KR101926491B1 - Method of transmitting moving image - Google Patents

Abstract

A moving picture moving method is disclosed. In this method, a frame image of a first resolution and a frame image of a second resolution are generated with respect to a frame image of a moving image. Next, the image of the set partial area is extracted from the frame image of the first resolution higher than the second resolution. Next, the extracted image of the set partial region is fused with the frame image of the second resolution, and a fusion frame image is generated. Then, the generated fusion frame image is transmitted to the client device.

Description

{Method of transmitting moving image}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a moving image transmission method, and more particularly, to a method for a host apparatus to transmit a live-view moving image from a camera to a client apparatus via a communication network.

As a representative example of a system in which a host apparatus transmits a live-view video from a camera to a client apparatus via a communication network, a surveillance system can be mentioned.

Due to the development of the photoelectric conversion device of a camera, for example, a CCD (Charge Coupled Device) or a CMOS (Complementary Metal Oxide Semiconductor) image sensor technology, the camera can generate a high-resolution live- have.

However, with respect to the state of the communication network, the performance of the client apparatus, etc., it is not easy for a high-resolution live-view video to be transmitted to the client apparatus via the communication network.

Therefore, the host apparatus transmits the low-resolution moving image to the client apparatus after greatly reducing the resolution of the moving image. Accordingly, the user of the client device feels uncomfortable due to the unclear video in the area of interest.

Japanese Laid-Open Patent Application No. 2006-287893 (filed by Hayashi Komasa et al., Entitled Network Camera System).

Embodiments of the present invention provide a system in which a host device transmits a live-view video from a camera to a client device via a communication network, To provide a video transmission method that can be transmitted to the device.

According to an aspect of the present invention, there is provided a moving image transmission method in which a host apparatus transmits a live-view moving image from a camera to a client apparatus via a communication network, the moving image moving method comprising: And a frame image of the second resolution are generated. Next, an image of the set partial area is extracted from the frame image of the first resolution higher than the second resolution. Next, the extracted image of the set partial region is fused with the frame image of the second resolution, and a fusion frame image is generated. Then, the generated fusion frame image is transmitted to the client device.

Preferably, when the generated fusion frame image is transmitted to the client apparatus, the frame image of the second resolution and the image of the extracted setting sub-region are transmitted together.

According to another aspect of the present invention, there is provided a moving picture transmitting method for a live-view moving picture from a camera to a client device via a communication network, the method comprising: And a frame image of the second resolution are generated. Next, an image of the set partial area is extracted from the frame image of the second resolution lower than the first resolution. Next, the extracted image of the set partial region is fused with the frame image of the first resolution, and a fusion frame image is generated. Then, the generated fusion frame image is transmitted to the client device.

According to the moving picture transmission method of the embodiments of the present invention, frame images of two different resolutions are generated, and an image of a set partial area is extracted from a frame image of a resolution and fused to a frame image of a different resolution.

As such a fusion frame image is transmitted to the client device, it is possible to transmit an effective video to the client device despite the relatively small amount of data.

For example, if the resolution of the image of the setting sub-region is relatively high and the region of interest of the user of the client apparatus is the setting sub-region, the user can conveniently view the video due to the sharp video in the region of interest have.

On the other hand, when the resolution of the image of the setting partial area is relatively low and the photographing subject area such as the privacy area is the setting partial area, the function of the photographing subject area is easily performed, .

1 is a view showing a monitoring system to which embodiments of the present invention are applied.
FIG. 2 is a diagram illustrating a moving image transmission method according to the first embodiment of the present invention.
FIG. 3 is a flowchart illustrating an operation of the host apparatus of FIG. 1 to perform the moving image transmission method of the first embodiment of FIG.
FIG. 4 is a diagram illustrating an example of a frame image having the second resolution shown in FIG.
FIG. 5 is a diagram showing an image of a first resolution when the setting partial area is enlarged, in relation to an example of the image of FIG.
FIG. 6 is a diagram illustrating an example of a fusion frame image transmitted according to the first embodiment of FIG.
7 is a diagram illustrating a moving image transmission method according to a second embodiment of the present invention.
FIG. 8 is a flowchart illustrating an operation of the host apparatus of FIG. 1 to perform the moving picture moving method of the second embodiment of FIG.
FIG. 9 is a view showing an example of a fusion frame image transmitted according to the second embodiment of FIG.

The following description and accompanying drawings are for understanding the operation according to the present invention, and parts that can be easily implemented by those skilled in the art can be omitted.

Furthermore, the specification and drawings are not intended to limit the present invention, and the scope of the present invention should be determined by the claims. The terms used in the present specification should be construed to mean the meanings and concepts consistent with the technical idea of the present invention in order to best express the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the present specification and drawings, constituent elements having substantially the same functional configuration are denoted by the same reference numerals, and redundant description will be omitted.

1 shows a monitoring system to which embodiments of the present invention are applied.

1, reference character D _IMA denotes moving picture data input from each of the cameras 1a, 1b, ..., 1n to the communication network 4, for example, the Internet, 3b, ..., 3n, respectively.

Reference symbol D _COM denotes the communication signals between each of the cameras 1a, 1b ... 1n and the communication network 4 or between the communication network 4 and the client devices 3a, 3b, ..., , 3n, respectively.

Reference symbol D _IMAT indicates composite moving image data input from the communication network 4 to the host apparatus 2 or composite moving image data input from the host apparatus 2 to the communication network 4. [

Reference symbol D _COMT denotes the composite communication signals between the host device 2 and the communication network 4.

1, a host apparatus 2 is connected to a network 1 via a communication network 4, for example, the cameras 1a, 1b, ..., 1n and client apparatuses 3a, 3b, 3n. Here, the client devices 3a, 3b, ..., 3n may include a desktop PC, a tablet PC, or a smart phone.

The cameras 1a, 1b, ..., 1n transmit live-view moving image data D _IMA to the host apparatus 2 while communicating with the host apparatus 2. [

The host apparatus 2 stores and transmits motion picture data D _IMA from the cameras 1a, 1b, ..., 1n while loading the motion picture data D _IMA into the volatile memory. That is, the host apparatus 2 transmits the moving picture data loaded on a channel-by-channel basis in the volatile memory to the client apparatuses 3a, 3b, ..., 3n as transmission targets, and stores the moving picture data in the hard disk drive as a recording medium.

In such a system, the host apparatus 2 generates frame images of two different resolutions, and then extracts the image of the set partial region from the frame image of one resolution and fuses it to the frame image of the different resolution. Here, the setting partial area may be a fixed area based on a user setting, or may be a variable area such as a motion detection area. The techniques such as motion detection and face recognition are well known and their explanation is omitted.

As such a fusion frame image is transmitted to the client apparatuses 3a, 3b, ..., 3n, a moving image effective for the user is transmitted to the client apparatuses 3a, 3b, ..., ., ≪ / RTI > 3n).

For example, if the resolution of the image in the set sub-region is relatively high and the region of interest of the user of the client device 3a, 3b, ..., 3n is the set sub-region, You can watch videos easily because of clear videos in your area of interest. The related contents will be described in detail with reference to Figs. 2 to 6. Fig.

On the other hand, when the resolution of the image of the setting partial area is relatively low and the photographing subject area such as the privacy area is the setting partial area, the function of the photographing subject area is easily performed, . The related contents will be described in detail with reference to Figs.

2 shows a moving picture moving method according to the first embodiment of the present invention. Fig. 3 shows the operation of the host device 2 of Fig. 1, which performs the moving image transmission method of the first embodiment of Fig. The moving picture moving method of the first embodiment of the present invention will be described with reference to FIGS. 1 to 3. FIG.

The camera 1a transmits the frame image 201 having the first resolution as the high resolution to the host apparatus 2. [ Of course, when the frame image 201 of the first resolution as the high resolution is compressed, the host apparatus 2 restores it. That is, the frame image 201 of the first resolution is a reconstructed frame image.

When the frame image 201 having the first resolution is input from the camera 1a (any one of 1a, 1b, ..., 1n) (Step S301), the host apparatus 2 acquires the second resolution And generates a frame image 203L (step S303).

In other words, the host apparatus 2 generates the frame image 203H of the first resolution and the frame image 203L of the second resolution as the high resolution in accordance with the resolution changing program 202. Since the resolution change algorithm is well known, its description is omitted.

The image 201 of the first resolution and the image 203H of the first resolution after execution are the same before execution of the resolution changing program 202. [ That is, the host apparatus 2 generates only the image 203L having the second resolution lower than the first resolution in accordance with the resolution changing program 202. [ However, the host apparatus 2 may generate the image 203H having the first resolution lower than the input resolution and higher than the image 203L having the second resolution in accordance with the resolution changing program 202. [

Next, the host apparatus 2 extracts the image 204 of the set partial area from the frame image 203H of the first resolution (step S305).

Next, the host apparatus 2 fuses the extracted image 204 of the set partial area with the frame image 203L of the second resolution to generate the fusion frame image 205 (step S307).

The host apparatus 2 then transmits the fusion frame image 208 to the client apparatuses 3a, 3b, ..., and 207b together with the frame image 207 of the second resolution and the image 206 of the extracted setting sub- 3n) (step S309).

 In step S309, the host apparatus 2 compresses the image 204 of the extracted partial region, the frame image 203L of the second resolution as the low resolution, and the generated fusion frame image 205, The compression-image 206 of the set partial region, the frame compression-image 207 of the second resolution, and the fusion frame compression-image 208, respectively.

Next, the host apparatus 2 transmits the fusion frame compression-image 208, but also transmits the frame compression-image 207 of the second resolution and the compression-image 206 of the setting partial region together. Of course, the host apparatus 2 may transmit only the fusion frame compression-video 208 to the client apparatuses 3a, 3b, ..., 3n.

The frame image 207 of the second resolution and the image 206 of the extracted setting sub-region are transmitted together as in the present embodiment in the step S309, and the client apparatuses 3a, 3b, ..., 3n At least one of them is displayed as PIP (Picture In Picture). Accordingly, the user of at least one of the client apparatuses 3a, 3b, ..., 3n can immediately know at which position the image 206 in the set partial area is located in the entire frame image 207. [ 2, reference numeral 209 indicates that the frame compression-image 207 of the second resolution and the compression-image 206 of the set partial area are restored from the client apparatuses 3a, 3b, ..., 3n PIP image of the result. 2, reference numeral 210 denotes a main image of a result of reconstruction of the fusion frame compression-image 208 in the client apparatuses 3a, 3b, ..., 3n.

The steps S301 to S311 are repeatedly performed until a termination signal is displayed (step S311).

FIG. 4 shows an example 401 of the frame image 203L of the second resolution in FIG. 5 shows an image (corresponding to 204 in Fig. 2) of the first resolution when the setting partial area is enlarged, with reference to an example 401 of the image of Fig. FIG. 6 shows an example of a fusion frame image 601 transmitted according to the first embodiment of FIG.

4 to 6, the image 601A of the setting partial area in the fusion frame image 601 is clearer than the image 401A of the setting partial area in the frame image 401 of the second resolution.

When the resolution of the image 601A in the setting partial region is relatively high and the region of interest of the user of the client apparatuses 3a, 3b, ..., 3n is the setting partial region 601A , The user can conveniently view the moving picture due to the sharp moving picture in the area of interest.

Thus, according to the first embodiment of FIGS. 2 to 6, as the fusion frame image 601 as described above is transmitted to the client apparatuses 3a, 3b, ..., 3n, An effective video to the user may be transmitted to the client device 3a, 3b, ..., 3n.

7 shows a moving image transmission method according to the second embodiment of the present invention. Fig. 8 shows the operation of the host device 2 of Fig. 1 for carrying out the moving image transmission method of the second embodiment of Fig. The moving picture transmission method of the second embodiment of the present invention will be described with reference to FIGS. 1, 7 and 8. FIG.

The camera 1a, 1b, ..., 1n transmits the frame image 701 of the first resolution as the high resolution to the host apparatus 2. [ Of course, when the frame image 201 of the first resolution as the high resolution is compressed, the host apparatus 2 restores it. That is, the frame image 701 of the first resolution is a reconstructed frame image.

When the frame image 701 having the first resolution is input from the camera 1a (any one of 1a, 1b, ..., 1n) (Step S801), the host apparatus 2 transmits the frame image 701 having the second resolution And generates a frame image 703L (step S803).

That is, the host apparatus 2 generates the frame image 703H of the first resolution and the frame image 703L of the second resolution as the high resolution in accordance with the resolution changing program 702. [ Since the resolution change algorithm is well known, its description is omitted.

The image 701 of the first resolution and the image 703H of the first resolution after execution are the same before execution of the resolution changing program 702. [ That is, the host apparatus 2 generates only the image 703L having the second resolution lower than the first resolution in accordance with the resolution changing program 702. [ However, the host apparatus 2 may generate the image 703H having the first resolution lower than the input resolution and higher than the image 703L having the second resolution in accordance with the resolution changing program 702. [

Next, the host apparatus 2 extracts the image 204 of the set partial area from the frame image 703L of the second resolution (step S805).

Next, the host apparatus 2 fuses the extracted image 704 of the set partial area with the frame image 703H of the first resolution to generate the fusion frame image 705 (step S807).

Then, the host apparatus 2 transmits the fusion frame image 705 to the client apparatuses 3a, 3b, ..., 3n (step S809). Here, the host apparatus 2 compresses the generated fusion frame image 705 to generate a fusion frame compression-image, and then outputs the fusion frame compression-image to the client apparatus 3a, 3b, ..., 3n At least one of them). 7, reference numeral 710 denotes a video image obtained as a result of reconstruction of the fusion frame compression-video in the client apparatuses 3a, 3b, ..., 3n.

The steps S801 to S811 are repeatedly performed until the end signal is displayed (step S811).

FIG. 9 shows an example of a fusion frame image 901 transmitted according to the second embodiment of FIG.

9, when the resolution of the image 901A in the setting partial area is relatively low and the photographing subject area such as the privacy area is the setting partial area 901A, the function of the photographing subject area is simplified The amount of transmitted data can be reduced.

Thus, according to the second embodiment of FIGS. 7 to 9, as the fusion frame image 901 is transmitted to the client apparatuses 3a, 3b, ..., 3n, An effective video to the user may be transmitted to the client device 3a, 3b, ..., 3n.

As described above, according to the moving image transmission method of the embodiments of the present invention, after frame images of two different resolutions are generated, the image of the set partial area is extracted from the frame image of one resolution, Lt; / RTI >

As such a fusion frame image is transmitted to the client device, it is possible to transmit an effective video to the client device despite the relatively small amount of data.

For example, when the resolution of the image of the setting part area is relatively high and the area of interest of the user of the client device is the setting part area, the user can conveniently view the moving image due to the sharp moving image in the area of interest.

On the other hand, when the resolution of the image of the setting partial area is relatively low and the photographing subject area such as the privacy area is the setting partial area, the function of the photographing subject area is easily performed and the amount of data to be transmitted can be reduced.

The present invention has been described above with reference to preferred embodiments. It will be understood by those skilled in the art that the present invention may be embodied in various other forms without departing from the spirit or essential characteristics thereof.

Therefore, the above-described embodiments should be considered in a descriptive sense rather than a restrictive sense. The scope of the present invention is defined by the appended claims rather than by the foregoing description, and the inventions claimed by the claims and the inventions equivalent to the claimed invention are to be construed as being included in the present invention.

It is highly likely to be used not only in the host device but also in the camera itself.

1a, 1b, ..., 1n: cameras, 2: host device,
3a, 3b, ..., 3n: client devices, 4: communication network,
201: frame image of the first resolution,
202: Resolution Change Program,
203H: frame image of the first resolution,
203L: frame image of the second resolution,
204: image of the setting partial area, 205: fusion frame image,
206: compression of the setting partial area - image,
207: frame compression of the second resolution - image,
208: Convergence frame compression-image, 209: PIP image,
210: fusion frame image,
401: frame image of the second resolution,
401A: image of client interest area,
501: Zoom-in image of the setting partial area,
601: a fusion frame image, 601A: a picture of a set partial area,
701: frame image of the first resolution,
702: Resolution Change Program,
703H: frame image of the first resolution,
703L: frame image of the second resolution,
704: image in the setting partial area, 705, 710: fusion frame image,
901: Convergence frame image, 901A: Image of setting partial area.

Claims (3)

A moving picture transmission method in which a host apparatus transmits a moving picture from a camera to a client apparatus via a communication network,
Generating a frame image of the first resolution and a frame image of the second resolution with respect to the frame image of the moving image;
Extracting an image of the set partial region from the frame image of the first resolution higher than the second resolution;
Generating a fusion frame image by fusing the image of the set partial region with the frame image of the second resolution;
Compressing the fusion frame image to generate a fusion frame compression-image; And
And transmitting the fusion frame compression-video to the client device,
Wherein the first resolution is lower than the input resolution of the frame image of the moving image. The method according to claim 1,
In the step of generating the fusion frame compression-image, the image of the set partial area and the frame image of the second resolution are respectively compressed to generate a compression-image of the set partial area and a frame compression-image of the second resolution, respectively and,
And transmitting the fusion frame compression-image to the client device, wherein the frame compression-image of the second resolution and the compression-image of the setting partial area are transmitted together. A moving picture transmission method in which a host apparatus transmits a moving picture from a camera to a client apparatus via a communication network,
Generating a frame image of the first resolution and a frame image of the second resolution with respect to the frame image of the moving image;
Extracting an image of the set partial region from the frame image of the second resolution lower than the first resolution;
Generating a fusion frame image by fusing the image of the set partial region with the frame image of the first resolution;
Compressing the fusion frame image to generate a fusion frame compression-image; And
And transmitting the fusion frame compression-video to the client device,
Wherein the first resolution is lower than the input resolution of the frame image of the moving image.

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