operator of the radar console can determine his / her experience and the result after the signal processing from various perspectives by checking the radar video information determined as the target after the signal processing displayed on the display device in the PPI display format. And recognize the goal. In general, the PPI screen is a display method suitable for grasping information on the entire circumference azimuth and distance. The radar video display apparatuses according to the first to fourth embodiments can cause the operator to grasp all radar video information in the elevation angle direction using the PPI screen display, and the target azimuth, distance, Information useful for the operator's judgment, such as elevation angle and radar video signal intensity, can be provided efficiently.

  DESCRIPTION OF SYMBOLS 1 Radar video storage memory, 2 Elevation angle selector apparatus, 3 PPI display memory, 4 Elevation angle designation | designated part, 5 Adder, 6 Radar video temporary storage memory, 7 Elevation angle merge range designation | designated part, 8 Elevation angle monotonic increase apparatus, 9 Elevation angle indicator, 10 Azimuth / distance range specification part.

Claims (4)

A radar video storage memory for storing the amplitude value of the radar video corresponding to the elevation angle, azimuth and distance of the radar video;
For radar video information stored in the radar video storage memory, an elevation angle designating unit for designating a specific elevation angle to be displayed; and
An elevation selector device that acquires data corresponding to the designated elevation angle from the radar video storage memory and transfers the data to the PPI display memory;
Radar video display device comprising: A radar video storage memory for storing the amplitude value of the radar video corresponding to the elevation angle, azimuth and distance of the radar video;
An elevation angle merge range designating unit for designating an elevation angle range to be merged among all elevation angles stored in the radar video storage memory,
An adder that adds radar video information corresponding to the merged elevation angle range specified by the elevation angle merge range designation unit, and outputs the radar video information.
A radar video temporary storage memory for temporarily holding the output of the adder;
For radar video information stored in the radar video temporary storage memory, a specific elevation angle to be displayed is designated, radar video information corresponding to the designated elevation angle is acquired from the radar video temporary storage memory, and PPI An elevation selector device to transfer to the display memory;
Radar video display device comprising:   The radar video display device according to claim 1, wherein the elevation angle designating unit includes an elevation angle monotone increasing device that automatically monotonously increases the specific elevation angle to be displayed. An azimuth and distance range designating unit for inputting an azimuth and distance range for the adder and elevation angle selector device,
The adder performs processing for adding radar video information corresponding to the merged elevation angle range designated by the elevation angle merge range designation unit only for the azimuth angle and distance range designated by the azimuth angle and distance range designation unit. Done
The elevation angle selector device selects a specific elevation angle to be displayed only for radar video information stored in the radar video temporary storage memory in the azimuth angle and distance range designated by the azimuth angle and distance range designation unit. Processing to acquire the radar video information corresponding to the specified specific elevation angle from the radar video temporary storage memory and transfer it to the PPI display memory.
3. The radar video display device according to claim 1, wherein the radar video display device is a radar video display device.

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