KR20140005522A - Real-time virtual system composition method and real-time virtual system - Google Patents

Abstract

The present invention relates to an organization method of a real-time virtualization system connected to a various platforms based smart device and the real-time virtualization system connected to the smart device. The real-time virtualization system comprises a smart device (20) including an input information reception unit (21) capable of supporting the output of digital images and the input of user events; an image information transmission device (30) for transmitting the image information output from the smart device to the outside by processing the image information; an image information reception device (35) for transmitting the received image information to an image information station (40) by processing the received image information; the image information station (40) for outputting the received image information of the image information reception device (35) on a large-screen display device (50); and the display device (50) comprising an event sensing module (51) and supporting a human input interface for displaying the image information transmitted from the image information station (40). The real-time virtualization system has effects for enabling a plurality of users to share content and application driven in the display device for supporting the human input interface to improve the utility for the content included in personal smart devices; for improving usage values of the devices and usage efficiency in the display device for supporting the high-priced human input interfaces; and for dynamically driving the applications or the content in the smart devices. [Reference numerals] (51) Event sensing module

Description

Construction method of real-time virtualization system interoperating with various platform-based smart devices and real-time virtualization system interoperating with various platform-based smart devices {real-time virtual system composition method and real-time virtual system}

The present invention relates to a method for building a real-time virtualization system interoperating with smart devices based on various platforms and a real-time virtualization system interoperating with smart devices, and more specifically, to Google Android, Linux, and Microsoft. Various platforms-based smart devices, including Windows (MS Window), Apple IOS, etc. can be shared by a number of applications that depend on computers, laptops, etc. A method of building a real-time virtualization system that can be used in the field, and enables interactive communication between a smart device and a display device supporting a human input interface, which can be useful for presentation events, and such construction. To provide real-time virtualization system that is implemented by law.

Smart platforms (smartphones, tablet PCs, laptops, etc.) that are currently being deployed can be utilized in various fields by enabling applications of various contents such as games, education, finance, presentations, entertainment, medical, social, etc. However, since the application runs only on a small screen provided in the smart device, it is used only for the user. The necessity of a system for sharing (using) an application running on the smart device with a large number of users using a large screen image device. Is being raised.

In recent years, various events such as various conferences, seminars, and presentations have been held in various events where information is provided and exchanged. In order to transmit accurate and accurate information, a beam projector and a screen are utilized or a presentation method using a large- And the type and scope of the presentations will gradually increase, so that there is an urgent need for an efficient communication-type presentation system that can be flexibly applied to various types of presentations.

Also, in the case of a large-sized display device used for a presentation event, the expensive equipment having a considerable scale. However, since such costly equipment is used for a specific event, the cost efficiency is low. .

The content of the personal portable smart device is dependent on the platform of the corresponding device, and among the plurality of contents, there are many contents that are operated only on a specific limited platform, so that the smart devices having different operating systems can not share or use with each other. For example, content provided by the Android operating system can not be used in IOS or Windows-based computers or laptops, and content supporting both Android and OS operating systems can not be used in ordinary computers and laptops.

Also, among various contents downloaded from a smart device, there are many free contents, but these free contents are usually a lite version which prevents some functions of paid contents from being used, and since such pop-up advertisements appear during the operation of free contents, And most of the useful and convenient contents are operated by expensive paid sales. In order to download all the paid contents required for each smart device, the cost burden will be considerable.

Accordingly, various operation methods for sharing contents of smart devices having different operating systems have been suggested. However, since most of the conventional operation methods use wired cables, there are many restrictions on the use distance and usage place, It is at a level that is simple enough to view images that are distributed through display devices in sharing with a large number of users.

The present invention has been created to eliminate the problems associated with the operation and purchase of the content as described above and all the problems associated with the sharing and use of the content by the smart device, so as to have independence of the platform of all smart devices, By linking with devices that support multimodal interfaces, such as touch screens, multiple users can participate in not only simple video sharing but also active participation of various contents that depend on smart devices with different operating systems. It aims to provide a completed real-time virtualization system that focuses on technical challenges by making it more interactive.

That is, the present invention processes a driving screen output in real time from a smart device to output an image to a display device supporting a user input interface such as motion, voice, keyboard, pen, mouse, touch, and the like, and to display the device through the user input interface. By sending the input user event (data) to the smart device, it is possible to run various applications depending on the platform running on the smart device in the system capable of two-way communication to the various content dependent on the smart device based on various platforms It aims to provide a real-time virtualization system that works with smart devices with the focus of technical challenges in enabling sharing and use.

On the other hand, presentations are used to improve efficiency in various trainings, seminars, lectures, and presentations.In the case of the existing presentations, they are built for the unilateral progression of the presenter. The larger the event, the greater the phenomena and the worse the phenomenon. Depending on the type of event, there may be a need for active exchange of opinions between the presenter and attendees or participants. As it is only suitable for the initiative, problems such as active and smooth exchange of opinions among members of the event are pointed out.

Accordingly, another object of the present invention is to build an interactive real-time virtualization system linked to one by using a portable smart device and a display device supporting a human input interface, and a human input interface such as motion, voice, keyboard, pen, mouse, and touch. By providing a real-time virtualization system that enables interactive communication between smart devices and display devices that support the human input interface, eliminating gaps between hosts and participants, and enabling dynamic and efficient communication (presentation) events. To be.

According to an aspect of the present invention, there is provided an image synchronization step of allowing a smart device and a display device supporting a human input interface to share the same image information; Output of a digital image and operation of an application driven on the screen, support of a human input interface such as voice, keyboard, pen, mouse, touch, etc. and output from a specific smart device among one or more smart devices having input information receiving means An image output step of processing and outputting the specific image information to an image transmission device; The image information transmitted from the image transmitting apparatus is processed and transmitted to the image information station including the input information transmitting means, and the image information station transmits the received image information to the human input interface such as motion, voice, keyboard, pen, mouse, and touch. An image display step of displaying image information on a screen by transmitting to a display device capable of supporting the image; When a user event such as motion, voice, keyboard, pen, mouse, touch, etc. on the image displayed on the screen of the display device supporting the human input interface occurs, the user event is transmitted to the video information station, and the video information station input information. A user event signal transmission step of transmitting input information through a transmission means; The user of the input information receiving means of each smart device receives the user event signal transmitted through the input information transmitting means of the video information station, and the user event made in the display equipment supporting the human input interface in the smart device is implemented equally It is a technical feature that the construction of the real-time virtualization system is achieved by the event output step.

The construction method of the real-time virtualization system proposed by the present invention can be easily constructed by using various portable portable platform-based personal smart devices (tablet PC, smart phone, laptop, etc.) or a display device supporting a computer and a human input interface. According to the present invention, the real-time virtualization system constructed by the present invention can increase the utilization of various contents depending on individual smart devices by sharing a beneficial application with multiple users through a display device supporting a human input interface. In addition, it is possible to improve the use efficiency and the use value of the display equipment supporting the expensive human input interface, as well as the dynamic operation of the various contents running on the smart devices.

After all, according to the present invention, a variety of content dependent on a variety of platform-based smart devices, including Google Android (Linux), Linux (Microsoft Windows), Apple IOS (Apple IOS), etc. By allowing multiple users to share and use without distinction, it is possible to provide a virtualization system that can share and use content among necessary members while preventing duplicate purchases of contents due to heterogeneous operating systems, thereby purchasing substantial content. In addition to economic benefits, it is also possible to interactively utilize various contents depending on smart devices running different operating systems.

In addition, the real-time virtualization system proposed in the present invention can be used for presentation events, and there is a difference between the presenter and the attendees because interactive communication between the smart device and the large display device is possible and does not depend on the unilateral progress of the presenter. Not only can you increase the concentration of your presentations, you can improve your presentations by increasing attendees' active participation, and you can effectively and dynamically present your presentations without using expensive equipment or special equipment. It is possible to obtain economic benefits, and it is expected that this will be used flexibly in presentation events of various sizes to maximize the effect of the presentation event.

1 is a process chart for building a real-time virtualization system proposed in the present invention.
2 is a block diagram of a real-time virtualization system proposed in the present invention.
3 is an operation flowchart of a real-time virtualization system proposed in the present invention.

Embodiment of the Invention

1 is a process diagram for the construction of the real-time virtualization system 10 proposed in the present invention, the present invention through the display device 50 supporting the portable personal smart device 20 and the human input interface through the bar Video synchronizing step (A) for sharing the same video information, video output step (B) using the smart device 20, video display step (C) using the display equipment 50 supporting the human input interface, The user event input information transmission step (D) and the user event input information output step (E), etc. using the input information transmission means 41 and the input information receiving means 21 can be confirmed that the present invention is preferred. Specific implementation is carried out as follows.

The image synchronization step (A) is a step for allowing the smart device 20 and the display device 50 supporting the human input interface to share the image information. The at least one smart device 20 is connected to the image information transmission device 30. ) And by displaying the same image on the display device 50 supporting the human input interface and the smart device 20 by the remote control means or the self-operation of the image information receiving device 35, the smart device 20 and the human It is configured to synchronize the display image of the display device 50 supporting the input interface.

Image output step (B) is a step for outputting the image information generated in a specific smart device 20, the driving of the application on any smart device 20 of the smart device 20 connected to the image information transmission device 30 Image information is transmitted to the image information transmission device 30, and occurs in the smart device 20 when a user event such as an operation, voice, keyboard, pen, mouse, touch, etc. occurs in any smart device 20. Image information including the user event is transmitted to the image information transmission device 30, the image information transmission device 30 processes the image information data generated in response to the driving of the application or the user event to the image information receiving device (35). Configure to send.

In this case, the smart device 20 may drive various contents or applications such as a tablet PC, a smart phone, a notebook, or a notebook, and may operate, voice, keyboard, pen, mouse, and touch. A terminal of various platforms capable of supporting a human input interface, such as the above, may be used, and the smart device 20 includes an input information receiving unit 21 capable of receiving externally generated input information, and includes a smart device ( The input information receiving means 21 provided in 20) is for receiving and processing user event information (touch coordinates, etc.) generated from the display device 50 supporting the human input interface, and is suitable for performing such a function. Built-in Bluetooth communication or external Bluetooth dongle available as programmed or off-the-shelf product Etc. can be used selectively.

The image display step (C) is a step for outputting the image information output from the smart device 20 to the large-screen display device 50, the image information receiving device receiving the image information transmitted from the image transmission device 30 ( 35 processes the received image information and transmits the received image information to the image information station 40, and the image information station 40 transmits the received image information to the display device 50 supporting the human input interface. Content or user running on any smart device 20 through the display device 50 or the smart device 20 supporting the human input interface by displaying the video information or user event video information transmitted from the A plurality of members are configured to share the video information according to the event.

In this case, the video information station 40 is provided with an input information transmitting means 41 for transmitting the user event information generated in the display device 50 supporting the human input interface to the outside, the video information station 40 ) May be used for a computer (PC) or a program server capable of processing image information and user event information and input / output of the information. On the other hand, the input information transmitting means 41 provided in the image information station 40 has a built-in Bluetooth communication means or external Bluetooth dongle released as a product or a ready-made product suitable for transmitting user event information. (bluetooth dongle) may be selectively used, and the display device 50 supporting the human input interface supports user event input such as motion, voice, keyboard, pen, mouse, and touch.

The user event information transmitting step (D) is a step for outputting user event information made in the display device 50 supporting the human input interface. When a user event such as an action, voice, keyboard, pen, mouse, or touch occurs, The event detection module 51 which detects this transmits the user event information to the image information station 40, and the image information station 40 is configured to transmit the user event information to the outside through the input information transmitting means 41. do.

Event information output step (E) is a step for outputting a user event generated in the display device 50 supporting the human input interface to each smart device 20, the input information receiving means 21 of each smart device 20 ) Receives the user event information transmitted through the input information transmitting means 41 of the image information station 40, and the user event information received by the input information receiving means 21 is displayed on each smart device 20. By configuring so that the display device 50 supporting the human input interface and each smart device 20 is configured to share the image information and the user event.

2 is a block diagram of the real-time virtualization system 10 proposed in the present invention, through which the present invention transmits the image information associated with one or more smart device 20, smart device 20 and the cable, etc. The apparatus 30, the image information receiving apparatus 35 which is connected to the image information transmitting apparatus 30 by wireless communication means, the image information station 40 which is connected with the image information receiving apparatus 35, and the cable, and the image information station It can be seen that the display device 50 is connected to the 40 and the cable and supports the human input interface.

The smart device 20 may drive various contents or applications such as a tablet PC, a smart phone, a notebook, a notebook, and the like, and may include an operation, a voice, a keyboard, a pen, a mouse, a touch, and the like. It is configured to enable the support of the user event and to have input information receiving means 21 for receiving external input information. In this case, the smart device 20 may be a smart device 20 based on various platforms including Google Android, Linux, Microsoft Windows, Apple IOS, and the like. It includes everything.

The image information transmission device 30 is configured to process the image information of the content or application driven by any of the smart devices 20 of the smart device 20 to transmit to the outside, the image information receiving device 35 is The image information transmitted from the image information transmission device 30 is processed and transmitted to the image information station 40.

The image information station 40 is connected to the image information receiving apparatus 35 to receive the image information, output the image information to the display device 50 supporting the human input interface, and control the event detection module 51. Input information transmission means for receiving the user event information generated in the display device 50 that supports the human input interface, and transmits it to the input information receiving means 21 of the smart device 20, the control program built therein It is comprised so that 41 is provided.

 The display device 50 is configured to display the image information transmitted from the image information station 40 in connection with the image information station 40, the display device 50 supporting the human input interface operation, voice, keyboard It is configured to include an event detection module 51 for supporting a user event input, such as a pen, a mouse, a touch.

The video information station 40 is provided with an input information transmitting means 41 that can transmit the event information generated by the event detection module 51 to the outside, the video information station 40 is built with a data processing program Or a ready-made computer or a program server capable of processing input / output of image information data and user event information.

The input information receiving unit 21 and the input information transmitting unit 41 provided in the smart device 20 and the image information station 40 may receive user event information generated from the display device 50 supporting the human input interface. It is designed to transmit and receive and process it. Optionally, you can use built-in Bluetooth communication means or external Bluetooth dongle that is released as a product that is programmed to perform such a function or a ready-made product. .

<Relationship of Invention>

The present invention having the above configuration is a real-time virtualization system 10 as long as the display device 50 supporting the human input interface and a means capable of acting as the video information station 40 or the video information station 40 are provided. According to the present invention, one or more smart devices 20 are connected to the image information transmission device 30, and the image information station 40 connected to the display device 50 supporting the human input interface. ) Connects the image information receiving device 35 to the display device 50 and drives the display device 50 supporting the human input interface with each smart device 20 through the image information transmitting device 30 and the image information receiving device 35. Disks that support the human input interface with each member sharing content or application video by synchronizing the content or application video Interactive communication between the display device 50 supporting the human input interface and the smart device 20 is made possible by mutually transmitting and receiving a user event occurring in the ray device 50 and the smart device 20. With reference to Inba, Figure 3 will be described in detail the working relationship of the present invention.

Image information output from any smart device 20 is transmitted to the video information transmission device 30 in a state in which each smart device 20 and the video information transmission device 30 are connected (step S1). If a user event such as an operation, voice, keyboard, pen, mouse, or touch occurs in step S1a of any of the smart devices 20, the changed image information according to the corresponding event is transmitted to the image information transmitting device 30. Is processed and transmitted to the image information receiving apparatus 35 (steps S2 to S3), and the image information receiving apparatus 35 processes the received image information and transmits the received image information to the image information station 40 (steps S4 to S6). ) The video information station 40 inputs the video information to the display device 50 supporting the human input interface, and the video information transmitted from any smart device 20 is displayed on the screen of the big screen display device 50. (S7 ~ S8 step)

When a user event such as operation, voice, keyboard, pen, mouse, touch, etc. occurs in the display device 50 supporting the human input interface by the user (step S9), the event information is displayed by the event detection module 51. It is transmitted to the information station 40 and the image information station 40 is processed through the input information transmission means 41 after processing the user event information (step S10), receiving the input information provided in each smart device 20 The means 21 processes the user event information received through the input information transmitting means 41 to generate an event in the smart device 20 so that the user event generated in the display device 50 supporting the human input interface is smart. The same is implemented in the device 20.

When the real-time virtualization system 10 proposed in the present invention is used for a presentation event, the smart device 20 carrying the user event of the presenter through the display device 50 supporting the human input interface as described above. In the same way, on the contrary, by allowing the attendee to operate the smart device 20 to display the user event of the attendee on the display device 50 supporting the human input interface, the attending members of the presentation event have the same video information. In addition to sharing the information, all members can display the image information to be shared on the display device 50 that supports the human input interface as needed, thereby, interactive communication using the real-time virtualization system 10 Each phrase by this is possible Eliminating goerigam between the original lines are able to proceed to a dynamic and effective presentation ceremony.

10: real-time virtualization system 20: smart devices
21: input information receiving means 30: video information transmission device
35: video information receiving device 40: video information station
41: input information transmission means 50: display equipment
51: event detection module

Claims (3)

A human input interface having at least one smart device 20 and an event sensing module 51 having various platform bases capable of driving various contents or applications and supporting user event input and including input information receiving means 21. Synchronizing the display image of each smart device 20 with the big screen display device 50 by displaying the same image on the display device 50 supporting the display device 50;
Any smart device 20 of the smart device 20 drives content or an application and transmits the image information to the video information transmitting device 30, and when a user event occurs in any smart device 20, The image information changed by the event is transmitted to the image information transmitting device 30, and the image information transmitting device 30 processes the image information received from the smart device 20 and transmits the image information to the image information receiving device 35. Image output step;
The image information receiving apparatus 35 receiving the image information transmitted from the image information transmitting apparatus 30 processes the image information data and transmits the image information data to the image information station 40. The image information station 40 receives the received image information. To display device 50 supporting the human input interface including the event detection module 51 to display the image information of the content or application running on any smart device 20 to support the human input interface ( An image display step of being displayed on 50);
When a user event occurs in the display device 50 supporting the human input interface, the event detection module 51 detects the user event and transmits the user event information to the image information station 40, and the image information station 40 receives the input. A user event information transmitting step of transmitting user event information to the outside through the information transmitting means 41;
The input information receiving means 21 of each smart device 20 receives the user event information transmitted through the input information transmitting means 41 of the image information station 40, and the human on the screen of each smart device 20. Method of building a real-time virtualization system that interoperates with a smart device based on a variety of platforms, characterized in that it comprises a user event output step for the user event generated in the display device 50 supporting the input interface to be implemented the same. A smart device 20 capable of driving various contents or applications, capable of supporting user event input on a running content or application, and having input information receiving means 21 for receiving externally generated user event information;
Receives image information by connecting to the smart device 20, and when driving any content or application in any of the smart device 20 of the smart device 20 receives the image information data according to the processing and transmit to the outside, arbitrary When the user event occurs in the smart device 20 of the video information transmission device 30 to receive and process the image information changed according to the user event to transmit to the outside;
An image information receiving device (35) which receives and processes the image information transmitted from the image transmitting device (30) and transmits the processed image information to the image information station (40);
Receives the image information of the image information receiving device 35 and outputs the image information to the display device 50 supporting the human input interface, and includes a control program for controlling the event detection module 51 and the display device ( Image information station having an input information transmitting means 41 for receiving the user event information detected by the event detection module 51 of the 50 to transmit to the input information receiving means 21 of the smart device 20 ( 40);
Display equipment 50 that is connected to the image information station 40 to display the image information transmitted from the image information station 40 and has an event detection module 51 for supporting user event input and supports a human input interface. Real-time virtualization system that works with a variety of platform-based smart devices, characterized in that consisting of. The method of claim 2;
The input information receiving means 21 provided in the smart device 20 and the input information transmitting means 41 provided in the image information station 40 are built-in Bluetooth communication means or an external Bluetooth dongle. Real-time virtualization system that works with a variety of platform-based smart devices, characterized in that configured.

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