KR100389847B1 - Streaming device for moving picture - Google Patents

Abstract

The present invention relates to a video transmission apparatus, which is configured inside a camera to convert analog video data captured by a camera into digital video data, and compresses and decodes the converted digital video data in a predetermined compression format, respectively. It converts and stores in bitmap data format, and the stored compressed and decoded video data can be transmitted to a user computer through a wired network and the stored bitmap data can be transmitted to a user mobile terminal through a wireless network for low cost. This allows you to send videos to users via wired and wireless networks, and not only to users 'computers that can easily receive data from video data captured by the camera, but also to users' mobile screens with small screen size and data capacity. Group is one to efficiently transfer the video without increasing the load of the WAP (WAP) server.

Description

Streaming device for moving picture}

The present invention relates to a video transmission device, and to a camera-integrated video transmission device configured to be integrated with a web camera to convert, compress and encode a video taken from the camera to be transmitted to the user via a network.

1 is an example of a video transmission system when a conventional web server is installed outside the camera.

This example includes a camera 100 for capturing an external image, a web server 200 for converting, compressing and encoding analog video data captured by the camera 100 and transmitting the same through a network, and the web server 200. It includes a plurality of user computers (300) connected to the network via a network to decode and play the encoded video data transmitted from the web server.

Accordingly, the analog video data photographed by the camera 100 is digitally converted and encoded in a predetermined compression format through the web server 200, stored in the web server 200, and a request from the user computer 300 is received. If present, it is transmitted through the network to be decoded and reproduced by the program means inside the user computer 300, or transmitted to the user computer 200 through the network in real time and decoded and reproduced by the program means inside the user computer 200. Will be.

2 is another example of a video transmission system when a conventional web server is installed inside a camera.

In this example, since the web server 200 is configured inside the camera 100, a method of digitally converting, compressing, and encoding a video photographed by the camera 100 is the same as that illustrated in FIG. Omit.

In this example, since the web server 200 is built in the camera 100, the server burden may be less and the device may be simpler than the embodiment of FIG. 1, but the server capacity is limited.

Figure 1a is a process diagram of the present invention, Figure 1b (a) to Figure 1b (bar) is an exemplary view of the process of the present invention. The first step of the present invention is corrugated cardboard supply as shown in Figure 1b (a) The supplied corrugated cardboard is cut to a certain size to form the body 1. In addition, at the same time, the body 1 has a bent line 10 for forming the two side packaging (2) (2A) and the rear packaging (3) as shown in Figure 1b (b) and at the same time one side At one end of the packing table 2, a rectangular groove 6 opened to one side is formed at the same time.

In the second process of the present invention, as shown in FIG. 1B (C), the two side packers 2 (2A), the back packer 3, and the one side packer 2 are formed by the bending line 10. The upper and lower pressing portions 4 and 4A are formed at the upper and lower ends of the body 1 in which the grooves 6 are formed at the end sides of the upper and lower ends by pressing means.

In the third process of the present invention, as shown in FIG. 1B (D), the body 1 of the second process is converted to 90 ° again, and then both sides of the pavement bag are bonded for the attachment of the nitrion paper 5 to be described later. (2) (2A) and the bonding operation to apply the adhesive (10A) to the middle portion of the back packaging (3).

The fourth step of the present invention is to knit on the body (1) to which the adhesive 10A is applied as shown in Figure 1b (e) to prevent the product from scratching after performing the bonding operation as in the third step After attaching and attaching the long paper 5 and completing the attaching work of the nitro paper 5, the cutting of the nitro paper 5 by the hot wire is performed.

The fifth step of the present invention is to finally bend the body 1 along the bend line 10 formed on the body 1 as shown in Figure 1b (bar) by the present invention as shown in Figure 2 Will complete the product.

Still another object of the present invention is to provide a video transmission apparatus capable of transmitting a video to a user computer through a web server and a user mobile communication terminal through a swap server according to a user's selection.

Still another object of the present invention is to provide a video transmission apparatus capable of transmitting a video to a user through a wired or wireless network at a low cost.

Figure 1a is a process diagram of the present invention. Figure 1b (a) to Figure 1b (bar) is an exemplary view for each process of the present invention. Figure 2 is a perspective view of the inner sheet for refrigerator packaging according to the present invention.

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

10: camera 20: video transmission device

21: A / D converter 22: signal processor

23: image processing unit 24: control unit

24a: streaming server 24b: web server

24c: network interface 30: swap server

40: user computer 50: user mobile communication terminal

According to an aspect of the video transmission apparatus according to the present invention for achieving the above object, the video transmission apparatus according to the present invention is a video transmission device embedded in the camera connected to at least one or more user communication terminal via a network An A / D converter for converting an analog video signal received from a camera for photographing an external video into a digital video signal; A signal processor which compresses and encodes a digital video signal received from the A / D converter; An image processor which processes the digital video signal received from the A / D converter and converts the digital video signal into a bitmap format for a mobile communication terminal; And a controller for converting the compressed and encoded video signal output from the signal processor and the bitmap video signal output from the image processor to a plurality of user computers or a swap server, each of which is accessed through a network. do.

As described above, the present invention is made of corrugated cardboard, which is not only environmentally friendly but also recyclable. In addition, the inner packaging of the three sides of the refrigerator, i.e., both sides and the rear side of the refrigerator can be simultaneously made without additional work, and the insertion of the packing box on the upper side of the refrigerator can be easily performed by the pressing part without jamming, thereby protecting the corners of the refrigerator. In addition, the work can be done more quickly, and the effect is to increase the simplicity, efficiency and productivity of the work.

According to an additional aspect of the video transmission apparatus according to the present invention, the control unit of the video transmission apparatus according to the present invention is a video signal output from the signal processor in the Realtime Transport Protocol (RTP) method, and a bitmap video output from the image processor Characterized in that the signal is streamed out.

According to an additional aspect of the video transmission apparatus according to the present invention, the image processing unit of the video transmission apparatus according to the present invention distinguishes an object from a background by filtering a digital video signal applied from the A / D converter. Emphasizing, smoothing the background without noise, correcting the image in the form of color brightness required by a given display through gamma correction, error diffusion processing to distribute the quantization error to adjacent pixels, and reconstructing it into a bitmap. It features.

According to an additional aspect of the video transmission apparatus according to the present invention, the signal processing unit of the video transmission apparatus according to the present invention is characterized in that the digital video signal received from the A / D converter is compressed and encoded in a JPEG method. .

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce the present invention.

3 is a block diagram showing an embodiment of a system to which a video transmission apparatus according to the present invention is applied.

As shown, this embodiment includes a camera 10, a swap server 30, a user computer 40, and a user mobile communication terminal 50.

The camera 10 includes a video transmission device 20 according to the present invention including a web server therein, and outputs analog video data of an external image to the video transmission device 20.

The swap server 30 is connected to the network with the camera 10 receives the encoded video data output from the video transmission device 20 in accordance with the HTTP transmission protocol is converted into a WAP transmission protocol and outputs .

That is, the swap server 30 converts the moving image data converted into the bitmap format by the image processing unit 23 from the web server 24b of the moving image transmission apparatus 20 in the camera 10 to the network interface 24c. Received through) is transmitted to the mobile communication terminal 50, at this time, since the conversion of the video data is made in the video transmission device 20, the load on the swap server 30 is minimized.

The user computer 40 is connected to the network with the camera 10 receives the encoded video data output from the video transmission device 20 in accordance with the HTTP transmission protocol to decode the video through the internal video playback program to play the video do.

The user mobile communication terminal 50 is connected to the swap server 30 through a wireless communication network to receive the bitmap data output from the swap server 30 in accordance with the WAP transfer protocol (WAP) video playback program therein Play through.

That is, the analog video data photographed by the camera 10 is converted, compressed and stored by the video transmission device 20, and when there is a transmission request from the user computer 40, the video transmission device ( The video data is transmitted to the user computer 40 and reproduced according to the HTTP transmission protocol through the web server included in 20).

On the other hand, when there is a transmission request from the user mobile communication terminal 50, bitmap data output from the video transmission device 20 according to the HTTP transmission protocol is transferred through the WAP server 30 (WAP) transfer protocol. It is changed to and transmitted to the user mobile communication terminal 50 to be reproduced.

4 is a block diagram of the video transmission apparatus of the present invention according to the embodiment of FIG.

The video transmission device 20 according to this embodiment includes an A / D converter 21, a signal processor 22, an image processor 23, and a controller 24.

The A / D converter 21 converts an analog video signal received from a camera photographing an external video into a digital video signal.

The signal processor 22 compresses and encodes a digital video signal received from the A / D converter 21.

At this time, the signal processor 22 compresses and encodes the digital video signal received from the A / D converter 21 by a predetermined compression method such as JPEG or MPEC.

The image processor 23 performs image processing on the digital video signal received from the A / D converter 21 and converts the image into a bitmap format for a mobile communication terminal.

The control unit 24 controls the entire apparatus, and stream-converts the compressed and encoded video signals output from the signal processor 22 and the bitmap video signals output from the image processor 23 and accesses them through a network. To multiple user computers or swap servers.

The control unit includes a streaming server 24a, a web server 24b, and a network interface 24c.

The streaming server 24a is implemented in a soft form and stream-converts the video signal output from the signal processor 22 and the bitmap video signal output from the image processor 23 according to the HTTP transmission protocol.

The web server 24b is implemented in software to provide compressed and hatched video signals and bitmap video signals that are output from the streaming server 24a to a plurality of user computers or swap servers that are each accessed through a network. Send each one.

The network interface 24c outputs the compressed and encoded video signals output from the web server 24b and the bitmap video signals on the network.

That is, the analog video signal photographed from the camera and output is converted into a digital video signal by the A / D converter 21, and through the signal processor 22, a predetermined compression method, for example, JPEG, MPEG, etc. Is compressed and stored, and converted into a bitmap format by the image processing unit 23 and stored.

At this time, the image processor 23 distinguishes the object from the background by filtering the digital video signal applied from the A / D converter 21 to emphasize the object, smooth the background without noise, and perform gamma correction. The image is corrected in the form of color brightness required by a predetermined display, an error diffusion process of distributing quantization errors to adjacent pixels, and binarized to reconstruct the bitmap.

Meanwhile, when a video transmission request is received from a user computer connected to the video transmission device 20 through a network interface 24c, the video transmission device 20 streams the encoded video output through the streaming server 24a. Data is transmitted to the user computer through the web server 24b according to the HTTP transfer protocol and reproduced through the user computer.

On the other hand, when a video transmission request is received from a user mobile communication terminal connected to a swap server 30 and a wireless communication network, the video transmission device 20 is bitmap processed video data output through the streaming server 24a Is outputted to the swap server 30 according to the HTTP transmission protocol through the web server 24b, and is changed into a swap (WAP) format by the swap server 30, and the user mobile communication according to the swap (WAP) transmission protocol. The bitmap processed video data is transmitted to the terminal for playback through the user's mobile terminal.

That is, in this case, instead of converting a large sized video file such as JPEC, MPEC, etc. into a swap format, the size of the small size is reduced through the image processing unit 23 of the video transmission device 20 built in the camera. In the bitmap format, the swap server 30 converts the video signal of the bitmap format into the swap format, thereby minimizing the processing load on the swap server 30.

Therefore, the moving image data photographed by the web camera can be transmitted not only to the user's computer which is easy to receive data, but also to the mobile communication terminal of the user whose screen size and data capacity are small to execute the moving image.

Additionally, the video transmission device 20 according to the present invention outputs from the signal processing unit in a real time transport protocol (RTP) method, which is a standard technology capable of transmitting a video signal in real time when outputting from the stream server 24a of the control unit 24. The streamed video signal and the bitmap video signal outputted from the image processing unit are streamed out.

The video transmission apparatus according to the present invention described above can be used to monitor, protect, and observe children at a distance, and can be expanded to a public and broadcast area by allowing a large number of users to be connected using a central media server function. Can be used. Furthermore, by connecting a plurality of video transmission devices and a directory server, it is possible to construct a web promotion system having a plurality of video generation sources.

As described above, the video transmission apparatus according to the present invention is configured inside the camera to transmit a video to the user through a wired / wireless network at a low cost, and only the user computer that can easily receive data of the video data captured by the camera. In addition, it has a useful effect of efficiently transmitting a video without increasing the load of a WAP server to a user's mobile terminal having a small screen size and data capacity to execute a video.

Although the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications may be made therein without departing from the scope of the invention, which is covered by the following claims.

Claims (5)

In the video transmission apparatus embedded in the camera connected to at least one user communication terminal via a network, An A / D converter for converting an analog video signal received from a camera for photographing an external image into a digital video signal; A signal processor which compresses and encodes a digital video signal received from the A / D converter; An image processor which processes the digital video signal received from the A / D converter and converts the digital video signal into a bitmap format for a mobile communication terminal; A control unit for converting the compressed and encoded video signals output from the signal processing unit and the bitmap video signals output from the image processing unit to a plurality of user computers or a swap server each having access through a network; Video transmission device comprising a. The method of claim 1, The control unit: A streaming server which is implemented in a soft form and stream-converts the video signal output from the signal processor according to the HTTP transmission protocol and the bitmap video signal output from the image processor; A web server which is implemented in software form and transmits the compressed and hatched video signals and bitmap video signals, respectively, which are streamed and output from the streaming server to a plurality of user computers or a swap server, each of which is accessed through a network; Video transmission device comprising a. The method of claim 1, The control unit: A video transmission apparatus, comprising: streaming a video signal output from a signal processor and a bitmap video signal output from an image processor by using a Realtime Transport Protocol (RTP) method. The method according to claim 1 or 2 or 3, The image processing unit distinguishes the object from the background by filtering the digital video signal applied from the A / D converter, emphasizing the object, smoothing the background without noise, and performing gamma correction to adjust the color brightness required by the display. A video transmission device characterized in that the image is corrected in the form, an error diffusion process for distributing the quantization error to adjacent pixels, and binarized to reconstruct the bitmap. The method according to claim 1 or 2 or 3, And the signal processor compresses and encodes the digital video signal received from the A / D converter by JPEG method.