KR101336636B1 - Network video recorder connected through analog coaxial cable with ip camera and method automatically assigning an ip address - Google Patents

Abstract

A network video recorder (NVR) according to the present invention includes: multiple ports which include a first port in which the header of an analog coaxial cable connected to a first IP camera among multiple IP cameras is inserted; a modem which outputs a signal by removing a distortion from a digital video signal and compensating the diminution of a baseband video signal by separating the baseband video signal from the digital video signal, which are included in an output signal, by a frequency if the output signal which is combined with multiple video signals including the baseband signal and the digital video signal is inputted from the first IP camera through the first port; an Ethernet switch which senses whether the header of the analog coaxial cable connected to the first IP camera is inserted into the first port or not; and a host processor which changes the state of the first port from a scan port to a service port and transmits a first address and authentication information to the first IP camera if the MAC address of the first IP camera is received through the first port after the host processor selects the first IP address, in which the connection of the first IP camera is sensed in the Ethernet switch and which corresponds to the first port, in a VLAN table and transmits an IP camera discovery packet to the first IP camera. [Reference numerals] (310) SLOC-R modem;(311) Ethernet switch;(312) Host processor;(313) Video controller;(314) Analog video decoder;(AA) Analog camera;(BB,DD) Analog coaxial cable;(CC) IP camera

Description

Network video recorder connected through analog coaxial cable with IP camera and method automatically assigning an IP address}

The present invention relates to a network video recorder used in a closed circuit television (CCTV) system for receiving a high resolution digital video signal compressed through a coaxial cable and providing an analog image or a high resolution digital image to a monitor screen.

Closed-circuit television (CCTV) systems are improving screen resolution and transmission methods depending on the performance of cameras and communication equipment. First, the existing analog camera generates and outputs a composite video baseband signal (CVBS) signal that can be transmitted up to 300 meters using a coaxial cable. Second, digital cameras support a high-definition serial digital interface (HD-SDI) that can be used to transmit uncompressed high-definition digital video over coaxial cable at 1.5 Gbps, with cable distances of up to 100 meters at these high transmission rates. to be. Third, IP-based high definition cameras transmit compressed high definition digital video.

A closed circuit television (CCTV) system that supports high-definition serial digital interface (HD-SDI) using a digital camera is called an HD-SDI CCTV system, and a closed circuit television (CCTV) system that uses an IP-based high definition camera is HD-IP. It is called CCTV system. Currently, the HD CCTV system in the industry is collectively referred to as including the HD-SDI CCTV system and HD-IP CCTV system.

HD CCTV systems have many advantages but also disadvantages. For example, HD-SDI CCTV systems have a short transmission distance of 100 meters over coaxial cable, limited maximum resolution, and only one-way communication. HD-IP CCTV system requires the use of twisted pair cable instead of the existing analog coaxial cable, and requires new line construction, and requires the use of 100Mbps Ethernet, and additional materials such as HUB / ROUTER, and user retraining.

Korean Patent Laid-Open No. 10-2011-0118150 discloses a technology for providing an analog image or a high resolution digital image on a monitor screen by transmitting a high resolution digital video signal compressed up to 500 meters through an analog coaxial cable. Therefore, even if the analog CCTV system or HD-SDI CCTV system, which used the existing analog coaxial cable, was replaced with the HD-IP CCTV system, no new track construction was required.

However, in Korean Patent Application Publication No. 10-2011-0118150, when a camera is changed to an IP camera using an Internet protocol (IP) as a communication means for transmitting a compressed video signal, the user or equipment installation technicians still have to install the IP camera. There is an inconvenience of having to manually set an IP address for communication.

Korean Laid-Open Patent No. 10-2011-0118150 (published 2011.10.28)

The present invention was invented to solve the above problems, and provides a network video recorder and an automatic IP address allocation method for automatically allocating an IP address to an IP camera when an analog coaxial cable connected to the IP camera is connected. There is a purpose.

Another object of the present invention is to provide a network video recorder that can determine whether the IP camera genuine.

Network video recorder (NVR) connected via a plurality of IP cameras and an analog coaxial cable according to the present invention for achieving the above object, the header of the analog coaxial cable connected to the first IP camera of the plurality of IP cameras A plurality of ports including an inserted first port (PORT) and an output signal combining a plurality of video signals including a baseband signal and a digital video signal from a first IP camera are input through the first port (PORT). When the baseband video signal and the digital video signal included in the output signal is separated by the frequency to remove the distortion from the digital video signal and compensates for the attenuation of the baseband video signal and outputs, and the analog connected to the first IP camera Ethernet switch that detects whether the header of the coaxial cable is inserted into the first port, and Ethernet switch After the first IP camera connection is detected, the first IP address corresponding to the first port PORT is selected in the VLAN table, the IP camera discovery packet is transmitted to the first IP camera, and then the first port PORT is changed. When receiving the MAC address of the first IP camera via a host processor for changing the state of the first port (PORT) from the scan port to the service port and transmits the first IP address and authentication information to the first IP camera.

In a network video recorder (NVR) connected to a plurality of IP cameras and an analog coaxial cable according to the present invention, a host processor stores a port state and a MAC address of an IP camera connected to the corresponding port in a MAC table. When the MAC address of the first IP camera is received through the first port PORT, the authenticity of the first IP camera is determined using the MAC table.

A method of automatically allocating an IP address to an IP camera connected through an analog coaxial cable in a network video recorder (NVR) according to the present invention may include detecting whether an IP camera is connected to a first port, and Selecting a first IP address corresponding to a first port PORT where a camera connection is detected from a VLAN table and transmitting an IP camera discovery packet to the IP camera; and a MAC of the IP camera through the first port PORT. Receiving an address, changing a state of a first port from a scan port to a service port, and transmitting the first IP address and authentication information to the IP camera.

According to the configuration as described above, the present invention has the following advantages.

First, existing analog coaxial cable and associated equipment can be reused. In other words, it is possible to reduce the cost of replacing the analog CCTV system or the HD-SDI CCTV system that used the existing analog coaxial cable with the HD-IP CCTV system and to minimize the disconnection of the surveillance system.

Second, even if the analog CCTV system or the HD-SDI CCTV system that used the existing analog coaxial cable is replaced with the HD-IP CCTV system, there is no need for new track construction, and the inconvenience of having to set the IP manually can be solved.

Third, when the analog coaxial cable connected to the IP camera is connected, IP address is automatically assigned to the IP camera, so when the new line construction, the user simply connects the analog coaxial cable to the network video recorder (NVR). Is displayed on the screen.

1 shows a closed circuit television system capable of transmitting a high resolution digital video signal compressed via a coaxial cable according to the present invention.
2 shows a configuration of an IP camera according to the present invention.
FIG. 3 is an exemplary diagram for describing signal frequency bands corresponding to a plurality of video signals output from the IP camera of FIG. 2.
4 shows a configuration of a network video recorder (NVR) according to the present invention.
5 is a flowchart illustrating an automatic IP address allocation method executed in a network video recorder (NVR) according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the present embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

In a closed circuit television system capable of transmitting a high resolution digital video signal compressed through a coaxial cable according to the present invention, as shown in FIG. 1, a network video connected through an IP camera 100 and an analog coaxial cable 200 is large. Recorder (NVR) 300.

The IP camera 100 is called network camera or web camera in other words, and collectively refers to a camera using the Internet Protocol ("IP") as a communication means for transmitting a compressed video signal. The IP camera 100 simultaneously transmits standard analog video and high definition digital video through the analog coaxial cable 200. The digital signal is modulated and transmitted in a frequency band separate from the higher frequencies of the baseband video signal.

The network video recorder (NVR) 300 is a device that receives standard analog video and high definition digital video from the IP camera 100 through an analog coaxial cable 200, and supports recording, searching, and playback. The network video recorder (NVR) 300 transmits audio and camera control signals to the IP camera 100 through the analog coaxial cable 200.

FIG. 2 illustrates a configuration of an IP camera according to the present invention, and FIG. 3 is an exemplary diagram for describing signal frequency bands corresponding to a plurality of video signals output from the IP camera of FIG. 2.

As shown in FIG. 2, the IP camera 100 includes an image sensor 111, a camera processor 112, and a SLOC-T modem 113. In one embodiment, as shown in FIG. 2, the IP camera 100 includes a storage unit 114, an external control interface 115 that controls an electromechanical actuator, a sensor controller 116, a microphone, and a speaker. It may be implemented to include more.

The camera processor 112 receives the image sensor from the image sensor 111 and generates a plurality of video signals including a baseband signal and a digital video signal. Camera processor 112 may include a combination of commercially available components and custom hardware and software. In one example, camera processor 112 may be combined with support logic and memory to perform sequential steps, instructions, and / or programs, such as one or more microprocessors, digital signal processors, microcontrollers, sequencers, and other programmable devices. It may also include a device.

The SLOC-T modem 113 is a secure link (SLOC) modem via an analog coaxial cable, and may be implemented as a modem integrated as an addition to the IP camera 100 or implemented as a component already integrated in the IP camera 100. have. The SLOC-T modem 113 uses frequency division multiplexing to generate an output signal for transmission on an analog coaxial cable. The SLOC-T modem 113 transmits a plurality of video signals having different resolution signals generated by the camera processor 112 via analog coaxial cable.

Generate output signals for transmission of baseband video signals and digital video signals over analog coaxial cables, but use frequency division multiplexing to produce output signals having baseband video signals and digital video signals, each having a different frequency signal band. An encoder coupled to the decoder and a decoder configured to demodulate an upstream signal received from the analog coaxial cable.

The demodulated upstream signal includes control signals and an audio signal for driving the audio output of the camera. The control signal selects a signal for controlling the position and orientation of the camera, a signal for controlling generation of the baseband video signal and a digital video signal by the camera processor 112, and a portion of an image signal for encoding the baseband video signal. And a signal for selecting a part of an image signal to be encoded as a digital video signal.

Signal frequency bands corresponding to the plurality of video signals output from the IP camera 100 are divided, as shown in FIG. 3. CVBS (composite video baseband signal) signal uses SD analog video up to 5MHz band, downstream has 8MHz bandwidth around 18.75MHz and transmits HD IP video data at 36Mbps. Upstream has a 2.5MHz bandwidth around 39MHz and transmits data such as camera control signals at a maximum transmission speed of 11Mbps.

Storage 114 may also be used to store computer readable instructions that perform some or all of the functions described in this application in practice. Storage 114 may be used to store a record of captured video. Thus, storage 114 may be implemented using volatile and nonvolatile memory, optical and magnetic disks, removable electrically removable memory, USB memory drives and other semiconductor, electromagnetic and optical storage devices.

The external control interface 115 is an interface used to directly control the IP camera 100 and receives an IR receiver, an RS-485 control signal, and an optical control signal. The external device includes a motor or actuator used to rotate or direct the camera. The optical control signal and external control signal may be generated in response to a command predefined by the remote control system. For example, the remote user adjusts the joystick to generate a series of coded commands that translate to "rotate the camera 90 degrees clockwise in the horizontal plane," and the camera processor 112, for example, a stepping motor. Send a series of pulses. A series of pulses may cause the desired rotation about the vertical axis of the camera. The camera processor 112 may adjust the focus and zoom of the optical lens.

As shown in FIG. 4, the network video recorder (NVR) 300 according to the present invention is an apparatus for automatically setting an IP address and communicating with an IP camera by simply connecting an IP camera and an analog coaxial cable. . The network video recorder (NVR) 300 includes a plurality of ports PORT into which a header of an analog coaxial cable connected to an IP camera is inserted, a SLOC-R modem 310 connected to the port, and an Ethernet switch ( 311, a host processor 312, a video controller 313, and an analog video decoder 314.

When the output signal is input from the IP camera 100, the SLOC-R modem 310 separates the baseband video signal and the digital video signal included in the output signal by frequency to remove distortion from the digital video signal, Attenuation of the band video signal is compensated for and output. The Ethernet switch 311 detects whether the header of the analog coaxial cable connected to the IP camera is inserted into the port.

The host processor 312 receives the digital video signal from the SLOC-R modem 310 and stores the digital video signal in storage units (HDD and USB), provides the digital video signal to the digital video decoder, and transmits the upstream data to the SLOC-R modem ( 310).

The host processor 312 selects a first IP address corresponding to the first port PORT in the VLAN table from which the first IP camera connection is detected at the Ethernet switch 311 and sends the IP camera discovery packet to the first IP camera. send. The VLAN table stores IP addresses corresponding to each of the plurality of ports. When the host processor 312 receives the MAC address of the first IP camera through the first port, the host processor 312 changes the state of the first port from the scan port to the service port and removes the first IP address and authentication information. 1 Transfer to IP camera. The host processor 312 generates authentication information by combining the MAC address of the first IP camera and a preset unique key.

The host processor 312 stores the port state and the MAC address of the IP camera connected to the corresponding port in the MAC table. When the host processor 312 receives the MAC address of the first IP camera through the first port, It may be implemented to determine whether the first IP camera is genuine using the table.

5 is a flowchart illustrating an automatic IP address allocation method executed in a network video recorder (NVR) according to the present invention.

When the user connects the analog coaxial cable to the first port of the plurality of IP cameras and the first port of the network video recorder (NVR), the network video recorder (NVR) firstly connects the first IP camera to the first port (PORT). It is detected whether or not connected to the (S501).

When the IP camera connection is detected, the network video recorder NVR selects a first IP address corresponding to the first port PORT where the IP camera connection is detected from the VLAN table (S502). The VLAN table stores IP addresses corresponding to each of the plurality of ports.

The network video recorder (NVR) transmits the IP camera discovery packet to the first IP camera (S503), and then receives the MAC address of the IP camera through the first port (S504) (S504). The state is changed from the scan port to the service port, and the first IP address and the authentication information are transmitted to the IP camera (S505). The network video recorder (NVR) generates authentication information by combining the MAC address of the first IP camera and a preset unique key (KEY).

The NVR changes the state of the first port from the service port to the scan port when the IP camera connection is terminated.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined only by the appended claims.

Claims (7)

In a network video recorder (NVR) connected via a plurality of IP cameras and an analog coaxial cable, the network video recorder (NVR) is:
A plurality of ports including a first port (PORT) into which a header of an analog coaxial cable connected to a first IP camera of the plurality of IP cameras is inserted;
When an output signal combining a plurality of video signals including a baseband signal and a digital video signal is input from the first IP camera through the first port, the baseband video signal included in the output signal and the A modem separating the digital video signal by frequency to remove distortion from the digital video signal, and compensating and outputting the attenuation of the baseband video signal;
An Ethernet switch for detecting whether a header of an analog coaxial cable connected to the first IP camera is inserted into the first port; And
After the first IP camera connection is detected in the Ethernet switch, a first IP address corresponding to the first port PORT is selected in a VLAN table, and an IP camera discovery packet is transmitted to the first IP camera. When the MAC address of the first IP camera is received through the first port, the state of the first port is changed from the scan port to the service port, and the first IP address and authentication information are transferred to the first IP camera. A host processor for transmitting;
Network video recorder (NVR) comprising a.
The method of claim 1, wherein the host processor,
Receiving a digital video signal from the modem and storing the digital video signal in a storage unit, providing the digital video signal to a digital video decoder, and providing upstream data to the modem.
The method of claim 1, wherein the host processor,
Network port recorder (NVR), characterized in that for storing the port state and the MAC address of the IP camera connected to the port in the MAC table.
The method of claim 3, wherein the host processor,
When the MAC address of the first IP camera is received through the first port, the network video recorder determines whether the first IP camera is genuine using the MAC table.
A network video recorder (NVR) automatically assigns an IP address to an IP camera connected via an analog coaxial cable.
Detecting whether the IP camera is connected to a first port (PORT);
Selecting a first IP address corresponding to a first port (PORT) where the IP camera connection is detected from a VLAN table and transmitting an IP camera discovery packet to the IP camera; And
When receiving the MAC address of the IP camera through the first port (PORT) to change the state of the first port (PORT) from the scan port to the service port and to transmit the first IP address and authentication information to the IP camera step;
How to automatically assign an IP address to the IP camera in the network video recorder (NVR) comprising a.
The method of claim 5, wherein when receiving the MAC address of the IP camera through the first port (PORT), the state of the first port (PORT) is changed from the scan port to the service port and the first IP address and authentication information In the step of sending to the IP camera,
And the authentication information is generated by combining a MAC address and a unique key.
The method according to claim 5,
Changing the state of the first port from a service port to a scan port when the IP camera connection is terminated;
How to automatically assign an IP address to the IP camera in the network video recorder (NVR) further comprising.

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