Time encoded spatial display
First Claim
1. In a radar display system for a radar system including a scanning antenna and means connected to said antenna for generating a video return signal data value for each of n video data cells corresponding to the area scanned during each complete revolution of said antenna, said radar display system further including a scan converter for converting polar coordinate azimuth and range values from said radar system to rectangular coordinate format and for providing a corresponding unique storage address to each one of said data values, the improvement comprising:
- means connected to said scan converter for determining and storing the highest value of video return signal occurring in each of said n video data cells during a predetermined number of revolutions of said antenna, for determining and storing the number of said predetermined number of antenna revolutions in which the value of said video return signals for each of said n data cells exceeded a predetermined threshold level and for determining and storing the count of said predetermined number of antenna revolutions on which said threshold level was last exceeded for each of said n data cells.
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Abstract
A time compressed radar display system for presenting to the operator radareturn video which has been accumulated over a relatively long period of time in a very short time span, preferably at TV frame rates. A scan converter receives the radar position data in polar coordinate format and converts it to rectangular coordinate format. Each of the rectangular cells, resulting from the scan conversion, is provided with an address. The radar video is continuously converted from analog to digital. Memory and comparison logic are used for determining and storing the highest value of video data occurring in each of the data cells, during a predetermined number (n) of revolutions of the radar scanning antenna. Logic circuitry is also provided to determine and store the number of antenna revolutions over the most recent (n) scans of the antenna, in which the video level exceeded a predetermined threshold for each of the addressable cells. Additionally, the count of the last frame or antenna scan (within the most recent (n) antenna revolutions) in which the video level exceeded the threshold for each cell is stored. Output processing logic is provided which processes the highest video level for each cell, the number of times the threshold level was exceeded and the count of the last frame on which this threshold was exceeded for each data cell to generate a time compressed radar display picture.
22 Citations
8 Claims
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1. In a radar display system for a radar system including a scanning antenna and means connected to said antenna for generating a video return signal data value for each of n video data cells corresponding to the area scanned during each complete revolution of said antenna, said radar display system further including a scan converter for converting polar coordinate azimuth and range values from said radar system to rectangular coordinate format and for providing a corresponding unique storage address to each one of said data values, the improvement comprising:
means connected to said scan converter for determining and storing the highest value of video return signal occurring in each of said n video data cells during a predetermined number of revolutions of said antenna, for determining and storing the number of said predetermined number of antenna revolutions in which the value of said video return signals for each of said n data cells exceeded a predetermined threshold level and for determining and storing the count of said predetermined number of antenna revolutions on which said threshold level was last exceeded for each of said n data cells. - View Dependent Claims (2, 3, 4, 5)
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6. A method of generating signals for a time compressed display for a radar system which includes a scanning antenna and means connected to said scanning antenna for generating an analog video return signal data value for each of n video data cells corresponding to the area scanned during each complete revolution of said antenna comprising the steps of:
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(a) converting said analog video return signal data values to corresponding video signal digital data values, (b) converting polar coordinate azimuth and range position data from said radar system to corresponding rectangular coordinate format, (c) generating, using the results of step (b), a rectangular coordinate storage address for each of said digital data values; (d) determining and storing the highest video signal digital data value occurring in each of said n video data cells during a predetermined number of revolutions of said antenna; (e) determining and storing the number of revolutions during each said predetermined number of revolutions of said antenna in which the value of said video signal digital data values for each of said n video data cells exceeded a predetermined threshold level; and (f) determining and storing the count of said predetermined number of antenna revolutions on which said threshold level was last exceeded for each of said n video data cells. - View Dependent Claims (7, 8)
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Specification
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- Resources
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Current Assigneethe united states of america as represented by the secretary of the navy
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Original Assigneethe united states of america as represented by the secretary of the navy
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InventorsMorin, Richard J.
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Primary Examiner(s)Tubbesing, T. H.
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Application NumberUS06/168,988Time in Patent Office1,030 DaysField of Search343/5 SCUS Class Current342/185CPC Class CodesG01S 7/046 using an intermediate stora...G01S 7/298 Scan converters
