IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0111575
(2005-04-21)
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등록번호 |
US-7839926
(2011-01-22)
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발명자
/ 주소 |
- Metzger, Raymond R.
- Baird, John M.
- Monroe, David A.
|
인용정보 |
피인용 횟수 :
81 인용 특허 :
102 |
초록
▼
A camera system comprises a camera that produces a video signal, a video compressor that compresses the video signal, a system control processor that passes the compressed video signal, and a network interface that receives the compressed video signal, wherein the video compressor comprises configur
A camera system comprises a camera that produces a video signal, a video compressor that compresses the video signal, a system control processor that passes the compressed video signal, and a network interface that receives the compressed video signal, wherein the video compressor comprises configurable parameters that affect a bandwidth of the compressed video signal.
대표청구항
▼
What is claimed is: 1. A camera system, comprising: a camera that produces a video signal; a video compressor that compresses the video signal, the video compressor providing a compressed video signal, the compressed video signal having a compression ratio; a system control processor that passes th
What is claimed is: 1. A camera system, comprising: a camera that produces a video signal; a video compressor that compresses the video signal, the video compressor providing a compressed video signal, the compressed video signal having a compression ratio; a system control processor that passes the compressed video signal; a network interface that receives the compressed video signal; and wherein the video compressor comprises configurable parameters that affect a bandwidth of the compressed video signal, the bandwidth being subject to a dynamic bandwidth limitation, the bandwidth being affected by at least meeting the dynamic bandwidth limitation without reduction of the compression ratio. 2. The camera system of claim 1, wherein the configurable parameters are control registers. 3. The camera system of claim 2, wherein the control registers comprise a video format register that includes data which commands the video compressor to compress the video signal at various resolutions. 4. The camera system of claim 3, wherein resolutions include at least one of: a FULL resolution comprising about 704× about 480 pixels; a SIF resolution comprising about 352× about 288 pixels; and a QSIF resolution comprising about 176× about 144 pixels. 5. The camera system of claim 2, wherein the control registers comprise a bitrate policy that can be set to command a variable bandwidth output or a constant bandwidth output. 6. The camera system of claim 2, wherein the control registers comprise a frame pattern that determines a number of incoming analog video frames that will be compressed. 7. The camera system of claim 6, wherein the bandwidth is reduced if the frame pattern indicates that fewer than every frame in the video signal should be compressed. 8. The camera system of claim 2, wherein the control registers comprise a quality register that may be set to select a quality level from 0x01 to 0x1F. 9. The camera system of claim 8, wherein the quality register controls a degree of compression by selecting an amount of a high-frequency content of the compressed signal that actually gets transmitted. 10. The camera system of claim 9, wherein the degree of compression affects a compressed image resolution versus an amount of data transmitted. 11. The camera system of claim 2, wherein the control registers comprise a steam status register that may be set to ON to indicate the parameters should be used when the video signal is transmitted, and may be set to OFF to indicate the parameters should not be used when the video signal is transmitted. 12. A method for compressing a video signal, comprising: sending video compression parameters from an operator console to a camera system, wherein the operator console is adapted to control the camera system; receiving the parameters by a system control processor of the camera system; configuring at least one video compression device of the camera system in relation to the parameters; compressing an available video signal by operation of the system control processor with the at least one video compression device, with the at least one video compression device being configured in relation to the parameters, to produce compressed video, the compressed video having a compression ratio; and providing to a communications channel the compressed video, the communications channel having a communications channel capacity, the communications channel capacity being subject to a dynamic channel communications capacity limitation, the compressed video being provided to the communications channel without exceeding the dynamic channel communications capacity limitation, the compressed video being provided to the communications channel without reduction of the compression ratio. 13. A network, comprising: a camera system, comprising: a camera that produces a video; a video compressor that compresses the video, the video compressor providing compressed video, the compressed video having a compression ratio; a system control processor that passes the compressed video; a network interface that receives the compressed video, the network interface being configured to provide to the network the compressed video, the network having a dynamic bandwidth limitation, the system compressor being configured to provide via the network interface to the network the compressed video at a bandwidth, the compressed video bandwidth at least meeting the dynamic bandwidth limitation without reduction of the compression ratio; a server; and an operator console that controls the camera system, wherein the console uses the server as an intermediary when requesting the compressed video signal. 14. The network of claim 13 comprising a low-bandwidth communications channel coupled to the camera system and to the operator console. 15. The network of claim 14, wherein the server has a-priori knowledge of a capacity of the low-bandwidth communications channel. 16. The network of claim 15, wherein the server configures compression configuration registers within the video compressor so as to produce a video stream which does not exceed the capacity of the low-bandwidth communications channel. 17. The network of claim 13 comprising a second server, wherein the server and the second server are used as intermediaries when requesting the compressed video signal from the camera system. 18. A method for compressing a video stream, comprising: receiving high-bitrate video streams at an operator console from a camera via a channel that does not have sufficient capacity to transmit the high-bitrate streams; automatically switching the camera to an alternate stream type and providing the camera with video compression parameters such that the video streams produced by the camera without reducing compression ratio of the video streams will not exceed a capacity of a communications channel used to transfer the video streams; and automatically switching the camera back to an original high-bitrate stream after the alternate stream type is received. 19. A computer readable medium comprising computer program instructions for: receiving a video stream request at a first server; routing the video stream request to a second server that has a-priori knowledge of a capacity of a low-bandwidth communications channel; and automatically switching a camera that produces a video stream to an alternate stream type and providing the camera with video compression parameters such that the video stream produced based on the request will not exceed the capacity of the communications channel while maintaining at least a minimum compression ratio of the video stream. 20. A system, comprising: a camera system; a surveillance network that has sufficient bandwidth to support a full 30 frame-per-second compressed video stream, the compressed video stream having a compression ratio; a server that receives the compressed video stream; and an operator console that places a request to the server for a compressed video stream from the camera system, wherein the server has knowledge of a capacity of the system, and based on that knowledge, begins forwarding selected frames of the video stream to the operator console without reducing compression ratio of the compressed video stream. 21. The system of claim 20, wherein if the channel has moderate capacity, the server may discard alternate video frames and forwarding to the operator console a video stream with about half of the original data. 22. The system of claim 21, wherein the server decimates the video stream by discarding every Nth frame to create a lower bitrate stream which will not exceed the capacity.
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