KR20130057100A - Image processing apparatus and control method thereof - Google Patents

Abstract

PURPOSE: An image processing device and a control device thereof are provided to minimize delays of image display caused by channel switching by performing an image stream about a change target channel. CONSTITUTION: An image processing device(100) generates a channel list classified according to set categories. The image processing device requests the transmission of a stream of a first channel to receive the stream and displays an image based on the received stream. If one or more second channels different from the first channel are selected from the channel list, the image processing device requests the transmission of the second channels for a router(20). [Reference numerals] (10) Server; (110) Communication unit; (120) Image processing unit; (130) Display unit; (140) User input unit; (150) Storage unit; (20) Router

Description

Image processing apparatus and control method thereof {IMAGE PROCESSING APPARATUS AND CONTROL METHOD THEREOF}

The present invention relates to an image processing apparatus and a control method thereof for displaying a video stream received from a server through network communication. An image processing apparatus and a control method thereof.

An image processing apparatus is a device for processing an image signal / image data input by various methods from an external image source so as to display it as an image. The image processing apparatus displays the processed image data as an image on an image panel having its own, or outputs it to a separate display apparatus provided with the image panel so that the image is displayed on the display apparatus. Examples of the image processing apparatus provided to the general user include a TV in the former case and a set-top box in the latter case.

Image sources for supplying image data to the image processing apparatus may be implemented in various ways. For example, the image supply source may be a transmission device of a broadcasting station that provides a video signal through airwaves or a cable, or may be implemented as a streaming server connected on a network based on an Internet protocol. When the video source is a streaming server, at least one router sets a transmission path between the video source and the image processing apparatus, and the video source processes the packet stream of the video through the set transmission path. Send to the device. The image processing apparatus processes the packet stream received through the router from the image source and displays the image.

According to an embodiment of the present invention, a control method of an image processing apparatus connected to the router may be configured to generate a channel list classified according to a preset category, so that a server and a router supplying a stream of video for each channel may be communicated. Steps; Performing a transmission request of the stream of the first channel to the router to receive a stream of the first channel from the server, and displaying an image based on the stream of the first channel received according to the transmission request; Selecting at least one second channel different from the first channel on the channel list according to the category in which the first channel of the image being displayed is included, and the stream of the at least one second channel selected for the router And performing a transmission request of the terminal.

The performing of the request for transmitting the selected at least one stream of the second channel to the router may include: receiving the stream of the second channel from the router; The step of not displaying the image based on the stream of the second channel while the image based on the stream of the first channel is displayed.

The step of not displaying an image based on the stream of the second channel may include decoding and updating an intra frame periodically appearing in the stream of the second channel; And upon receiving a command to switch to the second channel, displaying the intra frame to be decoded and updated.

The channel list may include a plurality of channels sequentially arranged in a predetermined order, and the request for transmitting the stream of the at least one selected second channel to the router may be performed by the first channel. Receiving a command to switch channels; And sequentially switching and displaying an image of the channel according to the command on the channel list according to the category.

The at least one second channel may be a preset number of channels adjacent to the first channel on the channel list with respect to the first channel.

The performing of the request for transmitting the stream of the at least one selected second channel to the router may include determining the number of the second channels based on system performance of the image processing apparatus. .

The generating of the channel list classified according to the preset category may include: receiving a full channel list of all channels from the server; And classifying the category of each channel in the entire channel list to generate a channel list according to the category.

The generating of the channel list according to the category may include generating the channel list according to the category based on the entire channel list when the version number of the entire channel list is new.

The video stream and the entire channel list may be transmitted from the server to the video processing apparatus in a multicast manner.

In addition, the image processing apparatus according to an embodiment of the present invention, the communication unit connected to the router to be able to communicate via a router and a server for supplying a stream of video for each channel; Performing a transmission request of the stream of the first channel to the router to receive the stream of the first channel from the server, and displaying an image based on the stream of the first channel received according to the transmission request on a display unit. And an image processor, wherein the image processor comprises at least one second channel different from the first channel on a channel list classified according to a preset category including the first channel of an image displayed on the display unit. And the request for transmission of the selected at least one stream of the second channel to the router.

Here, the communication unit receives the stream of the second channel from the router according to the request for transmission of the stream of the second channel, and the image processing unit displays an image based on the stream of the first channel on the display unit. The video based on the stream of the second channel may not be displayed.

Here, the image processor decodes and updates an intra frame periodically appearing in the stream of the second channel, and displays the intra frame to be decoded and updated when receiving a command for switching to the second channel from a user input unit. can do.

In addition, the channel list may be arranged in order according to a predetermined order of the plurality of channels, and when the image processor receives a command for switching the channel from the first channel from a user input unit, the channel according to the category The image of the channel may be sequentially switched on the list and displayed on the display unit.

The at least one second channel may be a preset number of channels adjacent to the first channel on the channel list with respect to the first channel.

The image processor may determine the number of the second channels based on system performance of the image processing apparatus.

The image processor may generate a channel list according to the category by classifying the category of each channel in the full channel list when receiving the full channel list of all channels from the server through the communication unit. have.

The image processor may generate a channel list according to the category based on the full channel list when the version number of the full channel list is new.

The video stream and the entire channel list may be transmitted from the server to the video processing apparatus in a multicast manner.

1 is a block diagram illustrating an image processing apparatus according to an embodiment of the present invention;
FIG. 2 is a conceptual diagram illustrating a method of receiving a multicast video stream from a server through a router by the image processing apparatus of FIG. 1;
3 is an exemplary diagram of an entire channel list of an image stream that a server can provide for the image processing apparatus of FIG. 1;
4 is an exemplary diagram of a channel list according to a news category extracted from the entire channel list of FIG. 3;
FIG. 5 is a conceptual diagram illustrating a method of receiving a multicast video stream from a server through a router for a channel in a specific category of FIG. 1; FIG.
6 is a control flowchart illustrating a method of generating a channel list classified according to a preset category by the image processing apparatus of FIG. 1;
7 and 8 are control flowcharts illustrating a method of displaying an image corresponding to an image stream of a predetermined channel through the router by the image processing apparatus of FIG. 1.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the following embodiments, only configurations directly related to the concept of the present invention will be described, and description of other configurations will be omitted. However, it is to be understood that, in the implementation of the apparatus or system to which the spirit of the present invention is applied, it is not meant that the configuration omitted from the description is unnecessary.

1 is a block diagram of a configuration of an image processing apparatus 100 according to an embodiment of the present invention.

As shown in FIG. 1, the image processing apparatus 100 according to the present exemplary embodiment displays an image based on image data or an image stream received from the server 10, and the image processing apparatus 100 may be connected to the server 10. Transmit and receive unrestricted signals / data / streams / information.

The image processing apparatus 100 according to the present embodiment will be described in the case of being implemented as a TV that displays an image by itself, but also implemented in the form of a portable multimedia player, a mobile phone, or the like. It is possible that the spirit of the present invention is not limited to the embodiment. In addition, the image processing apparatus 100 may be implemented as a device that processes and outputs an image stream to a corresponding device so that the image stream is displayed as an image from another device, for example, as a set-top box. Can be implemented.

The image processing apparatus 100 is connected to a network based on a preset protocol through the router 20, and is connected to the server 10 through the corresponding network. At this time, one or more routers (not shown) are connected between the router 20 and the server 10 so as to enable communication between the server 10 and the router 20.

The router 20 is a relay device that forms a communication path between a client such as the image processing apparatus 100 and the server 10. For example, when the router 20 receives a unicast signal from the server 10, the router 20 transmits the signal to a client having an address included in the signal. Alternatively, when the router 20 receives a multicast signal from the server 10, the router 20 duplicates the signal according to a request from each client and transmits the signal to the corresponding client. Such a signal transmission request of the client is called a join, and a detailed description thereof will be described later.

The server 10 includes images of various contents, and streams a predetermined image in packet units according to a request from the outside or according to a predetermined schedule. At this time, the server 10 generates an image stream by encoding the image based on a predetermined format such as Mpeg-2 or H.264.

Here, if the streaming transmission method of the server 10 is a unicast method, when the number of clients such as the image processing apparatus 100 of this embodiment increases, the system burden of the server 10 itself becomes excessive. Therefore, in the present embodiment, the server 10 streams the generated video stream to the router 20 in a multicast manner.

Hereinafter, each configuration included in the image processing apparatus 100 will be described.

The image processing apparatus 100 may communicate with the communication unit 110 connected to the router 20 to communicate with the server 10 through the router 20, and the image stream received from the server 10 through the communication unit 110. The image processing unit 120 for processing according to various image processing processes, the display unit 130 for displaying an image based on the image stream processed by the image processing unit 120, and the preset command / information by the user's operation The user input unit 140 is input, and a storage unit 150 which is accessed by the image processing unit 120 and stores unlimited signals / data / information.

The communication unit 110 is connected to an external network according to a preset wired / wireless protocol. When the communication unit 110 receives an image stream from the server 10, the communication unit 110 transmits the image stream to the image processing unit 120 so that an image based on the image stream is displayed on the display unit 130.

The communication unit 110 is primarily connected to the router 20 to perform bidirectional communication with the network through the router 20. For example, a signal transmitted from the server 10 connected on the network is received by the communication unit 110 via the router 20, and a signal transmitted from the communication unit 110 is transmitted to the server via the router 20. 10 may be transmitted.

The image processor 120 performs various preset image processing processes on the image stream received from the communication unit 110. The image processor 120 outputs an image stream that performs this process to the display 130, thereby displaying an image based on the image stream on the display 130.

The type of process performed by the image processor 120 is not limited. For example, the decoding and interlace video signals corresponding to the video format of the video stream may be converted into a progressive method. De-interlacing, scaling to adjust the video signal to a preset resolution, noise reduction to improve picture quality, detail enhancement, frame refresh rate conversion, etc. It may include.

The image processing unit 120 may be implemented as an image processing board (not shown) by mounting a system-on-chip (SOC) that integrates various functions or individual components capable of independently performing each process on a printed circuit board do.

The display 130 displays an image of an image stream output from the image processor 120. The display unit 130 may be implemented in various forms including, but not limited to, a liquid crystal, a plasma, a light-emitting diode, an organic light-emitting diode, electron conduction electron-emitter, carbon nano-tube, nano-crystal, and the like.

The display unit 130 may further include an additional configuration depending on the implementation method. For example, when the display unit 130 is a liquid crystal type, the display unit 130 includes a liquid crystal display panel (not shown), a backlight unit (not shown) for supplying light thereto, and a panel (Not shown).

The user input unit 140 transmits various preset control commands or unlimited information to the image processor 120 according to a user's manipulation and input. The user input unit 140 may be implemented as a menu key and an input panel installed outside the image processing apparatus 100 or a remote controller separated from the image processing apparatus 100. . Alternatively, the user input unit 140 may be integrated with the display unit 130. That is, when the display unit 130 is a touch screen, the user may transmit a preset command to the image processor 120 through an input menu (not shown) displayed on the display unit 130.

The storage 150 stores data that is not limited according to the control of the image processor 120. The storage unit 150 is implemented as a nonvolatile memory such as a flash-memory or a hard-disc drive. The storage unit 150 is accessed by the image processing unit 120 and read / record / modify / delete / update data by the image processing unit 120.

Under this structure, the image processor 120 displays an image stream received from the server 10 through the communication unit 110 as an image. Here, the server 10 streams and transmits the video stream according to the multicast method. Referring to FIG. 2, the image processing apparatus 100 receives the multicast video stream through the router 20. Will be explained.

2 is a conceptual diagram illustrating a method in which the image processing apparatuses 101 and 102 receive a multicast video stream from the server 10 through the router 20.

As shown in FIG. 2, the first image processing apparatus 101 and the second image processing apparatus 102 are connected to the router 20, and the router 20 is connected to the server 10. That is, the first image processing apparatus 101 and the second image processing apparatus 102 may communicate with the server 10 through the router 20.

In order for the first image processing apparatus 101 to receive a multicast video stream corresponding to a predetermined first channel from the server 10, the first image processing apparatus 101 may transmit an image of the first channel to the router 20. Request to transmit the stream (210). In this way, a client such as the first image processing apparatus 101 or the second image processing apparatus requests the router 20 to transmit a stream for a specific channel. For convenience, it requests a join for the corresponding channel. Refer.

When the first image processing apparatus 101 requests a join for the first channel, the router 20 stores the request content itself.

Thereafter, the server 10 transmits the video stream of the first channel to the router 20 (220). The router 20 performs packet duplicate on the video stream from the server 10. In operation 230, the router 20 transmits the packet copied image stream to the client on which the join is performed, that is, the first image processing apparatus 101. The first image processing apparatus 101 processes a video stream of the first channel received from the router 20 to be displayed as an image.

Here, since the second image processing apparatus 102 does not request the router 20 to join the first channel, at this point, the router 20 transmits the packet copied image stream to the second image processing apparatus 102. Do not send to).

Meanwhile, as described above, in the state where the first image processing apparatus 101 joins the router 20 with respect to the first channel, the first image processing apparatus 101 may release the join state for the first channel. The router 20 may request 240. The request to release the join state for the first channel is referred to as a leave request for convenience.

At this point, the second image processing apparatus 102 may request to join the router 20 for the first channel (250).

The router 20 receives a rib request from the first image processing apparatus 101 and a join request from the second image processing apparatus 102 for the first channel. Router 20 stores this request.

In this state, the server 10 transmits the video stream of the first channel to the router 20 (260). The router 20 receives the video stream from the server 10 and performs packet copying. The router 20 transmits the image stream to the second image processing apparatus 102 without transmitting the image stream to the first image processing apparatus 101 according to the stored contents of the request as described above (270).

In order for the image processing apparatuses 101 and 102 to display an image of a corresponding channel in a state where a predetermined channel is designated, communication with the router 20 according to the join request of the corresponding channel is received from the router 20 after joining. It takes time to analyze and process the video stream. This means that the time required for channel switching increases when the user changes the channel of the image viewed by the image processing apparatuses 101 and 102.

The image processing apparatus 100 according to the present embodiment applies the following configuration in order to reduce the time required for such channel switching.

First, the image processing apparatus 100 according to the present embodiment generates and stores a channel list classified according to a preset category. Detailed description of the category will be described later.

The image processing apparatus 100 performs a request for transmitting the first channel video stream to the router 20 so as to receive the video stream of the predetermined first channel from the server 10, and according to the request for transmission, the router 20 A video based on the first channel video stream received from the video is displayed. Here, the transmission request is a join request as described above.

Then, the image processing apparatus 100 selects a second channel different from the first channel on the channel list according to the category including the first channel of the image currently being displayed, and the second channel image stream for the router 20. Performs the transfer request. The second channel includes at least one channel among channels different from the first channel.

Here, the image processing apparatus 100 receives the image stream of the second channel together with the image stream of the first channel, and while the image based on the image stream of the first channel is displayed, the image processing apparatus 100 receives the image based on the image stream of the second channel. Do not display.

If a channel switch command from the first channel to the second channel is received through the user input unit 140, the image processing apparatus 100 is currently receiving the video stream of the second channel, such as a join request. Channels can be switched with minimal delay in process progress.

In addition, in the case of the user input unit 140 implemented as a remote controller, a direction key is generally provided for channel conversion. When the user presses the direction key to switch the channel, the channel switching is performed within the category of the channel currently being displayed. Can be saved.

Hereinafter, embodiments of the present invention will be described in more detail.

First, the server 10 transmits a channel list of all streamable channels to the image processing apparatus 100. In this embodiment, the server 10 is represented as providing both the transmission of the video stream and the entire channel list, but the server providing the former and the latter may be configured separately.

3 is an exemplary diagram of a full channel list 310 for all channels of an image stream provided by the server 10.

As shown in FIG. 3, the channel number and category of the video stream are shown in the entire channel list 310.

However, the entire channel list 310 provided by the server 10 may include metadata such as an address in the server 10 of the video stream and various additional information of the video stream, in addition to the channel number and category. Such omission is not shown to clearly describe the present embodiment, but does not mean that the above metadata are not included in the entire channel list 310.

The image processor 120 extracts a channel number and category information of each channel number from the entire channel list 310. Here, the category may be variously determined according to the classification method, for example, the category may be classified into news, sports, entertainment, education, etc. according to the contents of the video stream. .

The image processor 120 generates a channel list classified for each category according to the extracted category. For example, the channel list 320 according to the news category is as shown in FIG. 4.

4 is an exemplary diagram of a channel list 320 according to a news category from the entire channel list 310 of FIG. 3.

As shown in FIG. 4, four of CH1, CH3, CH6, and CH11 are included in the news category among CH1 to CH12 of the entire channel list 310 (see FIG. 3). The image processor 120 sequentially generates the channel list 320 according to the news category by arranging CH1, CH3, CH6, and CH11 according to the news category, and stores the channel list 320 according to the news category.

Here, various conditions may be applied to the arrangement order and sorting method of each channel in the channel list 320. As shown in this embodiment, the sorting order may be determined in ascending / descending order of the channel number, or the sorting order may be determined according to the ranking of the preference provided from the server 10.

Meanwhile, the image processor 120 may periodically receive the entire channel list 310 with respect to the server 10. At this time, the entire channel list 310 periodically provided by the server 10 includes a version number.

The image processor 120 checks the version number of the received full channel list 310 and compares it with the version number of the entire channel list 310 previously stored in the storage 150. The image processor 120 does not update the pre-stored full channel list 310 unless the version number of the newly received full channel list 310 is newer than the version number of the pre-stored full channel list 310.

If the version number of the newly received all channel list 310 is new compared to the previously stored version number of the all channel list 310, the image processor 120 updates the all channel list 310 and updates the updated all. As described above, the channel list 320 for each category is generated and updated based on the channel list 310.

Hereinafter, a method of generating a channel list for each category according to the present embodiment and receiving a video stream for a specific channel will be described with reference to FIG. 5. 5 is a conceptual diagram illustrating a method for the image processing apparatus 100 to receive a multicast video stream from the server 10 through the router 20 for a channel in a specific category.

As shown in FIG. 5, the server 10 transmits an entire channel list to the router 20 (410), and the router 20 transmits the entire channel list to the image processing apparatus 100 (420). .

The image processing apparatus 100 generates and stores a channel list for each category based on the entire channel list (430). The above process is as described above with reference to FIGS. 3 and 4.

When receiving a command for selecting an image display of CH3 through the user input unit 140, for example, the image processing apparatus 100 should request the router 20 to join the CH3. At this time, before requesting the join to the router 20, the image processing apparatus 100 confirms that the category of CH3 is news, and reads the channel list 320 (see FIG. 4) of the news category.

The image processing apparatus 100 selects a channel different from CH3 according to a preset condition based on CH3 in the channel list 320 of the news category. Such a channel selection condition may be set in various ways. For example, the image processing apparatus 100 selects a predetermined number of adjacent channels by preceding or following the CH3.

In this embodiment, the adjacent channel is selected in advance or after the CH3 based on the CH3 because the user switches the channel by pressing the cursor key once when the user input unit 140 is a remote controller. That is, since the channel is moved one by one from the currently displayed CH3 according to the channel switching command, the channel most likely to be displayed next to CH3 is adjacent to CH1 or CH1 adjacent to CH3 in the channel list 320 of the news category. CH6. Therefore, the image processing apparatus 100 selects a preceding / following adjacent channel based on CH3.

Meanwhile, the number of channels selected by the image processing apparatus 100 is determined based on the system performance of the image processing apparatus 100 itself. Since the image stream of the channel joined with the router 20 is received by the image processing apparatus 100, the number of the above-described channels is determined within the range in which the image processing apparatus 100 can process the image stream of each channel.

Such system performance may include, for example, the amount of CPU (not shown) of the image processor 120, the remaining capacity of the storage 150, and the performance of a demultiplexer (not shown) or a decoder (not shown) in the image processor 120. The network band of the communication unit 110 may be considered.

In view of these points, according to the present exemplary embodiment, the image processing apparatus 100 selects two channels of the adjacent adjacent CH1 and the trailing adjacent CH6 based on the display target CH3 from the channel list 320 of the news category. The image processing apparatus requests the router 20 to join the selected CH1, CH3, and CH6 (440). Router 20 stores these requests.

The server 10 transmits the video stream for each channel to the router 20 in a multicast manner (450).

The router 20 transmits the image streams of CH1, CH3, and CH6 to the image processing apparatus 100 according to the join contents from the image processing apparatus 100 previously stored (460).

The image processing apparatus 100 displays the video stream of the display target CH3 as an image among the video streams of CH1, CH3, and CH6 received from the router 20 (470).

Here, the image processing apparatus 100 processes the image streams of CH1 and CH6 to be displayed as images, but does not display the image streams of CH1 and CH6 as images while the image of CH3 is displayed. In this way, processing to be displayed as an image, but not displayed as an image, is called pre-fetching.

Pre-fetching means that the image processing process for the video stream of the corresponding channel is performed up to a preset step, for example, a decoding step or a scaling step. That is, when the user changes the currently displayed CH3 to CH6 through the user input unit 140, the processing of the video stream for the CH6 is already performed until the predetermined step of the image processing process, and thus the delay of the display of the video according to the channel switching. Can be minimized.

Various methods may be applied to prefetching a predetermined channel. For example, in the case of the video stream in the Mpeg-2 format, the video stream may be divided into units of GOP (group of pictures) according to time. One GOP includes three types of frames: an intra frame, which is a reference frame for interframe decoding, that is, an I-frame, a P-frame, which is a forward interframe prediction screen, and a B-frame by bidirectional prediction. do.

Other formats can be applied accordingly. In the case of H.264 format, IDR-frame corresponds to I-frame in Mpeg-2 format.

The image processing apparatus 100 decodes and updates an intra frame periodically appearing in each image stream of CH1 and CH6 while the image of CH3 is displayed. Here, upon receiving the command to switch to CH6, the video processing apparatus 100 first displays the intra frame of the latest updated CH6, and then processes and displays the video stream of CH6 normally.

In this way, delay time during channel conversion can be minimized.

In addition, when the user moves the channels one by one by pressing the cursor key (not shown) of the user input unit 140, the number of times the user manipulates the cursor key (not shown) may be reduced.

For example, consider the case of moving from CH3 to CH11 of the same news category. In the case of FIG. 3, the user must press the cursor key (not shown) eight times to move the channels one by one. In the case of FIG. Can be.

As described above, according to the present embodiment, it is possible to reduce the delay time during channel switching and the user's channel switching operation, respectively.

Meanwhile, the image processor 120 may receive a transport stream from the server 10 through an IP address or a URL of a specific channel. The image processor 120 may perform PSI (Program Specific Information) analysis of a corresponding URL when the transport stream of a specific address is first reproduced, and may display the transport stream as an image based on the PSI information as a result of the analysis. PSI collectively refers to the data required for demultiplexing transport streams and playing a program in the Mpeg-2 specification. The image processor 120 stores the PSI analysis information such as the PID (packet ID) of the corresponding transport stream in the storage 150.

Then, when the transport stream is received by the communication unit 110, the image processing unit 120 extracts the address or URL of the received transport stream, and whether the PSI analysis information corresponding to the extraction result is stored in the storage unit 150; Search.

If there is corresponding PSI analysis information, the image processor 120 displays the transport stream as an image based on the PSI analysis information. As a result, the PSI analysis time required for processing the transport stream for displaying an image can be reduced.

On the other hand, if there is no corresponding PSI analysis information, the image processing unit 120 performs PSI analysis and image display on the corresponding transport stream. Then, the newly derived PSI information is updated and stored in the storage unit 150.

Through this process, the image processor 120 may reduce the time required and the system load according to the PSI analysis when processing the transport stream.

Hereinafter, a method of generating a channel list classified according to a preset category by the image processing apparatus 100 according to the present embodiment will be described with reference to FIG. 6. 6 is a control flowchart illustrating this process.

As shown in FIG. 6, the image processing apparatus 100 receives a full channel list from the server 10 (S100). The image processing apparatus 100 determines whether the received full channel list is a new version compared to the previously stored full channel list according to the version number of the received full channel list (S110).

If the received all channel list is new, the image processing apparatus 100 classifies each channel by category in the all channel list (S120). The image processing apparatus 100 sorts the channel numbers classified for each category according to a preset condition (S130).

Accordingly, the image processing apparatus 100 generates and stores a channel list for each category (S140).

Hereinafter, a method of displaying an image corresponding to an image stream of a predetermined channel through the router 20 by the image processing apparatus 100 according to the present embodiment will be described with reference to FIGS. 7 and 8.

As shown in FIG. 7, the image processing apparatus 100 receives a command for displaying a predetermined first channel from a user (S200).

The image processing apparatus 100 selects the channel list of the category including the first channel if the channel selection mode for each category to which the channel list for each category is applied is activated (S210) as described in the above embodiment (S210). S220).

The image processing apparatus 100 selects at least one second channel according to a preset condition from the selected channel list (S230). The image processing apparatus 100 requests the router 20 to join the first channel and the second channel (S240), and receives the video streams of the first and second channels from the router 20 (S25). .

The image processing apparatus 100 displays an image of the first channel and performs prefetching of the second channel (S260).

Meanwhile, as shown in FIG. 8, when it is determined in step S210 of FIG. 7 that the channel selection mode for each category is deactivated, the image processing apparatus 100 selects a channel list of all channels (S300).

The image processing apparatus 100 determines whether a prefetching mode that allows prefetching is activated (S310). If the prefetching mode is activated, the image processing apparatus 100 selects at least one third channel from the entire channel list according to a preset condition (S320).

The image processing apparatus 100 requests the router 20 to join the first channel and the third channel again (S330), and receives the video streams of the first channel and the third channel from the router 20 (S340). . The image processing apparatus 100 displays an image of the first channel and performs prefetching of the third channel (S350).

On the other hand, if it is determined in step S310 that the prefetching mode is deactivated, the image processing apparatus 100 requests only the join for the first channel to the router 20 (S360). The image processing apparatus 100 receives an image stream of the first channel from the router 20 (S370), and displays an image of the first channel (S380).

The above-described embodiments are merely illustrative, and various modifications and equivalents may be made by those skilled in the art. Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the invention described in the following claims.

10: server
20: router
100: image processing apparatus
110:
120:
130: display unit
140: user input section
150:

Claims (18)

In the control method of the image processing apparatus connected to the router to enable communication through a router and a server for supplying a stream of video for each channel,
Generating a channel list classified according to a preset category;
Performing a transmission request of the stream of the first channel to the router to receive a stream of the first channel from the server, and displaying an image based on the stream of the first channel received according to the transmission request;
Selecting at least one second channel different from the first channel on the channel list according to the category in which the first channel of the image being displayed is included, and the stream of the at least one second channel selected for the router And performing a transmission request of the image processing apparatus. The method of claim 1,
Performing a request for transmission of the selected at least one stream of the second channel to the router,
Receiving the stream of the second channel from the router;
And not displaying the image based on the stream of the second channel while the image based on the stream of the first channel is displayed. The method of claim 2,
The step of not displaying an image based on the stream of the second channel may include:
Decoding and updating an intra frame periodically appearing in the stream of the second channel;
And displaying the intra frame to be decoded and updated upon receiving a command to switch to the second channel. The method of claim 1,
The channel list is arranged in sequence according to a predetermined order of the plurality of channels,
Performing a request for transmission of the selected at least one stream of the second channel to the router,
Receiving a command for switching the channel from the first channel;
And sequentially switching and displaying images of the channels on the channel list according to the category according to the command. The method of claim 1,
The at least one second channel is a control method of the image processing apparatus, characterized in that a predetermined number of channels adjacent to the first channel or the next adjacent on the channel list. The method of claim 5,
Performing a request for transmission of the selected at least one stream of the second channel to the router,
And determining the number of the second channels based on the system performance of the image processing apparatus. The method of claim 1,
Generating the channel list classified according to the preset category,
Receiving a full channel list for all channels from the server;
And classifying the category of each channel in the entire channel list to generate a channel list according to the category. The method of claim 7, wherein
Generating the channel list according to the category,
And generating a channel list according to the category based on the full channel list when the version number of the full channel list is new. The method of claim 7, wherein
And the video stream and the entire channel list are transmitted from the server to the video processing apparatus in a multicast manner. An image processing apparatus comprising:
A communication unit connected to the router to enable communication through a server and a router supplying a stream of video for each channel;
Performing a transmission request of the stream of the first channel to the router to receive the stream of the first channel from the server, and displaying an image based on the stream of the first channel received according to the transmission request on a display unit. It includes an image processor,
Wherein the image processing unit comprises:
Selecting at least one second channel different from the first channel on the channel list classified according to a preset category including the first channel of the image displayed on the display unit, and selecting the at least one for the router And performing a request for transmitting the stream of the second channel. The method of claim 10,
The communication unit receives the stream of the second channel from the router according to the request for transmission of the stream of the second channel,
And the image processing unit does not display an image based on the stream of the second channel while the image based on the stream of the first channel is displayed on the display unit. The method of claim 11,
The image processor is configured to decode and update an intra frame periodically appearing in the stream of the second channel, and to display the intra frame to be decoded and updated when a command for switching to the second channel is received from a user input unit. An image processing apparatus characterized by the above. The method of claim 10,
The channel list is arranged in sequence according to a predetermined order of the plurality of channels,
When the image processing unit receives a command for switching the channel from the first channel from a user input unit, the image processing unit sequentially converts the image of the channel according to the command and displays the image on the display unit in the channel list according to the category. Image processing apparatus, characterized in that. The method of claim 10,
And the at least one second channel is a predetermined number of channels adjacent to the first channel on the channel list in advance or after the first channel. 15. The method of claim 14,
And the image processing unit determines the number of the second channels based on system performance of the image processing apparatus. The method of claim 10,
The image processing unit generates a channel list according to the category by classifying the category of each channel in the entire channel list when receiving the entire channel list for all channels from the server through the communication unit. Image processing apparatus. 17. The method of claim 16,
And the image processor generates a channel list according to the category based on the full channel list when the version number of the full channel list is new. 17. The method of claim 16,
And the video stream and the entire channel list are transmitted from the server to the video processing apparatus in a multicast manner.

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