KR100779762B1 - Multi channel module type dvr system of embedded base - Google Patents

Abstract

A multi-channel module type DVR(Digital Video Recorder) system based on embedded type is provided to easily perform extension of a channel, prevent storage rate of channel by channel video according to extension of the channel from being degraded, and prevent display/producing process rate from being degraded, thereby providing high quality video and preventing performance and quality from being deteriorated in an internet network. A multi-channel module type DVR(Digital Video Recorder) system based on embedded type includes a plurality of decoders(10), a codec module(20), a live module(30), and a PCI(Peripheral Component Interconnect) module(50). The decoder converts an analog video signal inputted from a predetermined number of unit multi-channel into a digital video signal. The codec module reads a video stored in a hard disk and decompresses the read video. The live module displays a video signal inputted from the decoder on a monitor in real time and replays the decompressed video inputted from the codec module on the monitor. The PCI has a plurality of connection ports.

Description

Multi Channel Module Type DVR System Based on Embedded Type

1 is an overall schematic block diagram of a DVR system according to the present invention;

2 is a schematic block diagram of a codec module;

3 is a schematic block diagram of a live module;

4 is a schematic block diagram of a CPU module.

<Description of the symbols for the main parts of the drawings>

U1, U2: Unit multi-channel 1,2: Unit module

10: decoder 20: codec module

30: live module 40: CPU module

50: PCI Module

The present invention relates to a multi-channel modular DVR system based on an embedded type, and more particularly, to easily expand a channel, and to reduce the speed and quality of image storage and playback according to the expansion of the channel. It is too much for the DVR system.

The DVR (Digital Video Recorder) system converts analog video signals of multiple channels input to surveillance cameras into digital video signals and displays them in real time.At the same time, digital video signals can be stored, played back and searched using compression technology. Device.

And, unlike the existing PC type DVR, the embedded type DVR combines Linux or self-developed operating system with hardware that has the functions required for the DVR. It is characterized by low cost and high stability.

In general, a multi-channel DVR system includes a plurality of decoders for converting video signals input from a plurality of channels into digital video signals, compressing the video signals input from the decoder, storing the compressed video signals on a hard disk, and decompressing the compressed video signals. A codec, an encoder (or multiplexer) for displaying a video signal input from the decoder in real time on a monitor, and playing back a video input from the codec on a monitor, and a CPU controlling the overall control.

 In order to reduce costs, the number of decoders connected to the CPU through the codec is limited so that multiple channels are shared and connected to one decoder and the quality of the stored and reproduced video is not degraded.

In the conventional embedded type multi-channel DVR system, the number of decoders connected to the CPU is four and the channels shared by each decoder are four, and a total of 16 channels are processed. As such, four decoders are connected to one CPU, and the DVR system processing 16 input channels stores and plays back images without the user feeling a significant difference in image quality. At this time, the video recording speed and playback speed are about 30fps per channel.

However, if the user has a lot of places to monitor and installs more than 16 cameras, that is, the channel is expanded,

In order to prevent the quality of the video processed by the DVR system, additional DVR system must be additionally installed in accordance with the expanded channel number. In this case, the cost is rapidly increased and the user has to manage each DVR system. Remorse occurs.

Because of this cost and hassle, if you expand the channel to an existing DVR system by increasing the number of channels connected to one decoder or the number of decoders connected to the CPU,

Decoders, codecs, encoders, especially CPUs, which are central processing units, require a lot of data to significantly reduce the storage and display / play quality of images input from each channel.

The present invention has been made to solve the above-mentioned conventional problems, it is possible to expand the channel at a low cost, embedded type-based multi-channel modular DVR system that does not degrade the quality of the image according to the expansion of the channel For the purpose of providing it.

The embedded type-based multi-channel modular DVR system of the present invention for achieving the above object is

A plurality of decoders for converting an analog video signal input from a predetermined number of unit multi-channels into a digital video signal;

A codec module for compressing a video signal input from the decoder, storing the video signal on a hard disk, and reading and decompressing a video stored in the hard disk;

A live module for displaying a video signal input from the decoder in real time on a monitor and reproducing a decompressed video input from the codec module on a monitor;

A PCI module having a plurality of connection ports to which peripheral devices such as hard disks and USB are connected;

Embedded type based multi-channel modular DVR comprising a; CPU module connected to the codec module and the PCI module, and controls the image displayed on the monitor through the live module by a predetermined program or external command signal To

In order to prevent deterioration of image storage and display / playback quality due to channel expansion,

The decoder, codec module, live module, PCI module and CPU module are configured as one unit module,

The decoder of each unit module is electrically connected to receive a video signal from the unit multi-channel of another unit module.

The CPU module of each unit module may be electrically connected to each other for data transmission.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram of an embedded type-based multi-channel modular DVR system according to the present invention, wherein a DVR system including 32 channels (2 unit multichannels consisting of 16 channels) and 2 unit modules accordingly is shown. Is shown as an example.

As shown in the figure, each unit module 1, 2 is composed of a decoder 10, a codec module 20, a live module 30, a CPU module 40 and a PCI module 50,

Decoder 10 of each unit module (1, 2) is connected to the unit multi-channel (U1, U2) consisting of 16 channels to receive a video signal,

The CPU modules 40 of each unit module 1 and 2 are electrically interconnected to enable I2C communication, and the decoder 10 of each unit module 1 and 2 is connected to other unit multichannels U1 and U2. Therefore, the processing speed of the video (storage rate, frame rate of the playback speed) is reduced according to the expansion of the channel so that the quality of the video is not deteriorated.

The unit modules (1, 2) is made of a card form, each of the card module unit modules (1, 2) are inserted into each of the plurality of slots formed in the motherboard (not shown) so as to be removable from each other. Is electrically connected to the

Here, the unit modules (1, 2) inserted into the slot is electrically connected to each other, the CPU module 40 of each unit module (1, 2) is connected for mutual data transmission, each unit module (1, The decoder 10 of 2) is connected to one unit multichannel U1 or U2 to process a video signal of one unit multichannel U1 or U2 exclusively, and at the same time the other unit multichannel U2 or U1 It also means that the video signal is also connected to another unit multi-channel (U2 or U1) to further process.

By inserting the unit module (1, 2) in the form of a card detachably inserted into the main board to be electrically connected to each other, it is easy to expand the DVR system (that is, the expansion of the number of channels), the installation space can be minimized, The internal interface simplifies wiring and simplifies maintenance.

The decoder 10 converts an analog video signal input from the unit multi-channels U1 and U2 into a digital video signal and transmits it to the codec module 20 and the live module 30.

One unit module (1, 2) is provided with four decoders 10, each decoder 10 receives a video signal from four channels of the unit multi-channel (U1, U2).

The processing rate frame rate per channel of each decoder 10 is 30 fps (frame per second).

The decoder 10 of one unit module 1 is connected not only to one unit multichannel U1 but also to another unit multichannel U2, so that the other unit module 2 has a low image processing speed or a low driving speed. If such a problem occurs, the video signal is received from another unit multi-channel U2 and decoded. In this case, the CPU module 40 determines whether the decoder 10 receives and processes the video signal of another unit multi-channel U2.

For example, the decoder 10 of the first unit module 1 normally processes and processes the video signal of the first unit multi-channel U1, and the decoder 10 of the second unit module 2 has a second signal. Dedicated processing of the video signal of the unit multi-channel U2,

When an abnormality occurs in the second unit module 2, the CPU module 40 of the second unit module 2 transmits an abnormal signal to the CPU module 40 of the first unit module 1, and transmits the abnormal signal. The CPU module 40 of the first unit module 1 receives the decoder 10 to process the image signal of the second unit multi-channel U2.

The codec module 20 compresses the video signal transmitted from the decoder 10 or decompresses the compressed video signal.

Currently used as a digital video compression technology, such as JPEG, wavelets, MPEG. The JPEG or wavelet is used as a compression technique for still images, and the MPEG is used as a compression technique for moving images.

The present invention uses the MPEG (MPEG4) as shown in Figure 2 as a codec module 20 for compressing the image.

The codec module 20 compresses the video signal transmitted from the decoder 10 and stores the compressed video signal in a hard disk connected to the PCI module 50 through the CPU module 40. (MPEG4ENCODER) 21,

Read and decompress the compressed video signal stored in the hard disk connected to the PCI module 50 through the CPU module 40, and transmit the decompressed video signal to the live module 30. An MPEG decoder (MPEG4DECODER) 26 is included.

The MPEG encoder 21 may be connected to a video encoder 23 for displaying an image on a monitor.

The live module 30 receives an image signal from the decoder 10 and displays the image signal on a monitor in real time, and receives the image signal stored (recorded) from the codec module 20 and reproduces the image signal on the monitor M. )do.

A multiplexer is used in the live module 30 as shown in FIG. 3 to multiplex and display / reproduce video signals input from a plurality of channels and video signals recorded for each channel.

A plurality of monitors are connected to the multiplexer 30. Each monitor displays / plays images on OSD or VHS.

Images of important channels are continuously displayed on the monitor continuously,

Images of less important channels are displayed in a split screen on one monitor,

The images of less important channels are displayed on the monitor as a channel sequential switching screen in which channels are sequentially switched at regular intervals, or when an event such as a vehicle entering or a person occurs on the channel, the video of the channel is displayed. It is displayed on the screen.

The CPU module 40 controls which channel to display / play back images on each monitor through the multiplexer 30. That is, a channel to be displayed / reproduced on the monitor is selected by an external command signal such as a program preset by the CPU module 40 or a user's operation signal, and when the image of the selected channel is divided on the monitor, the channel is sequentially switched. , It is displayed / played in the format of the event screen.

The CPU module 40 controls the DVR system as a whole. As shown in FIG. 4, the memory 43 and 45 and the RTC 47 connected to the CPU through an interface with the CPU 41, which is a central processing unit, and various It consists of a port.

The memory includes a FLASH memory 43 in which Linux, which is an open operating system and stable and excellent performance is stored, and a DRAM 45 in which a program related to selection of a channel to be displayed / played on a monitor is stored.

The real time clock (RTC) 47 measures time, and the CPU 41 selects and displays a channel to be displayed on the monitor at the time according to the time measured by the RTC 47 and a predetermined program. .

Ports connected to the CPU 41 include a JTAG port, an Ethernet port, a UART port, and the like.

The JTAG port is for downloading a program stored in the memory 43, 45,

Ethernet port for local area communication and UART port for serial communication allow you to transfer stored images to the administrator PC or control the DVR system remotely using the Internet.

The CPUs 41 of the unit modules 1 and 2 are electrically connected to each other, and transmit and receive various data through I2C communication.

The PCI module 50 is a peripheral component interconnect (Peripheral Component Interconnect) is connected to the CPU via a PCI BUS, the PCI BUS as a connection port for connecting a peripheral device such as a hard disk, USB IDE Port, IEEE port, USB port are connected.

As described above, the present invention includes a unit module for exclusively processing a unit multiple channel, each unit module is provided with its own CPU, and is connected by I2C communication between CPUs of the unit modules, and the decoder of each unit module is Since it is connected to other unit multi-channels, it is easy to expand the channel (unit multi-channel), and the high-quality video can be saved because the image storage and display / play processing speed (frame rate) of each channel is not lowered according to the expansion of the channel. Can be provided, and even when connected to the Internet, performance and quality deterioration does not occur,

The unit module can be inserted into or detached from the slot of the main board in the form of a card, and is electrically connected between the unit modules. Therefore, the installation space can be minimized even if the channel is expanded, the wiring connection is simplified, and the maintenance is easy. Have

In the above description of the present invention, the embedded type-based multi-channel modular DVR system having a specific shape and structure has been described with reference to the accompanying drawings, but the present invention can be variously modified and changed by those skilled in the art. And modifications should be construed as falling within the protection scope of the present invention.

Claims (6)

A plurality of decoders for converting an analog video signal input from a predetermined number of unit multi-channels into a digital video signal; A codec module for compressing a video signal input from the decoder, storing the video signal on a hard disk, and reading and decompressing a video stored in the hard disk; A live module for displaying a video signal input from the decoder in real time on a monitor and reproducing a decompressed video input from the codec module on a monitor; A PCI module having a plurality of connection ports to which peripheral devices such as hard disks and USB are connected; Embedded type based multi-channel modular DVR comprising a; CPU module connected to the codec module and the PCI module, and controls the image displayed on the monitor through the live module by a predetermined program or external command signal In the system, In order to prevent deterioration of image storage and display / playback quality due to channel expansion, The decoder, codec module, live module, PCI module and CPU module are configured as one unit module, The decoder of each unit module is electrically connected to receive a video signal from the unit multi-channel of another unit module. CPU module of each unit module is embedded type based multi-channel modular DVR system, characterized in that electrically connected to each other. The method of claim 1, The unit multi-channel is 16 channels, embedded type based multi-channel modular DVR system, characterized in that consisting of four decoders of the unit module for processing the 16-channel video signal. The method of claim 1, The unit module is formed in the form of a card, each of the card-shaped unit module is embedded type-based, characterized in that each of the plurality of slots formed in the motherboard is inserted to be detachable and electrically connected to each other. Channel modular DVR system. The method according to any one of claims 1 to 3, The live module is connected to a plurality of monitors, Based on the embedded type, the multiplexer displays / plays the video of the channel selected by the CPU module or the external command signal in the form of a split screen, a channel sequential switching screen, and a continuous screen. Multi-channel modular DVR system. The method of claim 4, wherein The codec module is an MPEG encoder for compressing the video signal transmitted from the decoder, and stores the compressed video signal to a hard disk connected to the PCI module through the CPU module; And an MPEG decoder which reads the compressed video signal stored in the hard disk connected to the PCI module through the CPU module, decompresses the compressed video signal, and transmits the decompressed video signal to the live module. Embedded type based multi-channel modular DVR system. The method of claim 5, The CPU module is connected to the codec module and the PCI module, the CPU having a JTAG port for program download, Ethernet port for short-range communication and UART port for serial communication; A memory connected to the CPU and storing a program downloaded through the JTAG port; Embedded type based multi-channel modular DVR system is connected to the CPU and comprises a Real Time Clock (RTC) for time measurement.

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