KR20160115566A - System for cloud streaming service, method of image cloud streaming service using separation of image and text and apparatus for the same - Google Patents

Abstract

A system for a cloud streaming service, a method for an image cloud streaming service by separating a text from an image, and an apparatus for the same are provided. The method for an image cloud streaming service by separating a text from an image comprises: a step of receiving an executed application screen and a text message corresponding to the executed application screen; a step of comparing frames of the executed application screen and detecting changed part; a step of capturing an image except for a text from the changed part; a step of compressing the captured image in a still image encoding manner; a step of generating a text output information based on the text message to allow a user terminal display the text; and a step of transmitting the image encoded in the still image encoding manner with the text output information to the user terminal to cause the user terminal to display the executed application screen simultaneously with the text. As such, the method for an image cloud streaming service is able to improve the speed of response by reducing the amount of data transmitted to the user terminal when providing the image cloud streaming service.

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 by separating images and texts, and a device for such an image cloud streaming service method.

The present invention relates to a cloud streaming service system capable of improving system efficiency by reducing the amount of data transmitted by transmitting text included in an application execution screen in an image-based cloud streaming service separately from an image, A cloud streaming service method 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.

Therefore, only the changed image of the static portion is captured on the execution screen of the application executed according to the user request, and the captured image is provided to the user terminal. Separately from the image included in the proper portion, Based cloud streaming service technology that can reduce the number of users.

Korean Patent No. 10-1295864, published on Aug. 06, 2013 (name: Web document image data transmission rate improvement system and operation method)

It is an object of the present invention to reduce a load generated when still image encoding is performed in a cloud streaming server by separating text from an image in a changed part of an application execution screen and separately transmitting to an terminal.

It is also an object of the present invention to improve the concurrent access rate according to the resources saved by reducing the load generated in the cloud streaming server.

It is also an object of the present invention to improve the response speed of the cloud streaming service system by reducing the amount of data transmitted to the terminal.

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 comprising: a receiving unit receiving an application execution screen and a text message corresponding to the application execution screen; A capturing unit for comparing the frames of the application execution screen to detect a changed part, and capturing an image excluding the text among the changed parts; An encoding unit compressing the captured image in a still image encoding manner; A text output information generating unit for generating text output information based on the text message so that the user terminal can display the text; And a sending unit for transmitting the still image-encoded image together with the text output information to the terminal so that the terminal can display the application execution screen including the text.

At this time, the text message includes text source information including at least one of content, location, color and size of the text in a form corresponding to the source code, and a text keyword including a keyword capable of generating the text source information And may include any one of information.

At this time, the cloud streaming server extracts at least one of the content, location, color, and size of the text by applying the keyword to a class of cascading style sheets (CSS), and using the extracted at least one information And a text source information generator for generating the text source information.

At this time, the sending unit may transmit the text output information including the text source information to the terminal.

At this time, the capturing unit can distinguish the text and the image in the changed part based on the position of the text included in the text source information.

At this time, the capture unit can detect the changed part by comparing the previous frame and the current frame among the frames.

According to another aspect of the present invention, there is provided an image cloud streaming service method for separating images and texts, the method comprising: receiving a text message corresponding to the application execution screen together with an application execution screen; Comparing the frames of the application execution screen to detect a changed portion, capturing an image excluding the text among the changed portions, and compressing the captured image by a still image encoding method; Generating text output information based on the text message so that the user terminal can display the text; And transmitting the still image-encoded image together with the text output information to the terminal so that the terminal can display the application execution screen including the text.

At this time, the text message includes text source information including at least one of content, location, color and size of the text in a form corresponding to the source code, and a text keyword including a keyword capable of generating the text source information And may include any one of information.

In this case, the image cloud streaming service method may include extracting at least one of content, location, color, and size of the text by applying the keyword to a class of cascading style sheets (CSS); And generating the textual source information using the extracted at least one information.

In this case, the transmitting step may transmit the text output information including the text source information to the terminal.

At this time, the compressing step may distinguish the text and the image from the changed part based on the position of the text included in the text source information.

In this case, the compressing step may detect the changed part by comparing the previous frame and the current frame among the frames.

According to the present invention, in a changed portion of an application execution screen, text is separated from an image and transmitted separately to a terminal, thereby reducing a load generated when still image encoding is performed in a cloud streaming server.

In addition, the present invention can reduce the load generated in the cloud streaming server and improve the concurrent access rate according to the resources saved.

In addition, the present invention can improve the response speed of the cloud streaming service system by reducing the amount of data transmitted to the terminal.

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 an example of text source information according to the present invention.
4 is a diagram illustrating an example of generating textual source information using text keyword information according to the present invention.
5 is a diagram illustrating a process of capturing an image in a changed portion according to the present invention.
6A is a diagram illustrating an example of generating text output information according to the present invention.
6B is a diagram illustrating another example of generating text output information according to the present invention.
FIG. 7 is a diagram illustrating an image cloud streaming service method by separating an image and text according to an embodiment of the present invention.
8 is a detailed view illustrating an image cloud streaming service method by separating an image and text according to an embodiment of the present invention.
9 is a flowchart illustrating an image cloud streaming service process by separating images and texts according to an 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 an application execution screen and a text message corresponding to the application execution screen.

At this time, the text message includes textual source information including at least one of content, position, color and size of the text in a form corresponding to the source code, and textual keyword information including a keyword capable of generating textual source information And may include any one of the information.

In addition, the cloud streaming server 110 extracts at least one piece of the content, location, color, and size of text by applying a keyword to a class of cascading style sheets (CSS), and extracts at least one piece of information And generates source information.

In addition, the cloud streaming server 110 compares the frames of the application execution screen to detect the changed portion, and captures an image of the changed portion excluding the text.

At this time, the text and the image can be distinguished from each other based on the position of the text included in the text source information.

At this time, the changed frame can be detected by comparing the previous frame and the current frame among the frames.

In addition, the cloud streaming server 110 compresses the captured image in a still image encoding manner.

In addition, the cloud streaming server 110 generates text output information based on a text message so that the user's terminals 120-1 to 120-N can display text.

In addition, the cloud streaming server 110 transmits the still image-encoded image together with the text output information to the terminals 120-1 to 120-N so that the terminal can display the application execution screen including the text.

At this time, text output information including text source information can be transmitted to the terminals 120-1 to 120-N.

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.

2, the cloud streaming server 110 shown in FIG. 1 includes a receiving unit 210, a capturing unit 220, an encoding unit 230, a text source information generating unit 240, a text output information generating unit 250, a sending unit 260, and a storage unit 270.

The receiving unit 210 receives a text message corresponding to the application execution screen together with the application execution screen.

At this time, the text message includes textual source information including at least one of content, position, color and size of the text in a form corresponding to the source code, and textual keyword information including a keyword capable of generating textual source information And may include any one of the information.

At this time, the text source information may include information such as the content, location, color, and size of the text corresponding to the type of the source code so that the cloud streaming server can recognize the text source information.

For example, using the X coordinate and the Y coordinate based on a vertex of a frame of the application execution screen, the position where the text starts can be represented as 'X = 100 "Y =' 200 ''. You can also use the color name or color number of the text to indicate the color of the text, such as' COLOR = "# 939677" "or" COLOR = "red" "and the size of the text, such as" SIZE = "30px" Lt; / RTI > You can also enter textual content through commands such as 'TEXT =' Please enter text content ''.

That is, according to the above example, 'input text content' may be output as a red 30px text at a position where the coordinates of the frame are (100, 200).

 At this time, the text keyword information may be the minimum information generated by the application server to generate the text source information, and the keyword may be applied to a cascading style sheets (CSS) class. At this time, based on the keywords applied to the class, it is possible to extract all necessary information from a web container such as a browser.

For example, if you add css_text to a CSS class in the same way as <p class = "css_text tit"> (Pororo theatrical version - eye? Lt; / p> , Color, and size to obtain textual source information.

The receiving unit 210 may also receive information related to a plurality of terminals through a communication network such as the network shown in FIG. In particular, the receiver 210 according to the embodiment of the present invention can receive a request for the cloud streaming service from the terminal.

The capturing unit 220 compares frames of the application execution screen to detect a changed part, and captures an image of the changed part excluding text.

At this time, the application execution screen may correspond to a screen as a result of executing the application on the application server according to the user's request. Accordingly, various application execution screens can be generated according to the user's request, and the application execution screen can be dynamic or static depending on the type of the executed application.

Conventional video codec based cloud streaming techniques can capture and encode all frames corresponding to a screen on which an application operates. However, in the case where the frame-to-frame change is not large and static on the screen on which the application operates, the still-image encoding is performed by capturing only the changed region of the changed frame by comparing the frames as in the image-based cloud streaming technique, It is possible to display the parts except for the change area in the same manner and display only the change area.

In this case, it is possible to detect intervals of the frame between the frames of the application execution screen and detect the changed part in the interval where there is little change between the frames. For example, since there are many changed portions between frames, there are many images to be captured, and thus it may be inefficient to provide an image-based cloud streaming service. Accordingly, in such a period, a service can be performed through a cloud streaming technique based on a video codec, and only an image can be captured in a changed portion in order to perform an image-based cloud streaming service only in a period where there is little change between frames.

Therefore, it is possible to detect the changed portion and capture only the image portion excluding the text among the image and text constituting the changed portion.

 At this time, the text and the image can be distinguished from each other based on the position of the text included in the text source information. For example, if it is assumed that both the text and the image are included in the changed portion, the location information of the text included in the text source information generated using the text source information or the text keyword information received from the application server is used Images can be distinguished. That is, if it is assumed that the text starting from the part where the X coordinate and the Y coordinate are (100, 200) included in the changed part detected in the frame is included in the text in consideration of the content and size of the text from the corresponding starting coordinates And the remainder of the changed portion excluding the text region can be recognized as the image region.

Accordingly, by capturing and processing only the image region separated from the text region based on the location of the text, the load generated when performing the still image encoding in the cloud streaming server can be reduced.

At this time, the changed frame can be detected by comparing the previous frame and the current frame among the frames. For example, if there is a change in the current frame when the current frame is compared with the previous frame, the changed part of the entire frame of the current frame can be detected as the changed part. In addition, the image captured at the changed portion may vary in size or property depending on the input signal input from the user terminal.

The encoding unit 230 compresses the captured image in a still image encoding manner.

At this time, it is possible to compress the image by selecting a still image encoding method suitable for various characteristics such as the characteristics of the image captured by the application execution screen, the performance of the user terminal receiving the service or the bandwidth of the data transmission.

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 textual source information generation unit 240 extracts at least one piece of the content, location, color, and size of text by applying a keyword to a class of cascading style sheets (CSS), and extracts at least one piece of text And generates source information.

Depending on the type of the application server that executes the application according to the user's request, the text message information corresponding to the application execution screen may be included in the text message and transmitted, or only the text keyword information may be included in the text message and transmitted.

At this time, if the text message includes text source information, text output information can be generated based on the text message. However, if text keyword information is included, the keyword is applied to cascading style sheets (CSS) Information can be generated and used.

For example, the class information can be obtained through the text keyword information, and the CSS class can be added using the obtained class information, so that the information can be extracted for the added class in the browser such as the web container. That is, if the application server providing the VOD transmits the keyword 'css_vod_text' including the summary information about the VOD with the text keyword information, the cloud streaming server adds 'css_vod_text' to the CSS class to correspond to the VOD summary information Information corresponding to at least one of content, position, color, and size of text to be extracted.

Therefore, the text source information included in the text output information to be delivered to the terminal can be generated based on the extracted information.

The text output information generating unit 250 generates text output information based on a text message so that the user terminal can display text.

At this time, the user terminal may be a device that receives data from the cloud streaming server and displays an application execution screen corresponding to the data. That is, the terminal may be a device capable of corresponding to a mobile communication terminal, an information communication device, a multimedia terminal, a wired terminal, a fixed terminal, and an IP terminal. Accordingly, the cloud streaming server can generate text output information corresponding to a form recognizable by the apparatus, in order to provide information that can represent text to the terminal.

At this time, the text output information may include textual source information received via a text message. In addition to the textual source information, the textual output information may include all information related to the text required to represent the text in the terminal.

The sending unit 260 transmits the still image encoded image together with the text output information to the terminal so that the terminal can display the application execution screen including the text. Since the still image encoded image is captured and still image encoded except for the area corresponding to the text in the changed portion, the terminal can transmit the text output information together to indicate the area corresponding to the text.

At this time, text output information including text source information can be transmitted to the terminal. That is, in order for the terminal to recognize which text to output through the text output information, the text output information may be transmitted in the form of a source code that the terminal can recognize. Accordingly, the text information created in the form of the source code is included in the text output information and transmitted to the terminal, so that the terminal can smoothly recognize the text information.

The storage unit 270 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 270 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 270 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.

By providing an image-based cloud streaming service using the cloud streaming server, unnecessary still image encoded text portions can be separately transmitted without being compressed, thereby reducing load generation in the cloud streaming server.

In addition, as the load of the cloud streaming server decreases, the efficiency of the entire cloud streaming service system can be improved, and the simultaneous connection rate can be increased to provide services to more users at the same time.

3 is a diagram illustrating an example of text source information according to the present invention.

Referring to FIG. 3, the textual source information 310 according to the present invention may include text source information 310 to allow a user's terminal, which may correspond to a mobile communication terminal, an information communication device, a multimedia terminal, a wired terminal, It can be in the form of code.

Referring to FIG. 3, when the content included in the sixth and seventh lines of the text source information 310 is checked, the text of the information corresponding to the sixth line has the X coordinate and the Y coordinate of (332, 300) , The color of the text corresponds to '# 939677' in the color code, the size of the text is '30px', and the content of the text corresponds to '(life in hand) (HD) Pororo theater version - eye ...' can do.

In addition, the text corresponding to the seventh line is located where the X coordinate and the Y coordinate are respectively (100, 400), the color of the text corresponds to red with 'red', the size of the text is '12px' The content of the text is' This content can be watched until it is released as content for a lifetime. Pororo Theatrical Edition Snow Fairy Village Great Adventure. I can match the 'naughty kid ...'.

As shown in FIG. 3, the textual source information 310 may include information corresponding to at least one of location, color, size, and content of text in the form of source code.

Accordingly, the text output information generated based on the text source information 310 is transmitted to the user terminal, so that the user terminal can construct and display text separately from the image.

In addition, when the text and the image are distinguished from each other in the changed portion of the application execution screen, the text and the image included in the changed portion of the text included in the text source information 310 can be distinguished.

You can also check whether the text has been included in the changed part.

4 is a diagram illustrating an example of generating textual source information using text keyword information according to the present invention.

Referring to FIG. 4, the text keyword information according to the present invention may be the minimum information generated by the application server to generate text source information, and the keyword may be applied to a cascading style sheets (CSS) class.

For example, if it is assumed that a text keyword such as 'css_text tit' is included in the text keyword information included in the text message, the cascading style sheets (CSS) class 410 shown in FIG. By adding a class, you can extract CSS properties such as text location, text color, and size.

At this time, it is possible to extract necessary information from a web container such as a browser based on keywords applied to the class.

Thereafter, the cloud streaming server may generate text source information 420 for generating text output information based on the extracted information.

5 is a diagram illustrating a process of capturing an image in a changed portion according to the present invention.

Referring to FIG. 5, the process of capturing an image in a changed portion according to the present invention may first compare a previous frame 510 and a current frame 520 among frames of an application execution screen

For example, assuming that the previous frame 510 and the current frame 520 are composed of four regions corresponding to A, B, C, and D, as shown in FIG. 5, It can be seen that the corresponding region has changed to C 'and D' in the current frame 520.

Thus, the captured image 530 may be generated to include regions corresponding to the changed C 'and D'.

At this time, the cloud streaming server performing the capture can recognize that the text is included in the area corresponding to the changed D 'based on the text message transmitted together with the application execution screen.

Therefore, when generating the captured image 530, only the area corresponding to the remaining image except for the text area 531 corresponding to the text in the area corresponding to D 'is captured and the captured image 530).

Accordingly, in the cloud streaming server, the still image encoding can be performed on an area corresponding to the generated captured image 530, excluding the area corresponding to the text.

6A is a diagram illustrating an example of generating text output information according to the present invention.

Referring to FIG. 6A, it can be confirmed that the text output information 612 is generated when the text message information 611 is included in the text message 610 according to the present invention.

That is, the application server executing the application directly generates the text source information 611 including at least one of the location, color, size, and content of the text, and transmits the text source information 611 together with the application execution screen to the cloud streaming server, The process of generating the text source information 611 in the server may be omitted.

At this time, the text output information 612 may include text source information 611 or may be generated to include contents corresponding to the text source information 611. [

The text output information 612 may further include information related to text to be displayed by the terminal together with the text source information 611. [ For example, it may contain information corresponding to the font or text length of the text and the effect applied to the text.

At this time, the effect applied to the text may correspond to effects of, for example, underline, italics, bold and strikethrough.

6B is a diagram illustrating another example of generating text output information according to the present invention.

Referring to FIG. 6B, it can be confirmed that the text output information 626 is generated when the text message information 621 is included in the text message 620 according to the present invention.

That is, the application server executing the application does not generate the text source information 625 directly, but generates the text keyword information 621 including the minimum information for generating the text source information 625 in the cloud streaming server, Message 620. &lt; / RTI &gt;

Accordingly, the cloud streaming server can generate the text source information 625 using the text keyword information 621 included in the text message 620.

At this time, the cloud streaming server can add or apply the keyword 623 included in the text keyword information to the cascading style sheets (CSS) class 622 to extract the characteristics of the text for generating the text source information 625 have.

At this point, you can extract the characteristics of the text in a web container such as a browser.

Thereafter, the text output information 626 including the text source information 625 generated based on the CSS class 622 and the keyword 623 or containing the content corresponding to the text source information 625 is generated .

6A, the text output information 626 may further include information related to the text to be displayed by the terminal together with the text source information 625. For example, it may contain information corresponding to the font or text length of the text and the effect applied to the text.

At this time, the effect applied to the text may correspond to effects of, for example, underline, italics, bold and strikethrough.

FIG. 7 is a diagram illustrating an image cloud streaming service method by separating an image and text according to an embodiment of the present invention.

Referring to FIG. 7, an image cloud streaming service method for separating an image and text according to an embodiment of the present invention receives an application execution screen and a text message corresponding to an application execution screen (S710).

At this time, the text message includes textual source information including at least one of content, position, color and size of the text in a form corresponding to the source code, and textual keyword information including a keyword capable of generating textual source information And may include any one of the information.

At this time, the text source information may include information such as the content, location, color, and size of the text corresponding to the type of the source code so that the cloud streaming server can recognize the text source information.

For example, using the X coordinate and the Y coordinate based on a vertex of a frame of the application execution screen, the position where the text starts can be represented as 'X = 100 "Y =' 200 ''. You can also use the color name or color number of the text to indicate the color of the text, such as' COLOR = "# 939677" "or" COLOR = "red" "and the size of the text, such as" SIZE = "30px" Lt; / RTI &gt; You can also enter textual content through commands such as 'TEXT =' Please enter text content ''.

That is, according to the above example, 'input text content' may be output as a red 30px text at a position where the coordinates of the frame are (100, 200).

 At this time, the text keyword information may be the minimum information generated by the application server to generate the text source information, and the keyword may be applied to a cascading style sheets (CSS) class. At this time, based on the keywords applied to the class, it is possible to extract all necessary information from a web container such as a browser.

For example, if you add css_text to a CSS class in the same way as <p class = "css_text tit"> (Pororo theatrical version - eye? Lt; / p> , Color, and size to obtain textual source information.

In addition, information related to a plurality of terminals may be received through a communication network such as the network shown in FIG. In particular, a request for the cloud streaming service can be received from the terminal.

In addition, according to an embodiment of the present invention, an image cloud streaming service method for separating an image and a text includes detecting a changed portion by comparing frames of an application execution screen, capturing an image excluding the text among the changed portions, (S720).

At this time, the application execution screen may correspond to a screen as a result of executing the application on the application server according to the user's request. Accordingly, various application execution screens can be generated according to the user's request, and the application execution screen can be dynamic or static depending on the type of the executed application.

Conventional video codec based cloud streaming techniques can capture and encode all frames corresponding to a screen on which an application operates. However, in the case where the frame-to-frame change is not large and static on the screen on which the application operates, the still-image encoding is performed by capturing only the changed region of the changed frame by comparing the frames as in the image-based cloud streaming technique, It is possible to display the parts except for the change area in the same manner and display only the change area.

In this case, it is possible to detect intervals of the frame between the frames of the application execution screen and detect the changed part in the interval where there is little change between the frames. For example, since there are many changed portions between frames, there are many images to be captured, and thus it may be inefficient to provide an image-based cloud streaming service. Accordingly, in such a period, a service can be performed through a cloud streaming technique based on a video codec, and only an image can be captured in a changed portion in order to perform an image-based cloud streaming service only in a period where there is little change between frames.

Therefore, it is possible to detect the changed portion and capture only the image portion excluding the text among the image and text constituting the changed portion.

 At this time, the text and the image can be distinguished from each other based on the position of the text included in the text source information. For example, if it is assumed that both the text and the image are included in the changed portion, the location information of the text included in the text source information generated using the text source information or the text keyword information received from the application server is used Images can be distinguished. That is, if it is assumed that the text starting from the part where the X coordinate and the Y coordinate are (100, 200) included in the changed part detected in the frame is included in the text in consideration of the content and size of the text from the corresponding starting coordinates And the remainder of the changed portion excluding the text region can be recognized as the image region.

Accordingly, by capturing and processing only the image region separated from the text region based on the location of the text, the load generated when performing the still image encoding in the cloud streaming server can be reduced.

At this time, the changed frame can be detected by comparing the previous frame and the current frame among the frames. For example, if there is a change in the current frame when the current frame is compared with the previous frame, the changed part of the entire frame of the current frame can be detected as the changed part. In addition, the image captured at the changed portion may vary in size or property depending on the input signal input from the user terminal.

At this time, it is possible to compress the image by selecting a still image encoding method suitable for various characteristics such as the characteristics of the image captured by the application execution screen, the performance of the user terminal receiving the service or the bandwidth of the data transmission.

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 addition, according to an embodiment of the present invention, an image cloud streaming service method of separating an image and text generates text output information based on a text message so that a user can display text at a user terminal (S730).

At this time, the user terminal may be a device that receives data from the cloud streaming server and displays an application execution screen corresponding to the data. That is, the terminal may be a device capable of corresponding to a mobile communication terminal, an information communication device, a multimedia terminal, a wired terminal, a fixed terminal, and an IP terminal. Accordingly, the cloud streaming server can generate text output information corresponding to a form recognizable by the apparatus, in order to provide information that can represent text to the terminal.

At this time, the text output information may include textual source information received via a text message. In addition to the textual source information, the textual output information may include all information related to the text required to represent the text in the terminal.

In addition, according to an embodiment of the present invention, an image cloud streaming service method of separating an image and text includes a step of displaying an application execution screen including text on a terminal, a still image- (S740). Since the still image encoded image is captured and still image encoded except for the area corresponding to the text in the changed portion, the terminal can transmit the text output information together to indicate the area corresponding to the text.

At this time, text output information including text source information can be transmitted to the terminal. That is, in order for the terminal to recognize which text to output through the text output information, the text output information may be transmitted in the form of a source code that the terminal can recognize. Accordingly, the text information created in the form of the source code is included in the text output information and transmitted to the terminal, so that the terminal can smoothly recognize the text information.

In addition, although not shown in FIG. 7, the image cloud streaming service method of separating an image and text according to an embodiment of the present invention applies a keyword to a class of cascading style sheets (CSS) Color and size, and generates textual source information using at least one extracted information.

Depending on the type of the application server that executes the application according to the user's request, the text message information corresponding to the application execution screen may be included in the text message and transmitted, or only the text keyword information may be included in the text message and transmitted.

At this time, if the text message includes text source information, text output information can be generated based on the text message. However, if text keyword information is included, the keyword is applied to cascading style sheets (CSS) Information can be generated and used.

For example, the class information can be obtained through the text keyword information, and the CSS class can be added using the obtained class information, so that the information can be extracted for the added class in the browser such as the web container. That is, if the application server providing the VOD transmits the keyword 'css_vod_text' including the summary information about the VOD with the text keyword information, the cloud streaming server adds 'css_vod_text' to the CSS class to correspond to the VOD summary information Information corresponding to at least one of content, position, color, and size of text to be extracted.

Therefore, the text source information included in the text output information to be delivered to the terminal can be generated based on the extracted information.

Although not shown in FIG. 7, the image cloud streaming service method by separating images and texts according to an embodiment of the present invention may include a variety of methods Store information.

According to the embodiment, the storage medium storing the information generated in the cloud streaming service process may be configured independently of the cloud streaming server to support the function for the cloud streaming service. At this time, the storage medium 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 method may be implemented as one or more servers.

Meanwhile, a cloud streaming server that performs the above-described method can store information in the device by mounting a 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.

By providing an image-based cloud streaming service with a higher response speed than the conventional technology using the image cloud streaming service method, smooth and convenient service can be provided to users.

8 is a detailed view illustrating an image cloud streaming service method by separating an image and text according to an embodiment of the present invention.

8, an image cloud streaming service method for separating images and texts according to an embodiment of the present invention includes an application execution screen corresponding to an application executed according to a user request from an application server, The corresponding text message is received (S810).

At this time, the text message includes textual source information including at least one of content, position, color and size of the text in a form corresponding to the source code, and textual keyword information including a keyword capable of generating textual source information And may include any one of the information.

Thereafter, frames of the application execution screen are compared with each other to detect a changed portion (S820).

In this case, it is possible to detect intervals of the frame between the frames of the application execution screen and detect the changed part in the interval where there is little change between the frames.

In addition, the previous frame and the current frame of the frames can be compared to detect the changed portion.

Thereafter, it is determined whether text is included in the area corresponding to the changed part (S825).

At this time, it is possible to determine whether the text is included in the changed part by using the text message transmitted together with the application execution screen. At this time, the location where the text is included can be known through the text source information generated based on the text source information or the text keyword information included in the text message, and the location where the text is included in the area corresponding to the changed part It can be confirmed and judged.

If it is determined in step S825 that text is included in the region corresponding to the changed portion, the text and the image are distinguished in the region corresponding to the changed portion in operation S830.

At this time, similarly to the step S825, the text and the image can be distinguished by using the position including the text.

Thereafter, only the images separated in the region corresponding to the changed portion are captured (S840).

Thus, by capturing and processing only the image region separated from the text region based on the position of the text, it is possible to reduce the load generated when the still image encoding is performed in the cloud streaming server.

Thereafter, in step S845, it is determined whether text message information is included in the text message in order to transmit text separated from the image in the area corresponding to the changed part, as text output information capable of recognizing by the terminal.

If it is determined in step S845 that the text message information is not included in the text message, it is determined that the text keyword information is included, and the text source information is generated using the keyword included in the text keyword information (S850).

At this time, the text keyword information may be the minimum information generated by the application server to generate the text source information, and the keyword may be applied to a cascading style sheets (CSS) class. At this time, based on the keywords applied to the class, it is possible to extract all necessary information from a web container such as a browser.

If it is determined in step S845 that the text message includes text source information, text output information is generated based on the text source information (S860).

In addition, the text output information may be generated based on the text source information generated based on the text keyword information in step S850.

At this time, the user terminal may be a device that receives data from the cloud streaming server and displays an application execution screen corresponding to the data. That is, the terminal may be a device capable of corresponding to a mobile communication terminal, an information communication device, a multimedia terminal, a wired terminal, a fixed terminal, and an IP terminal. Accordingly, the cloud streaming server can generate text output information corresponding to a form recognizable by the apparatus, in order to provide information that can represent text to the terminal.

Thereafter, the captured image is still image encoded (S870).

If no text is included in the area corresponding to the changed part as a result of the determination in step S825, all the areas corresponding to the changed part are determined as images and captured (step S880). Then, step S870 is performed, One image can be still image encoded.

At this time, it is possible to compress the image by selecting a still image encoding method suitable for various characteristics such as the characteristics of the image captured by the application execution screen, the performance of the user terminal receiving the service or the bandwidth of the data transmission.

Thereafter, the still image encoded image and the text output information generated based on the text source information are transmitted together with the user terminal (S890).

9 is a flowchart illustrating an image cloud streaming service process by separating images and texts according to an embodiment of the present invention.

Referring to FIG. 9, in step S902, the web application server receives a user request from the user terminal 120-1. The image cloud streaming service process includes separating an image and text according to an embodiment of the present invention.

Thereafter, the web application server executes an application corresponding to the user request (S904).

Thereafter, the web application server executes the application and transmits the generated application execution screen together with the text message corresponding to the application execution screen to the receiving unit of the cloud streaming server 110 (S906).

Thereafter, the receiving unit of the cloud streaming server 110 receives the application execution screen and the text message, transfers the application execution screen and the text message to the capture unit, and detects the changed part in the application execution screen (S910).

In this case, it is possible to detect intervals of the frame between the frames of the application execution screen and detect the changed part in the interval where there is little change between the frames.

In addition, the previous frame and the current frame of the frames can be compared to detect the changed portion.

Thereafter, the capture unit of the cloud streaming server 110 distinguishes the text and the image based on the text source information included in the text message (S912).

At this time, text and image can be distinguished by using the text position information included in the text source information.

Thereafter, the capture unit of the cloud streaming server 110 captures only the separated images and transmits them to the encoding unit (S914).

Thereafter, the encoding unit of the cloud streaming server 110 compresses the captured image by the still image encoding method (S916).

At this time, it is possible to compress the image by selecting a still image encoding method suitable for various characteristics such as the characteristics of the image captured by the application execution screen, the performance of the user terminal receiving the service or the bandwidth of the data transmission.

In addition, the text output information generating unit of the cloud streaming server 110 generates text output information based on the text message received from the web application server (S918).

At this time, if the text message includes the text source information, the text output information including the text source information and information related to the other text can be generated.

If text message information is included in the text message, the keyword of the text keyword information is applied to a cascading style sheets (CSS) class to generate text source information based on the extracted information, and based on the generated text source information Text output information can be generated.

Thereafter, the sending part of the cloud streaming server 110 transmits the text output information together with the still image encoded image to the user terminal 120-1 (S920).

Thereafter, the user terminal 120-1 receives the still image encoded image and the text output information, and renders the still image encoded image (S922).

In addition, the text to be output together with the rendered image is configured using the received text output information (S924).

Thereafter, the terminal 120-1 displays an application execution screen to the user using the rendered image and the composed text (S926).

The image cloud streaming service method by separating images and texts according to the present invention can be implemented in the form of program instructions that can be executed through various computer means and recorded on 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 by separating images and texts, and the apparatus therefor are not limited to the configuration and method of the embodiments described above , The above embodiments may be constructed by selectively combining all or a part of each embodiment so that various modifications can be made.

According to the present invention, it is possible to receive a text message corresponding to an application execution screen together with an application execution screen, to detect a changed part by comparing frames of an application execution screen, capture an image excluding text among the changed parts, A still image encoding method for compressing a still image encoding method, generating text output information based on a text message so that a user terminal can display text, and displaying still image encoded image Can be transmitted to the terminal together with the output information. Further, in the image-based cloud streaming service, it is possible to improve the response speed of the system by reducing the amount of data to be transmitted to the terminal, and thus it is possible to operate the system more efficiently.

110: Cloud streaming servers 120-1 to 120-N:
130: Network 210: Receiver
220: capture unit 230: encoding unit
240: Text source information generating unit 250: Text output information generating unit
260: sending unit 270: storing unit
310, 420, 611, 625: text source information
410, 622: CSS class
510: previous frame 520: current frame
530: captured image 531: text area
610, 620: text message 612, 626: text output information
621: text keyword information 623: keyword

Claims (10)

A receiving unit for receiving a text message corresponding to the application execution screen together with an application execution screen;
A capturing unit for comparing the frames of the application execution screen to detect a changed part, and capturing an image excluding the text among the changed parts;
An encoding unit compressing the captured image in a still image encoding manner;
A text output information generating unit for generating text output information based on the text message so that the user terminal can display the text; And
And transmitting the still image-encoded image to the terminal together with the text output information so that the terminal can display the application execution screen including the text,
Wherein the server comprises: The method according to claim 1,
The text message
The text source information including at least one of the content, the position, the color, and the size of the text in a form corresponding to the source code, and the text keyword information including the keyword capable of generating the text source information Wherein the server comprises: The method of claim 2,
The cloud streaming server
Extracts at least one piece of the content, position, color, and size of the text by applying the keyword to a class of cascading style sheets (CSS), and generates the textual source information using the extracted at least one piece of information And a text source information generating unit. The method of claim 3,
The sending unit
And transmits the text output information including the text source information to the terminal. The method of claim 4,
The capture unit
And distinguishes the text and the image from the changed portion based on the position of the text included in the text source information. The method of claim 5,
The capture unit
Wherein the controller detects the changed portion by comparing a previous frame and a current frame among the frames. Receiving a text message corresponding to the application execution screen together with an application execution screen;
Comparing the frames of the application execution screen to detect a changed portion, capturing an image excluding the text among the changed portions, and compressing the captured image by a still image encoding method;
Generating text output information based on the text message so that the user terminal can display the text; And
Transmitting the still image encoded image to the terminal together with the text output information so that the terminal can display the application execution screen including the text
The method of claim 1, wherein the image cloud streaming service comprises: The method of claim 7,
The text message
The text source information including at least one of the content, the position, the color, and the size of the text in a form corresponding to the source code, and the text keyword information including the keyword capable of generating the text source information The method of claim 1, wherein the image cloud streaming service comprises: The method of claim 8,
The image cloud streaming service method
Extracting at least one of content, position, color, and size of the text by applying the keyword to a class of cascading style sheets (CSS); And
And generating the textual source information using the extracted at least one piece of information. The image cloud streaming service method according to claim 1, The method of claim 9,
The transmitting step
And transmitting the text output information including the text source information to the terminal. The image cloud streaming service method according to claim 1,

Images