KR20160122529A - System for cloud streaming service, method of image cloud streaming service using reduction of encoding area and apparatus for the same - Google Patents

Abstract

Disclosed are a cloud streaming service system, an image cloud streaming service method using reduction of an encoding area, an apparatus for the same. A cloud streaming server can receive a first encoding target image and an address corresponding to the first encoding target image based on an application execution screen, search for a cache image corresponding to the first encoding target image with the address from a conversion cache table, generate a second encoding target image which is a part of the first encoding target image, by comparing the cache image and the first encoding target image, and transmitting an image generated by still image encoding of the cache image and the second encoding target image to a users terminal. When an image cloud streaming service is provided, it is possible to save resources and increase a concurrent access rate by reducing an area on which still image encoding is to be performed.

Description

Technical Field [0001] The present invention relates to a cloud streaming service system, a cloud streaming service system, an image cloud streaming service method using the reduction of an encoding region, and a device for the same.

The present invention relates to a cloud streaming service system capable of saving a server resource required for still image encoding by reducing an area for performing still image encoding by utilizing a cache for storing a still image encoded image in an image-based cloud streaming service, , An image cloud streaming service method using reduction of an encoding region, and an apparatus therefor.

The rapid development of the Internet has resulted in a rapid increase in the communication speed of an individual. The improvement in the communication speed can be achieved by downloading or uploading a large amount of data by accessing a computer located at a remote place, or by using a remote computer control program, As well as providing an environment in which a remote computer can be used.

In addition, as a variety of applications have been developed for mobile communication terminals such as smart phones, many virtualization technologies have been proposed for driving applications requiring high performance in relatively low performance user terminals.

Among them, the application is driven on the server, the driving screen is compressed through video encoding and transmitted to the client, and the client reproduces the transmitted video to generate a screen virtualization Cloud streaming service is becoming popular.

The cloud streaming service basically adopts the cloud streaming method based on the video codec. However, even when a static screen such as a menu display is serviced, the entire screen is unnecessarily captured and operated using a video codec, which makes the overall system ineffective.

Accordingly, an image-based cloud streaming service technology for capturing only static image of a screen and providing service, but still image encoding is performed by reducing an area to be encoded through utilization of a cache for storing still image encoded image It is urgent.

Korean Patent Publication No. 2004-0055193, published on June 26, 2004 (name: 4-dimensional data compression and decompression apparatus and method)

It is an object of the present invention to reduce the resources of a cloud streaming server by reducing the area to be still image encoded in an image-based cloud streaming service.

It is also an object of the present invention to provide a service of cloud streaming more quickly by using a cache for storing still image encoded images.

It is another object of the present invention to provide a high-performance application execution screen even in a low-end terminal by processing only the changed image on the application execution screen and providing it to the user terminal.

According to an aspect of the present invention, there is provided a cloud streaming server including: a receiving unit for receiving an address corresponding to a first encoding target image and a first encoding target image based on an application execution screen; A conversion cache table for storing at least one application execution screen image by still image encoding based on the application; A retrieving unit for retrieving a cached image corresponding to the first image to be encoded in the conversion cache table using the address; An encoding region reduction unit for generating a second encoding target image that is a part of the first encoding target image by comparing the cached image and the first encoding target image; And a transmitter for transmitting the still image encoded image of the cached image and the second encoding target image to the user terminal.

In this case, the conversion cache table may include at least one of a source of the at least one application execution screen image, at least one caching image obtained by still image encoding the at least one application execution screen image, and a user area At least one table item matching and storing at least one of the ratios occupied by the common area may be included.

At this time, the searching unit searches the reference table item corresponding to the address of the table address among the at least one table item using the table address for connecting to the at least one table item, A caching image can be obtained.

At this time, the encoding region reduction unit obtains the original matched with the cached image in the reference table item, compares the original and the pixels of the first encoding target image, and generates an unequal region as the second encoding target image can do.

At this time, the transmission unit may transmit only the cached image to the terminal when the ratio of the common area occupies 100 percent, and the second image to be encoded is not generated.

At this time, the transmitting unit may transmit the location information of the still image-encoded image of the second encoding target image together with the cached image to the terminal.

At this time, when the table address of the at least one table item does not exist corresponding to the address, the cloud streaming server encodes still image of the first encoding target image and transmits it to the terminal part; And an additional cache unit for storing the still image encoded first image to be encoded in the conversion cache table using the address.

At this time, the additional caching unit stores the still image encoded first image to be encoded in the conversion cache table when the ratio of the common area corresponding to the still image encoded first image to be encoded is less than a preset reference ratio I can not.

According to another aspect of the present invention, there is provided an image cloud streaming service method using reduction of an encoding region, comprising: receiving an address corresponding to a first encoding object image and a first encoding object image based on an application execution screen; Retrieving a cached image corresponding to the first encoding target image using the address in a conversion cache table for storing still image encoding of at least one application execution screen image based on the application; Comparing the cached image with the first image to be encoded to generate a second image to be encoded which is a part of the first image to be encoded; And transmitting the cached image and the image encoding the second image to be encoded.

In this case, the conversion cache table may include at least one of a source of the at least one application execution screen image, at least one caching image obtained by still image encoding the at least one application execution screen image, and a user area At least one table item matching and storing at least one of the ratios occupied by the common area may be included.

In this case, the searching step may use a table address for connecting to the at least one table item to search a reference table item corresponding to the address of the table address among the at least one table item, To obtain the cached image.

In this case, the step of generating the second image to be encoded may include acquiring the original matched with the cached image in the reference table item, comparing the original and the pixels of the first image to be encoded, 2 encoding target image.

In this case, in the transmitting step, if the ratio of the common area occupies 100 percent and the second image to be encoded is not generated, only the cached image can be transmitted to the terminal.

At this time, the transmitting step may transmit the cached image and the position information of the still image-encoded image of the second encoding target image to the terminal.

At this time, when the reference table item corresponding to the address of the table address does not exist among the at least one table item, the image cloud streaming service method still image encodes the first image to be encoded and transmits the still image to the terminal ; And storing the still image encoded first image to be encoded in the conversion cache table using the address.

In this case, the storing step may include storing the still image encoded first image to be encoded in the conversion cache table when the ratio of the common area corresponding to the still image encoded first image to be encoded is less than a preset reference ratio It may not be stored.

According to the present invention, resources of a cloud streaming server can be saved by reducing an area to be still image encoded in an image-based cloud streaming service.

Further, the present invention can provide a service of cloud streaming more quickly by using a cache that stores still image encoded images.

In addition, according to the present invention, only the changed image is processed on the application execution screen and provided to the user terminal, thereby providing a high-performance application execution screen even in low-end terminals.

1 is a block diagram illustrating a cloud streaming service system according to an embodiment of the present invention.
2 is a block diagram illustrating an example of the cloud streaming server shown in FIG.
3 is a diagram illustrating a conversion cache table according to an embodiment of the present invention.
4 is a diagram illustrating a process of reducing an encoding region according to an embodiment of the present invention.
5A and 5B illustrate a process of transmitting an image to a terminal according to an embodiment of the present invention.
6 is a flowchart illustrating an image cloud streaming service method using reduction of an encoding region according to an embodiment of the present invention.
7 is a detailed flowchart illustrating an image cloud streaming service method using reduction of an encoding region according to an exemplary embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the accompanying drawings, detailed description of well-known functions or constructions that may obscure the subject matter of the present invention will be omitted. It should be noted that the same constituent elements are denoted by the same reference numerals as possible throughout the drawings. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

The terms and words used in the present specification and claims should not be construed to be limited to ordinary or dictionary meanings and the inventor is not limited to the concept of terminology for describing his or her invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible. Also, the terms first, second, etc. are used for describing various components and are used only for the purpose of distinguishing one component from another component, and are not used to define the components.

1 is a block diagram illustrating a cloud streaming service system according to an embodiment of the present invention.

Referring to FIG. 1, a cloud streaming service system according to an embodiment of the present invention includes a cloud streaming server 110, terminals 120-1 to 120-N, and a network 130. FIG.

The cloud streaming server 110 receives the first encoding target image and the address corresponding to the first encoding target image based on the application execution screen.

In addition, the cloud streaming server 110 may still image-encode and store at least one application execution screen image based on the application.

At this time, at least one caching image obtained by still image encoding of at least one application execution screen image, at least one application execution screen image, and at least one of a ratio occupied by a common area excluding a user area representing individual information for each user from an original And at least one table entry for matching and storing one.

In addition, the cloud streaming server 110 uses the address to retrieve a cached image corresponding to the first image to be encoded in the conversion cache table.

In this case, a table address of at least one table entry corresponding to an address may be searched for using a table address for connection to at least one table item, and a caching image may be obtained from the reference table item.

In addition, the cloud streaming server 110 compares the cached image with the first image to be encoded to generate a second image to be encoded, which is a part of the first image to be encoded.

At this time, an original matched with the cached image may be obtained from the reference table item, and the original and the pixels of the first encoding target image may be compared to generate a second encoding target image.

In addition, the cloud streaming server 110 transmits the still image-encoded image of the cached image and the second encoding target image to the user terminals 120-1 to 120-N.

At this time, when the second region to be encoded is not generated with the ratio occupied by the common region being 100 percent, only the caching image can be transmitted to the terminals 120-1 to 120-N.

At this time, the location information of the still image-encoded image of the second encoding target image together with the cached image may be transmitted to the terminals 120-1 to 120-N.

In addition, when there is no reference table item corresponding to the address of the table among at least one table entry, the cloud streaming server 110 still image-encodes the first encoding target image and transmits the still image to the terminals 120-1 to 120- N).

In addition, the cloud streaming server 110 may store the still image encoded first image to be encoded in the conversion cache table using the address.

At this time, the still image encoded second image to be encoded may not be stored in the conversion cache table when the ratio of the common area corresponding to the still image encoded first image to be encoded is less than the preset reference ratio.

The terminals 120-1 to 120-N receive an application execution screen corresponding to the cloud streaming service from the cloud streaming server 110 and provide them to the user.

The terminals 120-1 to 120-N are connected to a communication network and are capable of executing applications on the basis of a cloud computing system. The terminals 120-1 to 120-N are not limited to the mobile communication terminal but may be any information communication device, multimedia terminal, A fixed terminal and an IP (Internet Protocol) terminal. Each of the terminals 120-1 to 120-N may be a mobile phone, a portable multimedia player (PMP), a mobile Internet device (MID), a smart phone, a desktop, a tablet PC, A mobile terminal having various mobile communication specifications such as a notebook computer, a notebook computer, a netbook, a personal digital assistant (PDA), a smart TV, and an information communication device.

The terminals 120-1 to 120-N receive various kinds of information such as numeric and character information, set various functions, and input signals related to the function control of the terminals 120-1 to 120-N And can be transmitted to the control unit through the input unit. The input unit of the terminals 120-1 to 120-N may include at least one of a keypad and a touchpad for generating an input signal according to a user's touch or operation. At this time, the input units of the terminals 120-1 to 120-N are configured in the form of one touch panel (or touch screen) together with the display units of the terminals 120-1 to 120-N, Display function can be performed at the same time. The input unit of the terminals 120-1 to 120-N may be any type of input unit that can be developed in addition to an input unit such as a keyboard, a keypad, a mouse, a joystick, and the like. In particular, the input units of the terminals 120-1 to 120-N according to the present invention can transmit input signals for uploading or downloading contents based on cloud computing to the control units of the terminals 120-1 to 120-N.

In addition, the display unit of the terminals 120-1 to 120-N can display information on a series of operation states, operation results, and the like that occur during the performance of the functions of the terminals 120-1 to 120-N. In addition, the display units of the terminals 120-1 to 120-N can display menus of the terminals 120-1 to 120-N and user data input by the user. The display units of the terminals 120-1 to 120-N may be a liquid crystal display (LCD), a thin film transistor LCD (TFT-LCD), a light emitting diode (LED) An organic light emitting diode (OLED), an organic light emitting diode (AMOLED), an active matrix OLED, a retina display, a flexible display, and a three-dimensional display have. At this time, when the display units of the terminals 120-1 to 120-N are configured as touch screens, the display units of the terminals 120-1 to 120-N function as the input units of the terminals 120-1 to 120- Some or all of them. In particular, the display unit of the terminals 120-1 to 120-N according to the present invention can display information related to execution of content provided on a cloud computing basis on a screen.

The storage units of the terminals 120-1 to 120-N are devices for storing data, and include a main storage device and an auxiliary storage device, and are used for applications required for functional operations of the terminals 120-1 to 120- You can save the program. The storage units of these terminals 120-1 to 120-N may largely include a program area and a data area. Here, when the terminals 120-1 to 120-N activate the respective functions in response to a request from the user, the terminals 120-1 to 120-N provide the respective functions by executing the corresponding application programs under the control of the controller. In particular, the storage units of the terminals 120-1 to 120-N according to the present invention may store an operating system for booting the terminals 120-1 to 120-N, a program for uploading or downloading contents on the basis of cloud computing have. In addition, the storage units of the terminals 120-1 to 120-N may store information of a content DB storing a plurality of contents and information of the terminals 120-1 to 120-N. At this time, the content DB includes execution data for executing the content and attribute information about the content, and content usage information according to the execution of the content can be stored. The information of the terminals 120-1 to 120-N may include terminal specification information.

In addition, the communication units of the terminals 120-1 to 120-N may perform a function of transmitting and receiving data through the cloud streaming server 110 and the network 130. [ Here, the communication unit of the terminals 120-1 to 120-N may include RF transmitting means for up-converting and amplifying the frequency of the transmitted signal, RF receiving means for low-noise amplifying the received signal and down-converting the frequency . The communication units of the terminals 120-1 to 120-N may include at least one of a wireless communication module and a wired communication module. In the case where the terminals 120-1 to 120-N use wireless communication, the wireless communication module is a module for transmitting and receiving data according to a wireless communication method. The wireless communication module, the wireless LAN communication module, The data can be transmitted / received to / from the cloud streaming server 110 by using any one of them. The wired communication module is for transmitting / receiving data by wire. The wired communication module may connect to the network 130 through a wired network and transmit / receive data to / from the cloud streaming server 110. That is, the terminals 120-1 to 120-N access the network 130 using a wireless communication module or a wired communication module and transmit and receive data to and from the cloud streaming server 110 through the network 130. [ In particular, the network 130 according to the present invention can communicate with the cloud streaming server 110 or other terminals 120-1 to 120-N to transmit / receive data necessary for uploading or downloading content based on cloud computing.

The control unit of the terminal devices 120-1 to 120-N may be an operating system (OS) and a process unit for driving each configuration. For example, the control unit may include a cloud streaming server 110, When accessing the cloud streaming server 110 through a separate service application, it is possible to control the entire process of executing the service application according to the request of the user, and at the same time, It is possible to control the streaming server 110 to transmit the service use request and control the information of the terminals 120-1 to 120-N necessary for user authentication to be transmitted together.

In addition, the control units of the terminals 120-1 to 120-N can execute the specific contents stored in the storage units of the terminals 120-1 to 120-N according to the request of the user. At this time, the control unit may store the content usage history according to the execution of the content as the content usage information.

In addition, the control unit of the terminals 120-1 to 120-N may execute execution data for executing the content, content information including attribute information about the content, and content usage information, which is information according to the content usage history, And uploaded to the server 110 for uploading. Then, the controller transmits the uploaded content to the cloud streaming server 110, deletes the uploaded content from the storage unit of the terminals 120-1 to 120-N according to the user's request, connects to the cloud streaming server 110 The content may be executed through the cloud streaming server 110 and used.

In addition, the control units of the terminals 120-1 to 120-N may access the cloud streaming server 110 to download the content from the other terminals 120-1 to 120-N and control the content to be stored in the storage unit , It is also possible to control the content to be executed after receiving only data necessary for execution at the time of executing the content through the cloud streaming server 110.

The network 130 provides a path for transferring data between the cloud streaming server 110 and the terminals 120-1 to 120-N, and is a concept covering both existing networks and future developable networks . For example, the network 130 may be a wired / wireless local area network that provides communication of various information devices within a limited area, a mobile communication network that provides communication between mobile objects and mobile objects outside the mobile object, Or a wired / wireless communication network, or a combination of two or more. Meanwhile, the transmission scheme standard of the network 130 is not limited to the existing transmission scheme standard, and may include all transmission scheme standards to be developed in the future. In addition, the network used between the cloud streaming server 110 and the terminals 120-1 to 120-N in FIG. 1 may be different from the network used between the terminals 120-1 to 120-N, It may be the same.

2 is a block diagram illustrating an example of the cloud streaming server shown in FIG.

1, the cloud streaming server 110 shown in FIG. 1 includes a receiving unit 210, a conversion cache table 220, a searching unit 230, an encoding region reducing unit 240, a transmitting unit 250, A streaming unit 260, an additional caching unit 270, and a storage unit 280.

The receiving unit 210 receives the first encoding target image and the address corresponding to the first encoding target image based on the application execution screen.

For example, when the user inputs a key through the terminal 120-1 shown in FIG. 1, the application server can receive information corresponding to the key input. The application server receiving the key input can execute the application, and the cloud streaming server 110 can receive the generated application execution screen through the receiving unit 210. The first encoding target image to be provided to the user as an image-based cloud streaming service and the address of the corresponding image can be acquired from the application execution screen thus received.

At this time, the first encoding target image may correspond to an image output when connected through an address. Also, the address corresponding to the first image to be encoded may correspond to a uniform resource locator (URL) address that can access the Internet server providing the first image to be encoded, i.e., the web page.

At this time, the address corresponding to the first image to be encoded can be used to retrieve the cached image in the conversion cache table 220 at a later time.

At this time, a key input of the user terminal can be obtained through a communication network such as the network shown in FIG. 1, or an application execution screen, that is, a first encoding target image and address can be received from the application server.

The conversion cache table 220 encodes and stores still image images of at least one application execution screen based on the application.

The conversion cache table 220 may correspond to a cache, that is, a buffer-type high-speed storage device, in which an application execution screen image is encoded and stored separately from a storage module provided in the cloud streaming server 110. For example, it may correspond to a high-speed buffer memory that may be installed between the main storage device of the cloud streaming server 110 and the central processing unit. The translation cache table 220 has the advantage that it has a small storage capacity but can be faster than the main storage and can be accessed. Thus, if the central processing unit of the cloud streaming server 220 requires a command, the first access may correspond to the translation cache table 220, not the main storage. That is, by saving frequently accessed data or program commands so that they can be used immediately without repeatedly searching, it is possible to save resources for command processing of the cloud streaming server 110.

At this time, at least one caching image obtained by still image encoding of at least one application execution screen image, at least one application execution screen image, and at least one of a ratio occupied by a common area excluding a user area representing individual information for each user from an original And at least one table entry for matching and storing one.

At this time, the original of the at least one application execution screen image may be stored for later comparison of the first encoding target image and the caching image. In addition, the ratio occupied by the common area may be stored to determine the matching rate of the first image to be cached and the cached image. For example, if there is a user area indicating individual information for each user in the original, when comparing the original image of the first encoding target and the original of the caching image, only the portion corresponding to the user area may be different and the remaining common areas may coincide.

Therefore, the ratio of the common area excluding the user area in the original may correspond to the matching rate when comparing the original image to the original image.

In addition, a unique table address may be allocated to at least one table entry included in the conversion cache table 220, and the table address to be allocated may be an address corresponding to images stored in the corresponding table entry. For example, when an image Image_A corresponding to the application execution screen A is cached in the conversion cache table 220, an address Add_A corresponding to Image_A may be assigned to the table entry Table_A as a table address. Thereafter, Table_A can store the original of Image_A, the cached image obtained by Still Image encoding of Image_A, the ratio occupied by the common area in Image_A, and the like.

At this time, at least one application execution screen image can be compressed by the still image encoding method. Also, the still image encoding method can be determined in consideration of the load generated in the cloud streaming server, the service speed, the image quality of the image, or the performance of the terminal receiving and rendering the encoded image. For example, to improve the speed of the cloud streaming service, you can compress the image with a palette PNG encoding method that has a high compression ratio and low load. In addition, if it is desired to provide a good image quality without regard to the load, the image can be compressed using the PNG 32-bit encoding method or the JPEG encoding method.

The retrieving unit 230 retrieves a caching image corresponding to the first image to be encoded from the conversion cache table 220 using the address.

In this case, the table address for accessing at least one table item is used to search for a reference table item whose table address corresponds to the address of the first encoding target image among the at least one table item, Can be obtained. In this case, since the reference table items are stored in a matching manner in terms of the original, the cached image, and the ratio of the common area to the original, the reference table item is searched, and at the same time, data such as the ratio of the original area, the cached image, Can be obtained.

The encoding region reduction unit 240 compares the cached image with the first image to be encoded to generate a second image to be encoded, which is a part of the first image to be encoded. That is, in order to actually reduce the area of the image for performing the still image encoding in the cloud streaming server 110, the second encoding target image, which is the difference part excluding the same part as the caching image, Can be generated.

At this time, an original matched with the cached image may be obtained from the reference table item, and the original and the pixels of the first encoding target image may be compared to generate a second encoding target image. For example, each image may be analyzed on a pixel-by-pixel basis to compare the cached image with the first encoded image. Therefore, it is possible to extract a different position of the pixel in each image from the first image to be encoded and generate the second image to be encoded.

At this time, since the cached image has already been still-image-encoded, it may be difficult to compare the cached image with the first encoding target image. Thus, it is possible to compare the original stored with the cached image and the stored first image to be encoded.

In this case, when the ratio of the common area matched with the cached image is 100 percent, it may mean that the cached image and the first encoding target image do not include the user area indicating individual information for each user. Accordingly, in this case, it is determined that the cached image matches the first encoding target image, and the second encoding target image is not generated. In addition, by omitting the process of comparing the source of the cached image with the first encoding target image, the resource of the cloud streaming server 110 can be utilized as a further saving means.

The transmitting unit 250 transmits the still image-encoded image of the cached image and the second encoding target image to the user terminal.

At this time, the caching image and the position information of the second encoding target image may be transmitted first, and the still image encoded second encoding target image may be transmitted later. By transmitting in this way, the user terminal can output the caching image first, then overlay the still image encoded second encoding target image on the caching image, and finally output the screen requested by the user. Accordingly, when the caching image is transmitted, the location information of the second encoding object image may be transmitted together with the user's terminal so as to know the position at which the second image to be encoded is to be output.

In this case, the transmitting unit 250 may receive the second image to be encoded from the encoding region reducing unit 240 and encode the still image. Still further, the encoding region reduction unit 240 may still image-encode the second encoding target image and transmit the still image to the transmission unit 250. [ The still image encoding of the second image to be encoded may be performed in various components depending on the configuration of the cloud streaming server 110 and may include a separate component for still image encoding the second image to be encoded .

When there is no reference table item corresponding to the address of the table among at least one table item, the streaming unit 260 still image-encodes the first encoding target image and transmits it to the terminal. That is, since there is no still image-encoded image of the first encoding target image in the conversion cache table 220, the conversion-cache table 220 can not acquire the caching image and still image-encodes the first encoding target image, Lt; / RTI >

The additional caching unit 270 stores the still image encoded first encoding target image in the conversion cache table 220 using the address. By storing the first encoding target image in the conversion cache table 220, then, when the first encoding target image is again requested from the user, the image based cloud using the encoding region reduction through the conversion cache table 220 Streaming service can be provided.

In addition, the still image encoded first image to be encoded may not be further cached in the conversion cache table if the ratio of the common area corresponding to the still image encoded first image to be encoded is less than a preset reference ratio.

For example, assuming that the ratio of the common area is 50 percent, half of the first encoding target image corresponds to the user area, so the caching image is transmitted and the first encoding target image corresponding to half is still image encoded and transmitted . However, the additional transmission of the first half-encoded image may be an inefficient method as compared with the still image encoding and transmission of the first image to be encoded from the beginning.

Therefore, in order to provide a more efficient service in the image cloud streaming service according to the present invention, the reference ratio of the ratio of the common area may be set, and the image of less than the set reference ratio may not be cached.

At this time, the storage space of the conversion cache table 220 may be limited. Accordingly, when storing a new image in the conversion cache table 220, at least one table item can be maintained in the stored order. In addition, if there is insufficient space in the conversion cache table 220, a new image can be stored after deleting the table item in the oldest stored time.

The storage unit 280 stores various information generated in the cloud streaming service process according to the embodiment of the present invention as described above.

According to an embodiment, the storage unit 280 may be configured independently of the cloud streaming server 110 to support a function for the cloud streaming service. At this time, the storage unit 280 may operate as a separate mass storage and may include a control function for performing operations.

In addition, the cloud streaming server 110 configured as described above may be implemented as one or more servers.

On the other hand, the cloud streaming server 110 can store information in the memory on which the memory is mounted. In one implementation, the memory is a computer-readable medium. In one implementation, the memory may be a volatile memory unit, and in other embodiments, the memory may be a non-volatile memory unit. In one implementation, the storage device is a computer-readable medium. In various different implementations, the storage device may include, for example, a hard disk device, an optical disk device, or any other mass storage device.

Thus, by providing an image-based cloud streaming service through the cloud streaming server 110 according to the present invention, the resources of the cloud streaming server 110 necessary for still image encoding of images can be saved.

 In addition, as resources used for still image encoding are saved in the cloud streaming server 110, it is possible to simultaneously provide services to a larger number of users.

In addition, since the efficiency can be improved without upgrading the cloud streaming server 110 in hardware, the cost for upgrading the hardware can be expected to be reduced.

3 is a diagram illustrating a conversion cache table according to an embodiment of the present invention.

Referring to FIG. 3, the conversion cache table 310 includes at least one table entry 311 to 313 to which a unique table address is allocated.

At this time, at least one of the table items includes a source of the application execution screen image, a caching image obtained by still image encoding the application execution screen image, and a ratio of the common area excluding the user area representing the individual information for each user in the source .

At this time, the table address for accessing at least one table item may correspond to the address of the application execution screen image stored in the corresponding table item. For example, when creating an application execution screen, an image may be accessed by accessing a web page capable of providing a specific image, where the address of the web page may correspond to the address of the application execution screen image.

Therefore, if the address of the application execution screen image is the same, it can be determined that most of the screens are identical except for the customized information per user.

Therefore, by assigning the table address of at least one table item included in the conversion cache table 310 to an address corresponding to each image, the image can be searched easily in the conversion cache table 310.

The ratio of the common area occupied by the image corresponding to the original can be used as a criterion for determining whether to generate the second encoding target image when the cloud streaming server processes the service.

For example, if it is assumed that the ratio 1 of the common area stored in the table item 311 is 100 percent, it is determined that the caching image 1 stored in the table item 311 does not include the user area indicating the individual information for each user can do. That is, since there is no area for displaying different information for each user, the image provided through address 1 can be the same for each user.

Accordingly, since the caching image 1 is the same as the first encoding target image corresponding to the address 1, only the caching image can be transmitted to the user's terminal, so that the second encoding target image can be not generated.

Further, if it is assumed that the ratio 2 occupied by the common area stored in the table item 312 is 90 percent, it can be determined that the caching image 2 stored in the table item 312 includes the user area corresponding to 10 percent. That is, since each user includes an area for displaying different information, the second encoding target image can be generated by detecting the corresponding user area.

At this time, the first encoding target image corresponding to the address 2 is compared with the original 2 stored in the table item 312 to determine the difference region, and the region having the difference in the first encoding target image is extracted, It can be created as a target image.

At this time, since the cached image 2 stored in the table item 312 has been already subjected to the still image encoding, it may be difficult to directly compare with the first image to be encoded. Therefore, it is possible to compare the original 2 and the first encoding target image corresponding to the state before still image encoding of the caching image 2.

At this time, since the storage space of the conversion cache table 310 is not infinite, it is possible to store the table item in a limited manner. Thus, when storing a new image in the conversion cache table, it is possible to maintain at least one table item in the stored order. In addition, if there is insufficient space in the conversion cache table, a new image can be stored after deleting the table item in the oldest stored time.

4 is a diagram illustrating a process of reducing an encoding region according to an embodiment of the present invention.

Referring to FIG. 4, the process of reducing an encoding region according to an embodiment of the present invention is performed in such a manner that a receiving unit 411 of the cloud streaming server 410 receives, from an application server 400, And an address corresponding to the first image to be encoded.

Thereafter, the search unit 412 searches the conversion cache table 413 for storing still image of at least one application execution screen image based on the application and searching for a cached image corresponding to the first image to be encoded have.

At this time, using the address corresponding to the first encoding target image, a reference table item corresponding to the address of the first encoding target image in the table address among at least one table entry included in the conversion cache table 413 is searched . That is, if there is a reference table item, it can be determined that a cached image corresponding to the first encoding target image exists in the conversion cache table 413.

Thereafter, if the caching image corresponding to the first image to be encoded is searched through the search unit 412, the first image to be encoded is compared with the cached image in the encoding region scaling unit 414, It is possible to generate the second encoding target image corresponding to the part.

At this time, since the cached image is already an image stored in the conversion cache table by performing still image encoding, it can be compared with the first image to be encoded using the same original image as that of the cached image but before the still image encoding is performed.

Thereafter, the transmitting unit 415 may transmit the caching image corresponding to the first encoding target image and the position information on the screen on which the second encoding target image is to be output to the user terminal. After transmitting the caching image and the position information, the second encoding target image may be still image encoded and further transmitted.

At this time, the caching image and the still image-encoded second encoded object image are sequentially transmitted, so that the user's terminal can output the cached image first and then overlay the still image encoded second encoded object image. That is, only the portion of the difference between the cached image and the first image to be encoded can be still image encoded, transmitted, and then output to overlap the cached image.

If the caching image corresponding to the first image to be encoded is not retrieved through the search unit 412, the streaming unit 416 may still image-encode the first image to be encoded and transmit the still image to the user's terminal 420 .

Further, through the additional caching unit 417, the still image encoded first encoding target image can be additionally cached in the conversion cache table 413. [

At this time, if the ratio of the common area of the still image-encoded first encoding target image is less than the predetermined reference ratio, it may not be further cached in the conversion cache table 413. [ That is, when it is determined that it is not efficient to cache and use the still image encoded first encoding target image in the conversion cache table 413, the still image encoding is performed according to the conventional method without caching in this way, ).

5A and 5B illustrate a process of transmitting an image to a terminal according to an embodiment of the present invention.

Referring to FIGS. 5A and 5B, it can be seen that the first encoding target image 510 shown in FIG. 5A is composed of a common area 511 and a user area 512.

In this case, the user area 512 may be an area for indicating individual information for each user connected to the application, and the common area 511 may correspond to an area other than the user area 512.

Accordingly, even when the first encoding target image 510 is outputted to the terminals of a plurality of users, the same images can be outputted in the common area 511 except for the user area 512. [

In addition, the cached image 520 shown in FIG. 5A can be obtained in the lookup table item retrieved corresponding to the address of the first image to be encoded 510 in the conversion cache table.

At this time, if the caching image 520 is checked, it can be seen that the caching image 520 is composed of the common area same as the first encoding target image 510 and the user area 522 differing from the first encoding target image 510.

In this case, the cloud streaming server 530 first transmits the caching image 520 to the user terminal 540 as shown in FIG. 5B, and then the user area 512 included in the first encoding target image 510 ) As a second encoding target image, and then transmits the still image after encoding the still image.

At this time, the cloud streaming server 530 may transmit the caching image 520 together with the location information on the screen of the user area 512 generated as the second encoding target image to the terminal 540. That is, after the caching image 520 is output from the terminal 540, it is possible to transmit the position information so that the second encoding target image can be output at a position corresponding to the user area 522 included in the caching image 520 have.

6 is a flowchart illustrating an image cloud streaming service method using reduction of an encoding region according to an embodiment of the present invention.

Referring to FIG. 6, an image cloud streaming service method using reduction of an encoding region according to an embodiment of the present invention receives an address corresponding to a first encoding object image and a first encoding object image, based on an application execution screen (S610).

For example, when the user inputs a key through the terminal 120-1 shown in FIG. 1, the application server can receive information corresponding to the key input. The application server receiving the key input can execute the application, and the cloud streaming server can receive the generated application execution screen through the receiving unit. The first encoding target image to be provided to the user as an image-based cloud streaming service and the address of the corresponding image can be acquired from the application execution screen thus received.

At this time, the first encoding target image may correspond to an image output when connected through an address. Also, the address corresponding to the first image to be encoded may correspond to a uniform resource locator (URL) address that can access the Internet server providing the first image to be encoded, i.e., the web page.

At this time, the address corresponding to the first image to be encoded can be used to retrieve the cached image in the conversion cache table 220 at a later time.

At this time, a key input of the user terminal can be obtained through a communication network such as the network shown in FIG. 1, or an application execution screen, that is, a first encoding target image and address can be received from the application server.

According to another aspect of the present invention, there is provided an image cloud streaming service method using reduction of an encoding region, the method comprising: a first step of encoding a still image of at least one application execution screen image based on an application, A caching image corresponding to the image to be encoded is retrieved (S620).

In this case, the conversion cache table may correspond to a cache, that is, a buffer-type high-speed storage device, in which an application execution screen image is encoded and stored separately from a storage module provided in the cloud streaming server. For example, it may correspond to a high-speed buffer memory that may be installed between the main storage device of the cloud streaming server and the central processing unit. The conversion cache table has the advantage that it has a small storage capacity but can be faster than main storage and can be accessed. Thus, if the central processing unit of the cloud streaming server requires a command, the first access may correspond to the translation cache table, not the main storage. That is, by storing frequently accessed data or program commands so that they can be used immediately without repeatedly searching, it is possible to invoke the effect of saving resources for command processing of the cloud streaming server.

At this time, at least one caching image obtained by still image encoding of at least one application execution screen image, at least one application execution screen image, and at least one of a ratio occupied by a common area excluding a user area representing individual information for each user from an original And at least one table entry for matching and storing one.

At this time, the original of the at least one application execution screen image may be stored for later comparison of the first encoding target image and the caching image. In addition, the ratio occupied by the common area may be stored to determine the matching rate of the first image to be cached and the cached image. For example, if there is a user area indicating individual information for each user in the original, when comparing the original image of the first encoding target and the original of the caching image, only the portion corresponding to the user area may be different and the remaining common areas may coincide.

Therefore, the ratio of the common area excluding the user area in the original may correspond to the matching rate when comparing the original image to the original image.

At least one table entry included in the conversion cache table may be assigned a unique table address, and the allocated table address may be an address corresponding to images stored in the corresponding table entry. For example, when an image Image_A corresponding to the application execution screen A is cached in the conversion cache table, an address Add_A corresponding to Image_A may be allocated to the table entry Table_A as a table address. Thereafter, Table_A can store the original of Image_A, the cached image obtained by Still Image encoding of Image_A, the ratio occupied by the common area in Image_A, and the like.

At this time, at least one application execution screen image can be compressed by the still image encoding method. Also, the still image encoding method can be determined in consideration of the load generated in the cloud streaming server, the service speed, the image quality of the image, or the performance of the terminal receiving and rendering the encoded image. For example, to improve the speed of the cloud streaming service, you can compress the image with a palette PNG encoding method that has a high compression ratio and low load. In addition, if it is desired to provide a good image quality without regard to the load, the image can be compressed using the PNG 32-bit encoding method or the JPEG encoding method.

In this case, the table address for accessing at least one table item is used to search for a reference table item whose table address corresponds to the address of the first encoding target image among the at least one table item, Can be obtained. In this case, since the reference table items are stored in a matching manner in terms of the original, the cached image, and the ratio of the common area to the original, the reference table item is searched, and at the same time, data such as the ratio of the original area, the cached image, Can be obtained.

In addition, the image cloud streaming service method using reduction of the encoding region according to an embodiment of the present invention generates a second encoding target image that is a part of the first encoding target image by comparing the caching image and the first encoding target image (S630 ). That is, in order to actually reduce the area of the image for performing still image encoding in the cloud streaming server, it is possible to generate a second encoded target image, which is a difference part excluding the same part as the cached image in the first encoded target image have.

At this time, an original matched with the cached image may be obtained from the reference table item, and the original and the pixels of the first encoding target image may be compared to generate a second encoding target image. For example, each image may be analyzed on a pixel-by-pixel basis to compare the cached image with the first encoded image. Therefore, it is possible to extract a different position of the pixel in each image from the first image to be encoded and generate the second image to be encoded.

At this time, since the cached image has already been still-image-encoded, it may be difficult to compare the cached image with the first encoding target image. Thus, it is possible to compare the original stored with the cached image and the stored first image to be encoded.

In this case, when the ratio of the common area matched with the cached image is 100 percent, it may mean that the cached image and the first encoding target image do not include the user area indicating individual information for each user. Accordingly, in this case, it is determined that the cached image matches the first encoding target image, and the second encoding target image is not generated. In addition, by omitting the process of comparing the source of the cached image and the first encoding target image, the resource of the cloud streaming server can be further reduced.

In addition, the image cloud streaming service method using reduction of the encoding region according to an embodiment of the present invention transmits still image encoded image of the cached image and the second encoding target image to the user terminal (S640).

At this time, the caching image and the position information of the second encoding target image may be transmitted first, and the still image encoded second encoding target image may be transmitted later. By transmitting in this way, the user terminal can output the caching image first, then overlay the still image encoded second encoding target image on the caching image, and finally output the screen requested by the user. Accordingly, when the caching image is transmitted, the location information of the second encoding object image may be transmitted together with the user's terminal so as to know the position at which the second image to be encoded is to be output.

At this time, the second image to be encoded can be received from the encoding region scaling unit and the still image can be encoded. Still further, the second image to be encoded may be still image-encoded and delivered directly in the encoding region scaling unit. The still image encoding of the second image to be encoded may be performed in various components depending on the configuration of the cloud streaming server and may include a separate component for still image encoding the second image to be encoded.

In addition, although not shown in FIG. 6, the image cloud streaming service method using the reduction of the encoding region according to an embodiment of the present invention is a method in which a reference table item corresponding to an address of a table address does not exist among at least one table item , The first image to be encoded is still image encoded and transmitted to the terminal. That is, since there is no still image-encoded image of the first encoding target image in the conversion cache table, the first conversion target image can be still image encoded and transmitted to the terminal without directly acquiring the caching image in the conversion cache table.

Although not shown in FIG. 6, the image cloud streaming service method using the reduction of the encoding region according to an embodiment of the present invention stores the still image-encoded first encoding target image in the conversion cache table using the address . By storing the first encoding target image in the conversion cache table, if the first encoding target image is again requested from the user, the image based cloud streaming service using the encoding region reduction can be provided through the conversion cache table have.

In addition, the still image encoded first image to be encoded may not be further cached in the conversion cache table if the ratio of the common area corresponding to the still image encoded first image to be encoded is less than a preset reference ratio.

For example, assuming that the ratio of the common area is 50 percent, half of the first encoding target image corresponds to the user area, so the caching image is transmitted and the first encoding target image corresponding to half is still image encoded and transmitted . However, the additional transmission of the first half-encoded image may be an inefficient method as compared with the still image encoding and transmission of the first image to be encoded from the beginning.

Therefore, in order to provide a more efficient service in the image cloud streaming service according to the present invention, the reference ratio of the ratio of the common area may be set, and the image of less than the set reference ratio may not be cached.

At this time, the storage space of the conversion cache table may be limited. Thus, when storing a new image in the conversion cache table, it is possible to maintain at least one table item in the stored order. In addition, if there is insufficient space in the conversion cache table, a new image can be stored after deleting the table item in the oldest stored time.

Although not shown in FIG. 6, the image cloud streaming service method using the reduction of the encoding region according to the exemplary embodiment of the present invention may include various information generated in the cloud streaming service process according to the exemplary embodiment of the present invention, / RTI >

According to the embodiment, the storage module for storing various information generated in the process of the cloud streaming service can be configured independently of the cloud streaming server to support the function for the cloud streaming service. At this time, the storage module may operate as a separate mass storage and may include control functions for performing operations.

In addition, the cloud streaming server performing the above-described operations may be implemented by one or more servers.

On the other hand, the cloud streaming server can store information in the device by loading the memory. In one implementation, the memory is a computer-readable medium. In one implementation, the memory may be a volatile memory unit, and in other embodiments, the memory may be a non-volatile memory unit. In one implementation, the storage device is a computer-readable medium. In various different implementations, the storage device may include, for example, a hard disk device, an optical disk device, or any other mass storage device.

As described above, according to the image cloud streaming service method using the reduction of the encoding region according to the present invention, it is possible to reuse the image encoding result that is the most consistent even for the screen in which the customized content exists for each user, so that the faster response speed and the higher concurrent connection rate Can be provided.

7 is a detailed flowchart illustrating an image cloud streaming service method using reduction of an encoding region according to an exemplary embodiment of the present invention.

Referring to FIG. 7, an image cloud streaming service method using reduction of an encoding region according to an embodiment of the present invention firstly receives an address corresponding to a first encoding target image and a first encoding target image on the basis of an application execution screen (S702)

In this case, the first encoding target image may correspond to the entire image provided when the first encoding target image is accessed through the address of the first encoding target image. For example, if a movie poster is accessed through an address of an image storing the movie poster, the movie poster stored at the corresponding address may be provided, and the entire movie poster may correspond to the first encoding target image.

At this time, the address corresponding to the first encoding target image may correspond to the URL address accessible to the Internet server providing the first encoding target image, i.e., the web page.

Thereafter, the image cloud streaming service method using the reduction of the encoding region according to an embodiment of the present invention includes a reference table corresponding to the address of the first encoding target image among the table entries of at least one table entry included in the conversion cache table It is determined whether an item exists (S704).

At this time, whether or not the reference table item exists can be checked to see whether or not the cached image corresponding to the first encoding target image is stored in the conversion cache table.

At this time, the conversion cache table can store still image encoding of at least one application execution screen image based on the application. That is, the translation cache table may correspond to a cache and fast storage.

In addition, the conversion cache table may include at least one of a source of the application execution screen image, at least one caching image obtained by still image encoding the at least one application execution screen image, and a common area excluding the user area representing the user- And a ratio of at least one table item that matches and stores at least one of the table items.

At this time, a unique table address may be assigned to each of at least one table entry included in the conversion cache table, and the table address to be allocated may be an address corresponding to images stored in the corresponding table entry.

Thus, a caching image corresponding to the first image to be encoded can be searched using an address corresponding to the first image to be encoded in order to check whether or not a conversion cache table exists.

As a result of the determination in step S704, if there is a reference table item, the image cloud streaming service method using the reduction of the encoding area according to an embodiment of the present invention includes at least the ratio of the original, the cached image, One data is acquired (S706).

Thereafter, the image cloud streaming service method using the reduction of the encoding region according to an embodiment of the present invention determines whether the ratio of the common area to the acquired data corresponds to 100 percent (S708).

At this time, the ratio occupied by the common area may be stored to determine the matching rate of the first encoding target image and the caching image. For example, if there is a user area indicating individual information for each user in the original, when comparing the original image of the first encoding target and the original of the caching image, only the portion corresponding to the user area may be different and the remaining common areas may coincide.

Therefore, the ratio of the common area excluding the user area to the original may correspond to the matching rate when the first encoding target image and the original are compared, and when the ratio of the common area corresponds to 100%, the first encoding This may correspond to the case where the target image and the caching image match.

 If the ratio of the common area does not correspond to 100 percent as a result of the determination in step S708, the image cloud streaming service method using the reduction of the encoding area according to the embodiment of the present invention may include The stored original is compared (S710).

At this time, since the ratio occupied by the common area does not correspond to 100 percent, it can be determined that there is a user area that differs from the cached image in the first encoding target image. Therefore, in order to confirm the position of the user area, the first encoded image and the reference table item may be compared with the original stored in the cached image.

At this time, since the cached image is already the still image encoded and stored image, the first source image and the first target image can be compared before the cached image is still image encoded, without directly comparing the cached image with the first image to be encoded .

Thereafter, an image cloud streaming service method using reduction of an encoding region according to an embodiment of the present invention generates a second encoding target image that is a part of the first encoding target image (S712).

At this time, the original and the pixels of the first encoding target image may be compared, and an image corresponding to the non-identical area in the first encoding target image may be generated as the second encoding target image.

Thereafter, in the image cloud streaming service method using the reduction of the encoding region according to the embodiment of the present invention, still image encoding of the second encoding target image is performed (S714).

At this time, by still image encoding only the second encoding target image corresponding to the portion that differs from the caching image, all of the first encoding target image is not still image encoded, and thus it is used for still image encoding rather than the conventional image cloud streaming service method The system resources can be significantly reduced.

Thereafter, the image cloud streaming service method using the reduction of the encoding region according to an embodiment of the present invention transmits location information corresponding to the cached image and the second encoding target image to the user terminal (S716).

Thereafter, the image cloud streaming service method using the reduction of the encoding region according to an embodiment of the present invention transmits the still image encoded second encoding object image to the user terminal (S718).

In this way, the caching image and the position information corresponding to the second image to be encoded are first transmitted to the user's terminal, and the still image-encoded second image to be encoded is transmitted later, so that the user terminal outputs the cached image first The still image-encoded second encoding target image may be overwritten to finally output the screen requested by the user.

Accordingly, when the caching image is transmitted, the location information of the second encoding object image may be transmitted together with the user's terminal so as to know the position at which the second image to be encoded is to be output.

In the image cloud streaming service method using the reduction of the encoding region according to the embodiment of the present invention, if the ratio of the common area to the common area is 100 percent as a result of the determination in step S708, only the cached image obtained in the reference table item To the user's terminal (S720).

At this time, since the ratio of the common area is equivalent to 100%, it can be judged that the first encoding target image and the caching image are the same. Therefore, only the cached image stored in the conversion cache table is transmitted to the user's terminal without performing the still image encoding, so that the image-based cloud streaming service according to the user's request can be performed.

If the reference table item does not exist as a result of the determination in step S704, the image cloud streaming service method using the reduction of the encoding area according to the embodiment of the present invention performs still image encoding on the first encoding target image (S722) .

At this time, since there is no reference table item, it can be determined that there is no cached image for the first encoding target image in the conversion cache table. Thus, still image encoding can be performed to provide the user with a first image to be encoded.

Thereafter, the image cloud streaming service method using reduction of the encoding region according to an embodiment of the present invention further caches the still image encoded first encoding target image to the conversion cache table (S724).

At this time, by adding the Still Image encoded first encoding target image to the conversion cache table, an efficient service is provided using the caching image stored in the conversion cache table when the same first encoded target image is again requested from the user can do.

At this time, the still image encoded first image to be encoded may not be further cached in the conversion cache table if the ratio of the common area corresponding to the still image encoded first image to be encoded is less than the preset reference ratio.

Thereafter, the image cloud streaming service method using the reduction of the encoding region according to an embodiment of the present invention transmits the still image encoded first encoding object image to the user terminal (S726).

The image cloud streaming service method using the reduction of the encoding region according to the present invention can be implemented in the form of a program command which can be executed through various computer means and recorded in a computer readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Includes all types of hardware devices that are specially configured to store and execute magneto-optical media and program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions may include machine language code such as those generated by a compiler, as well as high-level language code that may be executed by a computer using an interpreter or the like. Such a hardware device may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

As described above, the cloud streaming service system according to the present invention, the image cloud streaming service method using the reduction of the encoding region, and the apparatus therefor are not limited to the configuration and method of the embodiments described above, The embodiments may be configured so that all or some of the embodiments may be selectively combined so that various modifications may be made.

According to the present invention, an address corresponding to the first encoding target image and the first encoding target image is received based on the application execution screen, and at least one application execution screen image is still-image encoded and stored based on the application, A second image to be encoded, which is a part of the first image to be encoded, is generated by comparing the cached image with the first image to be encoded, The still image encoded image of the second encoding target image may be transmitted to the user terminal. Furthermore, it is possible to simultaneously provide services to more users at the same time, while saving the use of resources of the cloud streaming server in image-based cloud streaming service.

110, 410, 530: a cloud streaming server
120-1 to 120-N, 420, and 540: terminal 130:
210, 411: receiving section 220, 413: conversion cache table
230, 412: search unit 240, 414: encoding region reduction unit
250, 415: Transmission unit 260. 416: Streaming unit
270, 417: additional caching unit 280:
310: conversion cache tables 311 to 313: table entries
400: Application server 510: First encoding target image
511: common area 512. 522: user area
520: Caching image

Claims (10)

A receiving unit receiving an address corresponding to the first encoding target image and the first encoding target image based on the application execution screen;
A conversion cache table for storing at least one application execution screen image by still image encoding based on the application;
A retrieving unit for retrieving a cached image corresponding to the first image to be encoded in the conversion cache table using the address;
An encoding region reduction unit for generating a second encoding target image that is a part of the first encoding target image by comparing the cached image and the first encoding target image; And
A transmitting unit for transmitting the still image encoded image of the caching image and the second encoding target image to a terminal of the user,
Wherein the server comprises: The method according to claim 1,
The conversion cache table
At least one caching image obtained by still image encoding the at least one application execution screen image, and a ratio of a ratio occupied by a common area excluding a user area indicating individual information for each user in the source, And at least one table entry for matching and storing one of the table entries. The method of claim 2,
The search unit
Using a table address to connect to the at least one table entry, wherein the table address of the at least one table entry corresponds to the address and retrieves the caching image from the reference table entry Wherein the server comprises: The method of claim 3,
The encoding region reduction unit
Wherein the second encoding target image is generated by comparing the source and the pixels of the first encoding target image with each other in the reference table item to generate a second encoding target image, server. The method of claim 4,
The transmitter
Wherein the caching image is transmitted to the terminal when the ratio of the common area occupies 100 percent and the second image to be encoded is not generated. The method according to claim 1,
The transmitter
And transmits location information of an image obtained by still image encoding the second encoding target image together with the cached image to the terminal. The method of claim 3,
The cloud streaming server
A streaming unit for still image encoding the first image to be encoded and transmitting the still image to the terminal if the table address of the at least one table item does not include a reference table item corresponding to the address; And
Further comprising an additional cache unit for storing the still image encoded first image to be encoded in the conversion cache table using the address. The method of claim 5,
The additional caching unit
And does not store the still image encoded first image to be encoded in the conversion cache table when the ratio of the common area corresponding to the still image encoded first image to be encoded is less than a preset reference ratio Cloud streaming server. Receiving an address corresponding to the first encoding target image and the first encoding target image based on the application execution screen;
Retrieving a cached image corresponding to the first encoding target image using the address in a conversion cache table for storing still image encoding of at least one application execution screen image based on the application;
Comparing the cached image with the first image to be encoded to generate a second image to be encoded which is a part of the first image to be encoded; And
Transmitting the cached image and the image encoding the second image to be encoded
The method of claim 1, further comprising: The method of claim 9,
The conversion cache table
At least one caching image obtained by still image encoding the at least one application execution screen image, and a ratio of a ratio occupied by a common area excluding a user area indicating individual information for each user in the source, And storing at least one table item matching and storing one of the table items.

Images