A radar device includes an antenna for acquiring data, an image memory including pixel data groups each arranged in a rectangular coordinate system, for converting the acquired data in a polar coordinate system into pixel data in the rectangular coordinate system and storing the pixel data, a data w
A radar device includes an antenna for acquiring data, an image memory including pixel data groups each arranged in a rectangular coordinate system, for converting the acquired data in a polar coordinate system into pixel data in the rectangular coordinate system and storing the pixel data, a data write module for writing the pixel data in the memory such that, when image data is stored in a display mode, pixel blocks each including M×N pixel data are arranged on the same line in the memory, a scanning direction setting module for setting a raster-scan direction, and a data reading module for reading out the image data by reading out the pixel data arranged on the same line in the image memory according to the raster-scan direction.
대표청구항▼
1. A radar device, comprising: an antenna for acquiring reception data expressed in a polar coordinate system;an image memory for storing pixel data in a rectangular coordinate system;a data write module for calculating pixel addresses in the rectangular coordinate system based on the reception data
1. A radar device, comprising: an antenna for acquiring reception data expressed in a polar coordinate system;an image memory for storing pixel data in a rectangular coordinate system;a data write module for calculating pixel addresses in the rectangular coordinate system based on the reception data, and for writing the pixel data in the image memory based on the calculated pixel addresses such that, when image data is stored in a predetermined display mode, pixel blocks each including M×N pixel data are arranged on the same line in the image memory;a scanning direction setting module for setting a raster-scan direction; anda data reading module for reading out the image data by reading out the pixel data arranged on the same line in the image memory according to the raster-scan direction, said read-out image data being provided to a display unit for display. 2. The radar device of claim 1, wherein, in a display mode in which a reference direction in the display unit changes corresponding to a bow direction of a ship equipped with said antenna, the scanning direction setting module sets the raster-scan direction to follow the change in the bow direction. 3. The radar device of claim 1, further comprising a motion setting module for setting behavior of a position of a ship equipped with said antenna in the display unit; wherein the data reading module reads out the pixel data that constitutes the image data for display based on the behavior of the ship position and a read-out area of the raster scan that is set corresponding to the change in the ship position. 4. A radar device component, comprising: an image memory for storing pixel data in a rectangular coordinate system which is converted from reception data in a polar coordinate system;a data write module for calculating pixel addresses in the rectangular coordinate system based on the reception data, said reception data being in the polar coordinate system, and for writing the pixel data in the image memory based on the calculated pixel addresses such that, when image data is stored in a predetermined display mode, pixel blocks each including M×N pixel data are arranged on the same line in the image memory;a scanning direction setting module for setting a raster-scan direction; anda data reading module for reading out the image data by reading out the pixel data arranged on the same line in the image memory according to the raster-scan direction, said read-out image data being provided to a display unit for display. 5. The radar device component of claim 4, wherein, in a display mode in which a reference direction in the display unit changes corresponding to a bow direction of a ship acquiring said reception data, the scanning direction setting module sets the raster-scan direction to follow the change in the bow direction. 6. The radar device component of claim 4, further comprising a motion setting module for setting behavior of a position of a ship acquiring said reception data in the display unit; wherein the data reading module reads out the pixel data that constitutes the image data for display based on the behavior of the ship position and a read-out area of the raster scan that is set corresponding to the change in the ship position. 7. A target detection device component, comprising: an image memory for storing pixel data in a rectangular coordinate system which is converted from target detection reception data in a polar coordinate system;a data write module for calculating pixel addresses in the rectangular coordinate system based on the target detection reception data, said target detection reception data being in the polar coordinate system, and for writing the pixel data in the image memory based on the calculated pixel address such that, when image data is stored in a predetermined display mode, pixel blocks each including M×N pixel data are arranged on the same line in the image memory;a scanning direction setting module for setting a raster-scan direction; anda data reading module for reading out the image data by reading out the pixel data arranged on the same line in the image memory according to the raster-scan direction, said read-out image data being provided to a display unit for display. 8. A method of storing and reading target detection data, comprising: storing pixel data in a rectangular coordinate system which is converted from target detection reception data in a polar coordinate system;calculating pixel addresses in the rectangular coordinate system based on the target detection reception data, said target detection reception data being in the polar coordinate system;writing the pixel data in the image memory based on the calculated pixel addresses such that, when image data is stored in a predetermined display mode, pixel blocks each including M×N pixel data are arranged on the same line in the image memory;setting a raster-scan direction;reading out the image data by reading out the pixel data arranged on the same line in the image memory according to the raster-scan direction; andproviding the read-out image data to a display unit for display. 9. The method of claim 8, the method further comprising: setting the raster-scan direction to follow a change in a bow direction of a ship acquiring said reception data upon a notification that a reference direction in the display unit has changed corresponding to the bow direction. 10. The method of claim 8, the method further comprising: setting behavior of a position of a ship acquiring said reception data in the display unit; andreading out the pixel data that constitutes the image data for display based on the behavior of the ship position and a read-out area of the raster scan that is set corresponding to the change in the ship position.
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이 특허에 인용된 특허 (40)
Thomas David M. (Ottawa CAX) Tubb Leonard J. (Kanata CAX), Algorithm for radar coordinate conversion in digital scan converters.
Strolle Christopher H. (Philadelphia PA) Smith Terrence R. (Clementon NJ) Reitmeier Glenn A. (Trenton NJ), Calculation of radial coordinates of polar-coordinate raster scan.
Brandao Ruy L. (02 Fort Lauderdale FL) Taylor ; Jr. Robert A. (02 Fort Lauderdale FL) The Bendix Corporation (02 Southfield MI), Data display system having a multilevel video storage device.
Strolle Christopher H. (Philadelphia PA) Smith Terrence R. (Clementon NJ), Generating angular coordinate of raster scan of polar-coordinate addressed memory.
Andrieu Jean-Pierre (Paris FRX) Lachaize Christian (Les Ulis FRX) Hller Georg (Viry-Chatillon FRX), Method and device for artificial afterglow in a digital image converter.
Lachaize Christian (Paris FRX) Andrieu Jean-Pierre (Paris FRX) Chagny Christian (Paris FRX), Method for processing video signals in a digital image transformer.
Benjamin Scott Jon ; Andrusiak Martin John ; Monson Robert James, Method for software scan conversion of target identification data in a general purpose computer.
Nevin Robert Leland (New Hartford NY) O\Leary John Joseph (Utica NY) Cikotte Leonard Joseph (Norristown PA), Polar coordinate format to a cartesian coordinate format scan converter.
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