KR100561458B1 - Remote controlling apparatus using different compression according to transmission speed and method thereof - Google Patents

Abstract

The present invention discloses a remote control apparatus and a method of varying the compression method according to the transmission speed. A remote control apparatus according to the present invention for transmitting a screen image to a remote terminal includes a compressor selection unit for determining whether to compress the screen image according to a current transmission speed with respect to a preset transmission medium, and selecting a compressor. And a compression unit for compressing the screen image without compression, or compressing the screen image to a lossless compressor or a lossy compressor, and to transmitting the compressed or uncompressed image through the transmission medium. It is provided with a transmission unit.

Description

Remote controlling apparatus using different compression according to transmission speed and method

1 is a block diagram showing a transmission side configuration of a conventional remote control apparatus.

2 is a block diagram showing a transmission side configuration of a remote control apparatus according to the present invention.

3 is a detailed block diagram according to a preferred embodiment of the compressor selector shown in FIG.

4 is a detailed block diagram of a preferred embodiment of the data transmission unit shown in FIG. 2.

5 is a flowchart for explaining a remote control method according to the present invention.

FIG. 6 is a detailed flowchart of a preferred embodiment of the compression determination and compression method selection step shown in FIG. 5.

The present invention relates to a remote control of a computer, and more particularly, to a remote control device and a method for varying the compression method according to the transmission speed.

The remote control device performs a desired operation by accessing and controlling a remote computer, that is, a remote terminal, through a telephone line or an Internet dedicated line. Such a device essentially uses an efficient remote screen information transmission method.

1 is a block diagram showing a transmission side configuration of a conventional remote control apparatus, and is largely comprised of an image compressor 100 and a data transmitter 102. Referring to FIG. 1, the image compressor 100 compresses a screen image as screen information on a remote computer to be controlled. The data transmitter 102 transmits the compressed image to the remote terminal through a transmission medium such as a telephone line or an Internet dedicated line in the form of a data stream.

Conventional remote control device compresses the screen image to be transmitted to the remote terminal using a single compressor (100). When the compressed image is transmitted to the data transmitter 102, the data transmitter 102 simply transmits the data in accordance with a predetermined transmission medium. That is, it compresses and transmits without considering the current transmission speed of the transmission medium.

Since the conventional remote control apparatus uses a uniform compression method that does not consider the current transmission speed of the transmission medium at all, it sometimes takes a long time to transmit the screen image to the remote terminal. For example, if the current transmission speed of the transmission medium is high, the screen image for the remote terminal does not need to be compressed because it can be transmitted in a very short time. Rather, it takes time to compress and decompress. On the other hand, when the current transmission speed of the transmission medium is slow, the screen image may be transmitted over a long time, so it is necessary to compress it using a compressor having a very high compression rate. Therefore, there is a need for a compression method that considers the current transmission speed to satisfy all of these cases.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a remote control apparatus that minimizes transmission time by compressing and transmitting remote screen information using various image compressors according to current transmission speeds.

Another object of the present invention is to provide a remote control method performed by the apparatus.

In order to achieve the above object, the remote control device according to the present invention for transmitting the screen image to the remote terminal,

Compressor screen unit to determine whether to compress the screen image according to the current transmission speed for the preset transmission medium, and comprises a compressor selection unit for selecting a compressor, a plurality of compressors, and compresses the screen image according to the compression determination and the compressor selection result And a data transmission unit for transmitting the compressed or uncompressed image through the transmission medium.

In order to achieve the above another object, the remote control method according to the present invention for transmitting a screen image to a remote terminal,

(a) determining whether to compress the screen image according to the current transmission speed, and selecting a lossless compression method or a lossy compression method, (b) not compressing the screen image according to the result of the determination of the compression method and the compression method selection result. Or compressing the screen image by the selected compression method, (c) transmitting the compressed or uncompressed image through a predetermined transmission medium, and (d) the time taken to transmit the corresponding image in step (c). And calculating the current transmission rate to be used next in step (a) from the image size.

Hereinafter, a remote control apparatus and a method thereof according to the present invention will be described with reference to the accompanying drawings.

2 is a block diagram showing a transmission side configuration of the remote control apparatus according to the present invention, and includes a compressor selection unit 200, a compression unit 210, and a data transmission unit 220. The compression unit 210 is largely composed of the uncompressed transmitter 212, the lossless compressor 214, the loss compressor 216, and the like.

The compressor selecting unit 200 inputs a screen image to be transmitted to the remote terminal to be controlled, determines whether to compress the screen image according to a current transmission speed for a preset transmission medium, and selects a compressor suitable for compression.

The compressor 210 inputs a screen image through the compressor selector 200, and operates in response to a control signal generated by the compressor selector 200 according to the determination of whether or not the compressor is compressed and the compressor selection result. That is, one of the uncompressed transmitter 212, the lossless compressor 214, and the lossy compressor 216 inputs a screen image in response to a control signal. The uncompressed transmitter 212 transmits the screen image as it is without compression. The lossless compressor 214 compresses the screen image without any loss. Meanwhile, the loss compressor 216 loses and compresses the screen image to some extent. For reference, there is a huge amount of information in the image, and even if some of the information disappears, the user cannot easily distinguish the difference by eye. Therefore, when compressing an image, a lossy compression method can be used.

The data transmitter 220 transmits the compressed video using the lossless compressor 214 or the lossy compressor 216 or the uncompressed video through the uncompressed transmitter 212 through a transmission medium such as a telephone line or an Internet dedicated line. Send to the remote terminal you want. Meanwhile, the data transmitter 220 calculates a current transmission speed for the transmission medium and outputs the current transmission speed to the compressor selector 200.

3 is a detailed block diagram according to a preferred embodiment of the compressor selection unit 200 shown in FIG. 2, including a transmission rate storage 202, a compression and transmission related time calculator 204, a compressor selection determiner 206, and Compressor selector 208.

Referring to FIG. 3, the transmission rate storage 202 stores a current transmission rate provided by a transmission medium output from the data transmission unit 220. The compression and transmission related time calculator 204 calculates the time information necessary for compressor determination and selection with the transmission speed stored in the transmission speed storage 202. The time information is at least the original video transmission time, the compressed video transmission time, and the compression / decompression time for the screen image. The compressor used as the basis for calculating the compressed image transmission time and the compression / decompression time is a lossless compressor. In other words, the use of a lossless compressor is an important criterion for determining and selecting a compressor.

The compressor selection determiner 206 determines whether the screen image is compressed based on the calculated time information, and determines whether the lossless compressor 214 or the lossy compressor 216 is selected.

When the compressor selector 208 determines whether the screen image is compressed by the compressor selection determiner 206, if it is not necessary to compress the screen image, the compressor selector 208 selects the uncompressed transmitter 212 and inputs the screen to the compressor selector 200. Send the video. On the other hand, if it is necessary to compress the screen image, the screen inputted to the compressor selector 200 by selecting the lossless compressor 214 or the lossy compressor 216 according to the compressor selection information generated by the compressor selection determiner 206. Turn over the video.

4 is a detailed block diagram of a preferred embodiment of the data transmitter 220 shown in FIG. 2 and includes a video data stream transmitter 222 and a transfer rate calculator 224.

Referring to FIG. 4, the image data stream transmitter 222 transmits the compressed or uncompressed image by the compression unit 210 through a transmission medium in the form of a data stream. In addition, the transmission time calculator 224 transmits the time taken to transmit the video and the size of the video.

The transmission rate calculator 224 calculates a transmission rate from the transmission time and the image size of the corresponding image, calculates a current transmission rate based on the calculated result, and outputs the current transmission rate to the compressor selector 200.

5 is a flowchart for explaining a remote control method according to the present invention.

First, a screen image to be transmitted to a remote terminal is input (operation 500). Next, it is determined whether there is a transmission speed set to the set current transmission speed or initial value (step 510). If there is a set transmission rate, it is determined whether the screen image is compressed according to the transmission rate, and a lossless compression method or a lossy compression method is selected (step 520).

Next, according to the determination of whether or not to compress and the result of the compression method selection, the screen image is not compressed unless it is necessary to compress. On the other hand, if it is necessary to compress, the screen image is compressed using the selected compression method (S530). In operation 540, the compressed or uncompressed image is transmitted to the remote terminal through a predetermined transmission medium.

Next, the transmission speed is calculated by determining the time taken to transmit the video and the video size (step 550). From the calculated transmission rate, the current transmission rate to be used the next time the screen image is transmitted to the remote terminal is calculated, and the process proceeds to step 500 (step 560).

FIG. 6 is a detailed flowchart of a preferred embodiment of the compression determination and compression method selection step (step 520) shown in FIG.

First, at least the original image transmission time, the compressed image transmission time, and the compression / decompression time for the screen image are calculated as time information required for the compression method selection using the current transmission speed (operation 521).

In operation 522, it is determined whether the original video transmission time is equal to or less than the sum of the compressed video transmission time and the compression / decompression time. This determination is to check whether the transmission speed of the transmission medium is fast and does not need to be compressed. In other words, when the original video transmission time is less than or equal to the sum of the compressed video transmission time and the compression / decompression time, it means that the speed provided by the transmission medium is fast enough. If it is determined that the sum is less than or equal to step 522, the screen image is transmitted as it is without compression (step 524).

If it is determined in step 522 that the sum is greater than the sum, it is again determined whether the sum of the compressed image transmission time and the compression / decompression time is equal to or less than a predetermined maximum allowable time (step 523). This determination is to check whether to use a lossless compression method that does not damage the screen image. Here, the maximum allowable time is a time that can wait as long as possible to receive the screen image from the remote terminal when compressing and transmitting the screen image. Leave the maximum allowed time because you can't wait for the user. If the sum of the compressed video transmission time and the compression / decompression time is less than the maximum allowable time, select a lossless compression method so that the user can see a clear screen.

If it is determined in step 523 that it is less than or equal to the predetermined maximum allowable time, a lossless compression method is selected (step 525). Accordingly, the user can see the clean screen. On the other hand, if it is determined that it is larger than the predetermined maximum allowable time, that is, if the screen image is too large for the current transmission speed, the lossy compression method is selected (step 526). The lossy compression method is slightly broken in the original screen image, but the compression ratio is better than the lossless compression method.

As described above, the remote control apparatus and the method according to the present invention continuously checks the transmission speed provided by the transmission medium in a network having various full speeds and in an environment in which the transmission speeds are continuously changing, and thus, the current transmission speed. Compress and transmit remote screen information using the most ideal compressor based on C, which has the advantage of minimizing the transmission time.

Claims (5)

In the remote control device for transmitting the screen image to the remote terminal, A compressor selector configured to determine whether to compress the screen image according to a current transmission speed of a preset transmission medium and to select a compressor; Compressor comprising a plurality of compressors, the compression unit does not compress the screen image, lossless compression or lossy compression by a lossless compressor or a lossy compressor according to the determination of the compression and the compressor selection result; And And a data transmission unit configured to transmit an image compressed or uncompressed by the compression unit through the transmission medium. The method of claim 1, wherein the compressor selector, A compression and transmission related time calculator for calculating an original image transmission time, a compressed image transmission time, and a compression / decompression time for the screen image using the current transmission speed; A compressor selection determiner that determines whether the screen image is compressed and whether the lossless compressor or the lossy compressor is selected based on the calculated time relationships; And And a compressor selector for not compressing the screen image or selecting the lossless compressor or the lossy compressor according to a determination result. The method of claim 1, wherein the data transmission unit, An image data stream transmitter for transmitting the compressed or uncompressed image through the transmission medium in the form of a data stream and finding a transmission time and image size for transmitting the image; And And a transmission speed calculator for calculating the current transmission speed from the transmission time and the image size and outputting the current transmission speed to the compressor selecting unit. In the remote control method for transmitting the screen image to the remote terminal, determining whether the screen image is compressed according to a current transmission speed, and selecting a lossless compression method or a lossy compression method; (b) not compressing the screen image or compressing the screen image by a selected compression method according to the determination of the compression and the selection method of the compression method; (c) transmitting the compressed or uncompressed image through a preset transmission medium; And (d) calculating a current transmission rate to be used next in step (a) from the time taken to transmit the corresponding image in step (c) and the image size. . The method of claim 4, wherein step (a) comprises: (a1) calculating an original video transmission time, a compressed video transmission time, and a compression / decompression time for the screen image by using the current transmission speed; (a2) determining whether the original video transmission time is equal to or less than the sum of the compressed video transmission time and the compression / decompression time; (a3) if it is determined to be equal to or less than the sum, transmitting the screen image as it is; otherwise determining again whether the sum of the compressed image transmission time and the compression / decompression time is equal to or less than a predetermined maximum allowable time; And (a4) selecting the lossless compression method if it is determined to be less than or equal to a predetermined maximum allowable time, and otherwise selecting the lossy compression method.

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