Network system for onboard equipment
First Claim
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1. An onboard equipment network system comprising:
- at least one core device comprising a detecting section for detecting targets by transmitting and receiving signals and generating detection signals or a positioning section for fixing the position of a vehicle by receiving positioning signals from position-fixing satellites and generating position signals representative of the position of the vehicle; and
at least one display device for displaying the detection signals or position signals generated by said core device and generating a command signal to set an operating condition of said core device;
wherein said core device and said display device are connected to each other by a network and said core device and said display device exchange detection signals or position signals in addition to command signals through the network, and wherein said detecting section comprises;
a primary memory for storing on a real-time basis sample values sampled on at least one sweep line;
a reference memory for storing the individual sample values derived along the sweep line; and
a data buffer controller which compares the individual sample values of each new sweep line read out of the primary memory with sample values previously stored in the reference memory, and if any of the new sample values has a signal intensity differing from that of the previously stored sample value at the same distance from the sweep origin on the same sweep line, causes a transmission data buffer to store update sample value presence data indicating that an update sample value is present, update position data indicating the position of the update sample value on the sweep line, sweep direction data indicating the direction of the sweep line and if a new sample value has the same signal intensity with the previously stored sample value on the same sweep line, causes the transmission data buffer to store update sample value presence data indicating that no update sample value is present and the sweep direction data once every scan cycle for each pixel; and
a display data transmitter for transmitting data content of the transmission data buffer to be displayed by the display device.
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Abstract
An onboard equipment network system comprises a radar core device, a GPS core device, an echo sounder core device and a sonar core device and display devices which are connected to a network through a hub. Each core device includes a detecting section or a positioning section, as well as a control section, a power supply section and a data transmitter for transmitting detecting signals or positioning signals, while each display device includes a command section for transmitting command data to the individual core devices for setting their operating conditions and a display section for displaying image data received from the individual core devices. The command data is transmitted using Transmission Control Protocol (TCP) while the image data is transmitted using User Datagram Protocol (UDP).
12 Citations
5 Claims
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1. An onboard equipment network system comprising:
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at least one core device comprising a detecting section for detecting targets by transmitting and receiving signals and generating detection signals or a positioning section for fixing the position of a vehicle by receiving positioning signals from position-fixing satellites and generating position signals representative of the position of the vehicle; and
at least one display device for displaying the detection signals or position signals generated by said core device and generating a command signal to set an operating condition of said core device;
wherein said core device and said display device are connected to each other by a network and said core device and said display device exchange detection signals or position signals in addition to command signals through the network, and wherein said detecting section comprises;
a primary memory for storing on a real-time basis sample values sampled on at least one sweep line;
a reference memory for storing the individual sample values derived along the sweep line; and
a data buffer controller which compares the individual sample values of each new sweep line read out of the primary memory with sample values previously stored in the reference memory, and if any of the new sample values has a signal intensity differing from that of the previously stored sample value at the same distance from the sweep origin on the same sweep line, causes a transmission data buffer to store update sample value presence data indicating that an update sample value is present, update position data indicating the position of the update sample value on the sweep line, sweep direction data indicating the direction of the sweep line and if a new sample value has the same signal intensity with the previously stored sample value on the same sweep line, causes the transmission data buffer to store update sample value presence data indicating that no update sample value is present and the sweep direction data once every scan cycle for each pixel; and
a display data transmitter for transmitting data content of the transmission data buffer to be displayed by the display device.
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2. An onboard equipment network system comprising:
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at least one core device comprising a detecting section for detecting targets by transmitting and receiving signals and generating detection signals or a positioning section for fixing the position of a vehicle by receiving positioning signals from position-fixing satellites and generating position signals representative of the position of the vehicle; and
at least one display device for displaying the detection data or position data generated by said core device and generating a command signal to set an operating condition of said core device;
wherein said core device and said display device are connected to each other by a network and said core device and said display device exchange detection signals or position signals in addition to command signals through the network, and wherein said detecting section comprises;
a primary memory for storing on a real-time basis sample values sampled on at least one sweep line;
a reference memory for storing the individual sample values derived along sweep lines included in one scan cycle;
a data buffer controller which compares the individual sample values of the sweep lines in each successive scan cycle read out of the primary memory with sample values of the one scan cycle previously stored in the reference memory, and only when any of the new sample values has a signal intensity differing from that of the previously stored sample value at the same distance from the sweep origin, causes a transmission data buffer to store update sample value presence data indicating that an update sample value is present, update position data including the position of the update sample value on the sweep line, and the update sample value at the position; and
a display data transmitter for transmitting data content of the transmission data buffer to be displayed by the display device.
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3. An onboard equipment network system comprising:
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at least one core device comprising a detecting section for detecting targets by transmitting and receiving signals and generating detection signals or a positioning section for fixing the position of a vehicle by receiving positioning signals from position-fixing satellites and generating position signals representative of the position of the vehicle; and
at least one display device including a display section for displaying the detection signals or positioning signals generated by said core device and generating a command signal to set an operating condition of said core device;
wherein said core device and said display device are connected to each other by a network and said core device and said display device exchange detection signals or position signals in addition to command signals through the network, wherein said detecting section comprises;
a maximum sample value extractor for extracting a maximum value from sample values for each pixel during a period from the first access to the last access to each pixel when sample values of individual sampling points on each successive sweep line are converted into corresponding pixel data formatted for a Cartesian coordinate system; and
wherein the maximum sample value extracted is treated as a effective sample value for each pixel on the sweep line.
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4. An onboard equipment network system comprising:
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at least one core device comprising a detecting section for detecting targets by transmitting and receiving signals and generating detection signals or a positioning section for fixing the position of a vehicle by receiving positioning signals from position-fixing satellites and generating position signals representative of the position of the vehicle; and
at least one display device for displaying detection signals or positioning signals generated by said core device and generating a command signal to set an operating condition of said core device;
wherein said core device and said display device are connected to each other by a network and said core device and said display device exchange detection signals or position signals in addition to command signals through the network, wherein said detecting section comprises;
an average calculator for calculating an average of sample values for each pixel during a period from the first access to the last access to each pixel when sample values of individual sampling points on each successive sweep line are converted into corresponding pixel data formatted for a Cartesian coordinate system; and
wherein the average sample value calculated is treated as an effective sample value for each pixel on the sweep line.
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5. An onboard equipment network system comprising:
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at least one core device comprising a detecting section for detecting targets by transmitting and receiving signals and generating detection signals or a positioning section for fixing the position of a vehicle by receiving positioning signals from position-fixing satellites generating position signals representative of the position of the vehicle; and
at least one display device for displaying detection signals or position signals generated by said core device and generating a command signal to set an operating condition of said core device;
wherein said core device and said display device are connected to each other by a network and said core device and said display device exchange the detection signals or the position signals in addition to command signals through the network, and wherein said detection section comprises;
a display data transmitter for transmitting all sample values on each successive sweep line to the specified display device once per a specified number of sweeps.
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Specification
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Current AssigneeEiji Matsui, Hidetoshi Kaida, Hiroshi Nagano, Masaru Nishida, Motoji Kondo, Ryoichi Nakai, Takeshi Yamaguchi, Takumi Fujikawa, Takumi Kawamoto, Yoshinari Yoshida
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Original AssigneeEiji Matsui, Hidetoshi Kaida, Hiroshi Nagano, Masaru Nishida, Motoji Kondo, Ryoichi Nakai, Takeshi Yamaguchi, Takumi Fujikawa, Takumi Kawamoto, Yoshinari Yoshida
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InventorsFujikawa, Takumi, Kaida, Hidetoshi, Nagano, Hiroshi, Yamaguchi, Takeshi, Nishida, Masaru, Kondo, Motoji, Yoshida, Yoshinari, Nakai, Ryoichi, Kawamoto, Takumi, Matsui, Eiji
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current342/176
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CPC Class CodesG01S 13/86 Combinations of radar syste...G01S 19/13 ReceiversG01S 7/003 Transmission of data betwee...G01S 7/043 Synchronising the display d...G01S 7/06 Cathode-ray tube displays o...G01S 7/068 with data-rate converters p...G01S 7/295 Means for transforming co-o...
