IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0669969
(2012-11-06)
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등록번호 |
US-RE44924
(2014-06-03)
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발명자
/ 주소 |
- Cooper, Alan Neal
- Fritz, Christopher Michael
- Exner, James Walter
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출원인 / 주소 |
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대리인 / 주소 |
McAndrews, Held & Malloy, Ltd.
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인용정보 |
피인용 횟수 :
0 인용 특허 :
31 |
초록
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A digital observation system and method for processing and transmitting video data between a video camera, or video cameras, and a base unit. The video data is transmitted, for example, by a communication protocol that is compliant with Ethernet physical drivers for transmitting and receiving data a
A digital observation system and method for processing and transmitting video data between a video camera, or video cameras, and a base unit. The video data is transmitted, for example, by a communication protocol that is compliant with Ethernet physical drivers for transmitting and receiving data at around 100 Mbps. Video is captured at a sensor in the video camera, digitally processed and transmitted, thus overcoming limitations associated with analog processing and allowing unique features to be added. Images and other data may be transmitted efficiently in their native format, with reduced overhead, and in a non-compressed format due to the data transmission rate at or below 100 Mbps.
대표청구항
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1. A digital observation system comprising: a digital camera including: a charge coupled device (CCD) image sensor memory adapted to store video data;a CCD image sensor adapted to transmit the stored video data in analog RGB color space format native to the CCD image sensor (analog RGB data), wherei
1. A digital observation system comprising: a digital camera including: a charge coupled device (CCD) image sensor memory adapted to store video data;a CCD image sensor adapted to transmit the stored video data in analog RGB color space format native to the CCD image sensor (analog RGB data), wherein the CCD image sensor comprises the CCD image sensor memory;a correlated double sampling (CDS) circuit adapted to receive the analog RGB data from the CCD image sensor and convert the analog RGB data into digital RGB data, wherein the CDS circuit is operably coupled to the CCD image sensor; anda physical interface adapted to receive the digital RGB data and transmit the digital RGB data with reduced operational overhead and increased operational functionality, wherein the physical interface is operably coupled to the CDS circuit;a programmable logic device (PLD) adapted to delay one line of the digital RGB data when a transmission error correction occurs; anda base unit including: a base unit physical interface adapted to receive the digital RGB data with the reduced operational overhead and the increased operational functionality from the digital camera physical interface;a base unit programmable logic device (PLD) operably coupled to the base unit physical interface; anda display adapted to display the digital RGB data with reduced operational overhead and increased operational functionality, wherein the display is operably coupled to the PLD. 2. The digital observation system of claim 1, wherein the base unit PLD is adapted to control timing signals to display the digital RGB data with the reduced operational overhead and the increased operational functionality. 3. The digital observation system of claim 1, wherein the digital camera PLD is adapted to control timing signals to the CCD image sensor to transmit the analog RGB data to the CDS circuit, wherein the digital camera PLD interfaces to the CDS circuit. 4. The digital observation system of claim 1, wherein the digital RGB data with the reduced operational overhead and the increased operational functionality is transmitted from the digital camera physical interface and received by the base unit physical interface via a physical layer device. 5. A digital observation system comprising: a digital camera including: a charge coupled device (CCD) image sensor memory adapted to store video data;a CCD image sensor adapted to transmit the stored video data in analog RGB color space format native to the CCD image sensor (analog RGB data), wherein the CCD image sensor comprises the CCD image sensor memory;a correlated double sampling (CDS) circuit adapted to receive the analog RGB data from the CCD image sensor and convert the analog RGB data into digital RGB data, wherein the CDS circuit is operably coupled to the CCD image sensor; anda physical interface adapted to receive the digital RGB data and transmit the digital RGB data with reduced operational overhead and increased operational functionality, wherein the physical interface is operably coupled to the CDS circuit; anda base unit including: a base unit physical interface adapted to receive the digital RGB data with the reduced operational overhead and the increased operational functionality from the digital camera physical interface;a base unit programmable logic device (PLD) operably coupled to the base unit physical interface; anda display adapted to display the digital RGB data with reduced operational overhead and increased operational functionality, wherein the display is operably coupled to the PLD; andoperational overhead reduction by elimination of at least one of: error detection;source addressing; anddestination addressing. 6. A digital observation system comprising: a digital camera including: a charge coupled device (CCD) image sensor memory adapted to store video data;a CCD image sensor adapted to transmit the stored video data in analog RGB color space format native to the CCD image sensor (analog RGB data), wherein the CCD image sensor comprises the CCD image sensor memory;a correlated double sampling (CDS) circuit adapted to receive the analog RGB data from the CCD image sensor and convert the analog RGB data into digital RGB data, wherein the CDS circuit is operably coupled to the CCD image sensor;a programmable logic device (PLD) adapted to: receive the transmitted digital RGB data from the CDS circuit;convert the received digital RGB data into YUV color space format (digital YUV data);transmit the digital YUV data to a Y average circuit which determines an average brightness;transmit the average brightness to an exposure control circuit, which generates an automatic gain control signal; andtransmit the automatic gain control signal back to the CDS circuit; anda physical interface adapted to receive the digital YUV data and transmit the digital YUV data with reduced operational overhead and increased operational functionality, wherein the physical interface is operably coupled to the CDS circuit and wherein the digital camera PLD interfaces to the physical interface; anda base unit including: a base unit physical interface adapted to receive the digital YUV data with the reduced operational overhead and the increased operational functionality from the digital camera physical interface;a base unit PLD operably coupled to the base unit physical interface; anda display adapted to display the digital YUV data with reduced operational overhead and increased operational functionality, wherein the display is operably coupled to the base unit PLD. 7. The digital observation system of claim 6, wherein the digital camera PLD is further adapted to control timing signals to the CCD image sensor to transmit the digital YUV data to the CDS circuit. 8. The digital observation system of claim 6, wherein the digital camera PLD is further adapted to delay one line of the digital YUV data with the reduced operational overhead and the increased operational functionality transmission when a transmission error correction occurs. 9. The digital observation system of claim 6, wherein the digital YUV data with reduced operational overhead and increased operational functionality is transmitted from the digital camera physical interface and received by the base unit physical interface via a physical layer device. 10. A digital camera programmable logic device (PLD) configured to: control timing signals to a CCD image sensor to transmit analog RGB data to a CDS circuit where the analog RGB data is converted to digital RGB data; anddelay one line of the digital RGB data transmission when a transmission error correction occurs;wherein the digital RGB data transmission comprises reduced operational overhead, with respect to a protocol standard;wherein the operational overhead includes at least one of: error detection;source addressing;destination addressing; andmulti-speed operation. 11. The digital camera PLD of claim 10 further comprising a two video line delay memory configured to delay the one line of the digital RGB data transmission when the transmission error correction occurs. 12. A digital camera programmable logic device (PLD) configured to: receive digital RGB data from a correlated double sampling (CDS) circuit;convert the received digital RGB data into digital YUV data;transmit the digital YUV data to a Y average circuit which determines the average brightness;transmit the average brightness to an exposure control circuit, which generates an automatic gain control (AGC) signal; andtransmit the AGC signal to the CDS circuit, wherein the digital camera PLD interfaces to the CDS circuit. 13. A digital observation system comprising: a digital camera including: an image sensor memory adapted to store video data;an image sensor adapted to transmit the stored video data in an analog RGB color space format, wherein the image sensor comprises the image sensor memory;a circuit adapted to receive the transmitted video data from the image sensor and convert the transmitted video data into digital RGB data, wherein the circuit is operably coupled to the image sensor; anda physical interface adapted to receive the digital RGB data and transmit the digital RGB data with reduced operational overhead and increased operational functionality, wherein the physical interface is operably coupled to the circuit;a programmable logic device (PLD) adapted to delay one line of the digital RGB data when a transmission error occurs; anda base including: a base physical interface adapted to receive the digital RGB data with the reduced operational overhead and the increased operational functionality from the digital camera physical interface;a base programmable device operably coupled to the base physical interface; anda display adapted to display the digital RGB data with reduced operational overhead and increased operational functionality, wherein the display is operably coupled to the base programmable device. 14. The digital observation system of claim 13, wherein the base programmable device is adapted to control timing signals to display the digital RGB data with the reduced operational overhead and the increased operational functionality. 15. The digital observation system of claim 13, wherein the digital camera PLD is adapted to control timing signals to the image sensor to transmit the analog RGB data to the circuit, wherein the digital camera PLD interfaces to the circuit. 16. The digital observation system of claim 13, wherein the digital RGB data with the reduced operational overhead and the increased operational functionality is transmitted from the digital camera physical interface and received by the base physical interface via a physical layer device. 17. The digital observation system of claim 13, wherein the transmitted video data comprises analog RGB data. 18. The digital observation system of claim 13, wherein the image sensor transforms the stored video data into the analog RGB color space format. 19. The digital observation system of claim 13, wherein the image sensor transforms the stored video data into the analog RGB color space format native to the image sensor. 20. The digital observation system of claim 13, wherein the circuit comprises a correlated double sampling circuit. 21. The digital observation system of claim 13, wherein the base includes a processor that is configured to process color filter array data from the digital camera, wherein the processed color filter array data corresponds to a color image. 22. The digital observation system of claim 13, wherein the image sensor is adapted to collect analog color filter array data including values for light intensity of a plurality of different colors. 23. A digital observation system comprising: a digital camera including: an image sensor memory adapted to store video data;an image sensor adapted to transmit the stored video data in analog RGB color space format native to the image sensor, wherein the image sensor comprises the image sensor memory;a first circuit adapted to receive the transmitted video data from the image sensor and convert the transmitted video data into digital RGB data, wherein the first circuit is operably coupled to the image sensor;a programmable logic device (PLD) adapted to: receive the transmitted digital RGB data from the first circuit;convert the received digital RGB data into digital YUV data;transmit the digital YUV data to a second circuit which determines an average brightness;transmit the average brightness to an exposure control circuit, which generates an automatic gain control signal; andtransmit the automatic gain control signal back to the first circuit; anda physical interface adapted to receive the digital YUV data and transmit the digital YUV data with reduced operational overhead and increased operational functionality, wherein the physical interface is operably coupled to the first circuit and wherein the digital camera PLD interfaces to the physical interface; anda base including: a base physical interface adapted to receive the digital YUV data with the reduced operational overhead and the increased operational functionality from the digital camera physical interface;a base programmable device operably coupled to the base physical interface; anda display adapted to display the digital YUV data with reduced operational overhead and increased operational functionality, wherein the display is operably coupled to the base programmable device. 24. The digital observation system of claim 23, wherein the digital camera PLD is further adapted to control timing signals to the image sensor to transmit the digital YUV data to the first circuit. 25. The digital observation system of claim 23, wherein the digital camera PLD is further adapted to delay one line of the digital YUV data with the reduced operational overhead and the increased operational functionality transmission when a transmission error correction occurs. 26. The digital observation system of claim 23, wherein the digital YUV data with reduced operational overhead and increased operational functionality is transmitted from the digital camera physical interface and received by the base physical interface via a physical layer device. 27. The digital observation system of claim 23, wherein the first circuit comprises a correlated double sampling circuit. 28. The digital observation system of claim 23, wherein the transmitted video data comprises analog RGB data. 29. The digital observation system of claim 23, wherein the image sensor transforms the stored video data into the analog RGB color space format. 30. The digital observation system of claim 23, wherein the image sensor transforms the stored video data into the analog RGB color space format native to the image sensor. 31. A digital camera programmable logic device (PLD) configured to: control timing signals to an image sensor to transmit analog RGB data to a circuit, wherein the circuit converts the analog RGB data to digital RGB data; anddelay one line of the digital RGB data transmission when a transmission error correction occurs;wherein the digital RGB data transmission comprises reduced operational overhead, with respect to a protocol standard;wherein the operational overhead includes at least one of: error detection;source addressing;destination addressing; andmulti-speed operation. 32. The digital camera PLD of claim 31, wherein the circuit comprises a correlated double sampling circuit. 33. The digital camera PLD of claim 31 comprising a two video line delay memory configured to delay the one line of the digital RGB data transmission when the transmission error correction occurs. 34. A digital camera programmable logic device (PLD) configured to: receive digital RGB data;convert the received digital RGB data into digital YUV data;transmit the digital YUV data to a first circuit which determines the average brightness;transmit the average brightness to an exposure control circuit, which generates an automatic gain control (AGC) signal; andtransmit the AGC signal to a second circuit that provided the digital RGB data, wherein the digital camera PLD interfaces to the second circuit. 35. The digital camera PLD of claim 34, wherein the second circuit comprises a correlated double sampling circuit.
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