KR101236554B1 - An apparatus and a method for transmitting universal stream data using function of usb mass storage device - Google Patents

Abstract

PURPOSE: A general purpose stream transmitting device by using a mass storage device function of a USB and a method thereof are provided to play data stored in the general purpose stream transmitting device through a media play function by recognizing the device as a USB mass storage device. CONSTITUTION: A data receiving unit(100) receives meta information of multimedia content and stream data for the multimedia content played in a first multimedia device. A data converting unit(110) converts real data of the multimedia content into virtual file data. A virtual mass storage device(130) generates a virtual disk for the virtual file data by using the meta information and outputs the virtual file data stored in the virtual disk. A virtual file system(120) stores the converted file data in the virtual disk. [Reference numerals] (100) Data receiving unit; (110) Data converting unit; (120) Virtual file system; (130) Virtual MSC device; (140) USB transmission unit; (150) Control unit

Description

An apparatus and method for transmitting universal stream data using function of USB Mass Storage Device

The present invention relates to a device for transmitting stream data, and more particularly, to use a recognition function of a USB mass storage device provided by multimedia playback devices (for example, smart TV, smart pad, MP3 player, PC, etc.). In order to transmit multimedia data without installing a separate device driver for transmitting and receiving images and sound sources, multimedia contents can be reproduced.

In modern times, a number of smart multimedia devices such as smart phones, smart pads (tablet pcs), and smart TVs are being produced, and many of these multimedia devices are used in a huge range of games, movies, and learning.

As in many commercials, the same movie is played continuously on TV as soon as someone outside sees the movie using a smartphone. This is a multimedia device such as a smart phone to transmit the image to the smart TV via wireless, the smart TV receives the image data transmitted from the multimedia device, such as a smart phone through the receiver to display on the screen.

Here, the receiver used is divided into an internal receiver and an external receiver. Built-in receivers must be built by the manufacturer at the time of production. However, the communication method used by the receiver selects one or more of various communication methods such as Wi-Fi, Bluetooth, WiDi, UWB, RF, Wibro, WCDMA, WiGig, and WHDI. You can't change it until you do.

External receivers are manufactured separately from smart TVs and require various connection interfaces such as HDMI, DVI, and D-SUB to connect to various devices (smart TVs, smart phones, smart pads, PC monitors). Since the interfaces cannot transmit control signals, a separate remote controller is required to control the displayed image (pause, rewind, forward, etc.), which adds to the complexity of the control.

In addition, most smart TVs support the USB port in common, so that the external receiver can be controlled using the USB port, but there is a need to install a separate driver and difficulty in supporting a driver when using a third-party product.

Many solutions have been proposed to solve the above problems. Currently, the most interest is the Digital Living Network Alliance (DLNA).

DLNA means that devices in the same IP band share content over a network between devices with network functions such as Ethernet, Wi-Fi, and Bluetooth. DLNA is currently supported by numerous electronic products, and it is rapidly spreading to about 200 million units in 2008 and 300 million units in 2012.

However, there aren't many cases where DLNA is so smoothly used. The reason is compatibility and inconvenience of use. To use DLNA on certain manufacturers' TVs, you must purchase a separate wireless dongle. These wireless dongle must purchase a specific product manufactured and sold by a specific manufacturer rather than a universal wireless adapter. In addition, an access point for connecting the wireless dongle is also required. And, even if all of these are equipped, it requires a separate compatibility, you need to ask the manufacturer for compatibility. After all, there are many smart devices that support DLNA, but the use of DLNA is relatively low.

On the other hand, SMB (Server Message Block) is a file / printer sharing protocol used under the Wondoz operating system, it is possible to use a TCP / IP or Net BIOS extended user interface (NetBEUI) as a network adapter. SMB makes it easy to share content over the network, but it is limited to PC-based ones and is not supported by home appliances such as digital TVs and digital audio, which is far from the future smart sharing environment. In addition, even if the SMB is to be supported by new home appliances will have a time limit because it is not a problem with a number of existing home appliances.

The problem to be solved by the present invention, by using the USB storage device storage function, the large storage of USB to provide and display the stream data to the multimedia device without installing a separate device driver for transmitting and receiving images A general purpose stream transmission apparatus and method using a device function.

According to an aspect of the present invention, there is provided a general-purpose stream transmission apparatus using a mass storage device function of a USB device, comprising: a data receiving unit configured to receive stream data and metadata of a multimedia content from a first multimedia device; A data converter converting the stream data received by the data receiver into virtual file data; A virtual mass storage device for outputting the virtual file data stored in a virtual disk according to a request of a second multimedia device; A virtual file system for storing the virtual file data converted by the data converter on the virtual disk of the virtual mass storage device; A USB transmitter to transmit the virtual file data stored in the virtual mass storage device to the second multimedia device; And a controller configured to control operations of the data receiver, the data converter, the virtual mass storage device, the virtual file system, and the USB transmitter, respectively.

The data receiver includes at least one of a wired interface module and a wireless interface module, and receives the stream data using any one of the wired interface module and the wireless interface module.

The data converter may convert only data of a predetermined size representing the stream data into a part of the virtual file data.

The virtual file system determines whether the virtual file data exists in a predetermined sector of the virtual disk, and if the virtual file data does not exist in the predetermined sector, the virtual file system corresponds to the virtual file data in the first multimedia device. And requesting the stream data.

The virtual file system may request stream data, which is expected to be requested by the second multimedia device, from the first multimedia device.

The virtual mass storage device determines whether a communication network for data transmission and reception is connected to the first multimedia device, and if the communication network is connected, requests the meta information from the first multimedia device, and the first multimedia device. The virtual disk is generated using the meta information provided from a device.

The virtual mass storage device determines whether there is a request for data stored in a predetermined sector of the virtual disk from the second multimedia device, and if there is a data request for the predetermined sector, the virtual file corresponding to the predetermined sector. And calculating the data and transmitting the calculated virtual file data to the second multimedia device.

The first multimedia device and the second multimedia device may include at least one of a smart phone, a tablet PC, a notebook computer, a PDA, a general purpose PC, and a smart TV.

In the general-purpose stream transmission method using the mass storage function of the USB according to the present invention for solving the above problems, when the meta information of the multimedia content is received from the first multimedia device having the multimedia content, the virtual mass storage device is the meta-storage. Creating a virtual disk using the information; Converting, by the data converter, the stream data into virtual file data when receiving the stream data for the multimedia content from the first multimedia device; Storing the converted virtual file data on the virtual disk by the virtual mass storage device; And transmitting, by a USB transmission unit, the virtual file data stored in the virtual disk to a second multimedia device.

The generating of the virtual disk may include: determining whether a communication network for transmitting / receiving data with the first multimedia device is connected; If the communication network is connected, requesting the meta information from the first multimedia device; And when the meta information is received from the first multimedia device, generating the virtual disk using the provided meta information.

The receiving of the stream data may include receiving the stream data using at least one of a wired interface module and a wireless interface module.

The converting of the stream data into the virtual file data may include converting only data of a predetermined size representing the stream data into a portion of the virtual file data.

The transmitting of the virtual file data to the second multimedia device may include: determining whether a request for data stored in a predetermined sector of the virtual disk is received from the second multimedia device; Calculating the virtual file data corresponding to the predetermined sector if there is a data request for the predetermined sector; And transmitting the calculated virtual file data to the second multimedia device.

The transmitting of the virtual file data to the second multimedia device may include: after calculating the virtual file data corresponding to the predetermined sector, determining whether the virtual file data exists in a predetermined sector of the virtual disk; And if the virtual file data does not exist in the predetermined sector, request stream data corresponding to the virtual file data from the first multimedia device, and convert the stream data provided from the first multimedia device into virtual file data. Characterized in that it further comprises the step.

The requesting of the stream data corresponding to the virtual file data from the first multimedia device may include requesting stream data, which is expected to be requested from the second multimedia device, to the first multimedia device.

According to the present invention, various smart devices can transmit media (video, sound source, etc.) to a universal stream transmission device using respective communication schemes, and in the universal stream transmission device, multimedia data transmitted from these various smart devices can be transferred to a USB mass storage device. By converting the data file into the same data file format as the data file stored in the storage device, the universal stream transmission device may be recognized as a USB mass storage device without requiring a separate playback driver in the multimedia device for playback. In this case, the data stored in the general-purpose stream transmission device can be played through the media play function.

Therefore, according to the present invention, the general purpose stream transmission apparatus may use a mass storage device driver without a separate device driver so that multimedia content may be played in a multimedia device.

1 is a reference diagram illustrating a connection relationship between components for explaining a general purpose stream transmission apparatus and method using a mass storage function of a USB device according to the present invention.
Figure 2 is a block diagram of an embodiment for explaining a universal stream transmission apparatus using the mass storage function of the USB according to the present invention.
3 is a reference diagram illustrating an example of virtual file data.
4 is a reference diagram for explaining a process sequentially performed for a general-purpose stream transmission apparatus using a mass storage function of USB according to the present invention.
5 is a flowchart of an exemplary embodiment for explaining a method of transmitting a general purpose stream using a mass storage function of a USB device according to the present invention.
FIG. 6 is a flowchart of an exemplary embodiment for describing the 200th step illustrated in FIG. 5.
FIG. 7 is a flowchart of an exemplary embodiment for describing operation 206 illustrated in FIG. 5.

Hereinafter, a general purpose stream transmission apparatus and method using a mass storage function of a USB device according to the present invention will be described with reference to the accompanying drawings.

1 is a reference diagram illustrating a connection relationship between components for explaining a general purpose stream transmission apparatus and method using a mass storage device function of a USB device according to the present invention. The device 20 and the second multimedia device 30.

The first multimedia device 10 and the second multimedia device 30 include a smartphone, a tablet PC (smart pad), a notebook computer, a PDA, a general purpose PC, a smart TV, and the like. In particular, the first multimedia device 10 is connected to the universal stream transmitter 20 by wire or wirelessly, and the stream data of the multimedia content stored in the device is transmitted to the universal stream transmitter 20 by wire or wireless network. Send it through.

The universal stream transmitter 20 converts the stream data transmitted from the first multimedia device 10 through a wired or wireless network into virtual file data and transmits the converted data to the second multimedia device 30. do. Details will be described with reference to FIGS. 2 to 4.

The second multimedia device 30 is connected to the universal stream transmitter 30, recognizes the universal stream transmitter 20 as a USB storage device, and accesses virtual file data stored in the universal stream transmitter 20. The virtual file data is reproduced using the USB storage device driver (display of the video signal and output of the audio signal).

Figure 2 is a block diagram of an embodiment for explaining the universal stream transmission apparatus 20 using the mass storage device function of USB according to the present invention, the data receiving unit 100, data conversion unit 110, virtual file system ( 120, a virtual mass storage device 130, a USB transmitter 140, and a controller 150.

First, the virtual mass storage device 130 determines whether the general-purpose stream transmission device 20 is connected to the first multimedia device 10 and a communication network for data transmission and reception, and if the communication network is connected, the first multimedia device ( 10) request meta information about the multimedia content. The meta information on the multimedia content (eg, image content or sound content, etc.) includes information on the data type, data size, data generation date, etc. of the multimedia content.

The virtual mass storage device 130 checks whether the first multimedia device 10 is connected, maintains a standby state if the device is not connected, and performs an initialization process if the device is connected. The initialization process generates data to be provided by the virtual mass storage device 130 and defines device capacity, sector size, and the like. That is, the virtual mass storage device 130 is implemented as a cluster and a sector used in the physical storage device. When the first multimedia device 10 transmits the meta information, the data receiver 100 receives the meta information from the first multimedia device 10 and outputs the received meta information to the virtual mass storage device 130. The virtual mass storage device 130 creates a virtual disk for storing the multimedia content by using the received meta information. The created virtual disk is configured as if the file system is stored like the actual disk. However, the actual virtual information is not stored in the configured virtual disk, but only the registration information of the disk.

On the other hand, when the data receiver 100 receives stream data for the multimedia content from the first multimedia device 10, the data receiver 100 outputs the received stream data to the data converter 110.

The data receiving unit 100 includes a wired interface module that supports an RGB cable or an S-Video cable, and also provides a wireless network such as Wi-Fi, Bluetooth, WiDi, UWB, RF, Wibro, WCDMA, WiGig, and WHDI. It has a wireless interface module to support. Accordingly, the data receiving unit 100 receives the meta information or the stream data from the first multimedia device 10 by using any one of the wired interface module and the air interface module.

The data converter 110 converts the stream data received by the data receiver 100 into virtual file data, and outputs the converted virtual file data to the virtual file system 120. At this time, the data converter 110 converts only data of a predetermined size representing the stream data into the virtual file data.

The data converter 110 converts the received stream data into a virtual file in order to internally manage the received stream data. The virtual file data converted by the data converter 110 does not have all the information on the received stream data, and has only some data based on the received data. FIG. 3 is a reference diagram illustrating an example of virtual file data and includes a virtual file for stream data received according to time elapsed (time n, time n + 1, time n + 2, ...). The data has some data of the stream file (Real File), that is, real data, and the remaining data area is allocated to the virtual data area. The converted virtual file data is different from the physical file. In the case of a physical file, the file size is fixed, and data of a fixed size is stored in the physical medium, whereas the virtual file data converted by the data converter 110 is only required data of the entire data. As a result, the actual data has very little compared to the total data. As shown in FIG. 3 (the figure number has been changed), in the case of Real File, all of the actual data is stored, whereas Virtual File is a form in which only some data exists and not others.

The virtual file system 120 controls the virtual file data converted by the data converter 110 to be stored in the virtual disk of the virtual mass storage device 130. The virtual file data is provided at the request of the second multimedia device 30. When the data is continuously output, the virtual file data operates in the same manner as the actual file. That is, the virtual file system 120 determines whether the virtual file data exists in a predetermined sector of the virtual disk of the virtual mass storage device 130, and if the virtual file data does not exist in the predetermined sector, the first multimedia device 10. Request stream data corresponding to the virtual file data. Meanwhile, if the virtual file data does not exist in a certain sector, the virtual file system 120 may request the first multimedia device 10 for stream data that is expected to be requested by the second multimedia device. The stream data expected to be requested by the second multimedia device may expect stream data that is contiguous with previously transmitted stream data. Thereafter, when the requested stream data is provided from the first multimedia device 10 and converted into virtual file data in the data converter 110, the converted virtual file data is provided to the virtual mass storage device 130.

The virtual mass storage device 130 stores the virtual file data in a predetermined sector of a previously created virtual disk under the control of the virtual file system 120. Thereafter, the virtual mass storage device 130 outputs the virtual file data stored in the virtual disk to the USB transmitter 140 according to a request of the second multimedia device 30.

The virtual mass storage device 130 determines whether there is a request for data stored in a predetermined sector of the virtual disk from the second multimedia device 30. If there is a data request for the predetermined sector, the virtual mass storage device 130 calculates the virtual file data corresponding to the predetermined sector, and transmits the calculated virtual file data to the second multimedia device 30. For example, when the second multimedia device 30 requests information of sector 12 of the virtual disk of the virtual mass storage device 130, the virtual mass storage device 130 may determine the location of the sector in the corresponding file. The virtual file data is calculated by calculating the size, and the calculated virtual file data is output to the USB transfer unit 140.

The USB transmitter 140 transmits the virtual file data output from the virtual mass storage device 130 to the second multimedia device 30. To this end, the USB transmission unit 140 is connected to the second multimedia device 30 by wire or wirelessly.

The controller 150 controls the operations of the data receiver 100, the data converter 110, the virtual file system 120, the virtual MSC device 130, and the USB transmitter 140.

4 is a reference diagram for explaining a process sequentially performed for a general-purpose stream transmission apparatus using a mass storage function of USB according to the present invention.

The general purpose stream transmission apparatus 20 requests meta information about the multimedia content from the first multimedia apparatus 10 to which the communication network is connected. Then, when the first multimedia device 10 transmits the meta information, the general purpose stream transmission apparatus 20 receives the meta information, and uses it to create a virtual disk. Thereafter, upon receiving the stream data for the multimedia content from the first multimedia device 10, the universal stream transmitter 20 converts the received stream data into virtual file data. Thereafter, the general purpose stream transporter 20 stores the converted virtual file data in the virtual disk of the virtual mass storage device. Thereafter, the universal stream transmitter 20 determines whether there is a request for data stored in a predetermined sector of the virtual disk from the second multimedia device 30, and if there is a data request for the predetermined sector, the universal stream transmitter 20 corresponds to the predetermined sector. The virtual file data is calculated, and the calculated virtual file data is transmitted to the second multimedia device 30. Thereafter, if there is a request for data stored in another sector of the virtual disk from the second multimedia device 30, the general purpose stream transmitter 20 calculates virtual file data corresponding to another sector. At this time, if it is confirmed that the calculated virtual file data does not exist in the sector of the virtual disk, the general-purpose stream transmission apparatus 20 requests the stream data corresponding to the virtual file data from the first multimedia device 10. Thereafter, when the requested stream data is provided from the first multimedia device 10 and converted into virtual file data in the data converter 110, the converted virtual file data is transmitted to the second multimedia device 30.

As shown in FIG. 4, the stream data can also be viewed as one file data, so that all the devices supporting the USB mass storage device can reproduce the stream data without installing a separate driver or additional devices.

5 is a flowchart of an exemplary embodiment for explaining a method of transmitting a general purpose stream using a mass storage function of a USB device according to the present invention.

First, when the meta information of the multimedia content is received from the first multimedia device having the multimedia content, the virtual mass storage device generates the virtual disk using the meta information (step 200).

FIG. 6 is a flowchart of an exemplary embodiment for describing the 200th step illustrated in FIG. 5.

In operation 300, it is determined whether the first multimedia device 10 and the communication network for data transmission and reception are connected. The universal stream transmitter 20 determines whether a communication network for data transmission and reception is connected to the first multimedia apparatus 10.

In step 300, if the communication network is connected, the meta information is requested to the first multimedia device (step 302).

After receiving the meta information from the first multimedia device 10 after the step 302, the general purpose stream transmitter 20 generates a virtual disc to store the multimedia content using the provided meta information (step 304). . The universal stream transmitter 20 checks whether the first multimedia device 10 is connected, maintains a standby state if the device is not connected, and performs an initialization process if the device is connected. The initialization process generates data to be provided by the virtual mass storage device 130 and defines device capacity, sector size, and the like. The virtual mass storage device 130 generates a virtual disk using information obtained from the first multimedia device 10 connected in the initialization process. The created virtual disk is configured as if the file system is stored like the actual disk. However, the actual virtual information is not stored in the configured virtual disk, but only the registration information of the disk.

After the step 200, if the stream data for the multimedia content is received from the first multimedia device, the data converter converts the stream data into virtual file data (step 202). When the stream data for the multimedia content is received from the first multimedia device 10, the data receiver 100 outputs the received stream data to the data converter 110. To this end, the data receiving unit 100 has a wired interface module supporting an RGB cable or an S-Video cable, and also includes a Wi-Fi, Bluetooth, WiDi, UWB, RF, Wibro, WCDMA, WiGig, WHDI, and the like. A wireless interface module for supporting a wireless network is provided. Accordingly, the data receiving unit 100 receives the meta information or the stream data from the first multimedia device 10 by using any one of the wired interface module and the air interface module.

The data converter 110 converts stream data into virtual file data, and converts only data of a predetermined size representing the stream data into a part of the virtual file data. The virtual file data converted by the data converter 110 does not have all the information on the received stream data, and has only some data based on the received data. Unlike the physical file, the converted virtual file data has only a small portion of the required data, so the actual data has very little compared to the entire data.

After operation 202, the virtual mass storage device stores the converted virtual file data on the virtual disk (operation 204). When the virtual file system 120 controls to store the converted virtual file data on the virtual disk of the virtual mass storage device 130, the virtual mass storage device 130 stores the virtual file data in a predetermined sector of the virtual disk.

After operation 204, the USB transmitter transmits the virtual file data stored in the virtual disk to a second multimedia device (operation 206).

FIG. 7 is a flowchart of an exemplary embodiment for describing operation 206 illustrated in FIG. 5.

In operation 400, it is determined whether there is a request for data stored in a predetermined sector of the virtual disk from the second multimedia device. The virtual MSC device 130 determines whether there is a request for data stored in a predetermined sector of the virtual disk from the second multimedia device 30.

After operation 400, if there is a data request for the predetermined sector, the virtual file data corresponding to the predetermined sector is calculated (operation 402). The virtual mass storage device 130 calculates virtual file data by calculating a location and a size of a corresponding file of the sector with respect to data of a predetermined sector requested by the second multimedia device 30.

After operation 402, it is determined whether the virtual file data exists in a predetermined sector of the virtual disk (operation 404). The virtual file system 120 determines whether virtual file data exists in a predetermined sector of the virtual disk of the virtual mass storage device 130.

After the step 404, if the virtual file data exists in a predetermined sector of the virtual disk, the calculated virtual file data is transmitted to the second multimedia device 30 (step 406).

However, in step 404, if the virtual file data does not exist in a predetermined sector of the virtual disk, the stream data corresponding to the virtual file data and / or stream data expected to be requested by the second multimedia device may be generated. In step 408, a multimedia device is requested, and the stream data provided from the first multimedia device is converted into virtual file data. If there is no virtual file data in a certain sector, the virtual file system 120 requests the first multimedia device 10 stream data corresponding to the virtual file data or stream data expected to be requested by the second multimedia device. . The stream data expected to be requested by the second multimedia device may expect stream data that is contiguous with previously transmitted stream data. Thereafter, when the requested stream data is provided from the first multimedia device 10, the data converter 110 converts the stream data into virtual file data.

In operation 406, the converted virtual file data is provided to the virtual mass storage device 130 and finally transmitted to the second multimedia device 30.

As described above, the media data (movie, music, output screen, user voice, etc.) of the smart device is transmitted to the general purpose stream transmission device through various methods (Wi-Fi, UWB, WiGig, ...). The general purpose stream transmission apparatus 20 receives the stream data and converts the virtual into file data. The virtual file data here is different from the data file stored on the physical storage medium. It represents data transmitted in real time as a file. When a video output device recognizes a general-purpose stream transmission device as a USB mass storage device and reads a file, it plays a role of a medium that receives and transmits real-time data of a smart device. By using the above method, it is possible to link with numerous devices that support DLNA and digital devices that do not support DLNA. Smart devices that support DLNA can interoperate with a general-purpose stream transmission device through DLNA, and the interlocked content is recognized as content stored in a mass storage device by using a conversion function of the general-purpose stream transmission device. When the contents are expressed in a digital device that does not support DLNA, the contents are recognized as contents stored in a mass storage device, and video or music can be reconstructed using the contents. As a result, by using the conversion function of the general-purpose stream transmission device, it can be seen that content sharing is performed between the latest smart devices that support DLNA and the classic digital devices that do not support DLNA. In addition, SMB can be shared in the same way as DLNA, which enables content sharing between PCs and digital devices in most homes.

Meanwhile, the method inventions of the present invention described above can be implemented as computer readable codes / instructions / programs. For example, it may be implemented in a general-purpose digital computer for operating the code / instructions / program using a computer-readable recording medium. The computer-readable recording medium includes storage media such as magnetic storage media (eg, ROM, floppy disk, hard disk, magnetic tape, etc.), optical reading media (eg, CD-ROM, DVD, etc.) .

Such a general-purpose stream transmission apparatus and method using the mass storage function of the present invention USB has been described with reference to the embodiment shown in the drawings for clarity, but this is merely illustrative, and those skilled in the art It will be appreciated that various modifications and other equivalent embodiments are possible from this. Accordingly, the true scope of the present invention should be determined by the appended claims.

100: data receiving unit
110: data conversion unit
120: virtual file system
130: virtual mass storage device
140: USB transmission unit
150:

Claims (15)

A data receiver configured to receive stream data of the multimedia content being played in the first multimedia device and meta information of the multimedia content;
A data converter configured to convert real data of the multimedia content into virtual file data among the stream data received by the data receiver;
A virtual mass storage device generating a virtual disk capable of storing the virtual file data using the received meta information, and outputting the virtual file data stored in the virtual disk according to a request of a second multimedia device;
The virtual file data converted by the data converter is controlled to be stored in the virtual disk of the virtual mass storage device, and the virtual multimedia data is stored in the first multimedia device according to whether the virtual file data exists in a predetermined sector of the virtual disk. A virtual file system for requesting the stream data corresponding to the virtual file data;
A USB transmitter to transmit the virtual file data stored in the virtual mass storage device to the second multimedia device; And
And a controller for controlling operations of the data receiver, the data converter, the virtual mass storage device, the virtual file system, and the USB transmitter, respectively. The method of claim 1, wherein the data receiving unit
At least one of a wired interface module and a wireless interface module, wherein the stream data is received using any one of the wired interface module and the wireless interface module. General purpose stream transporter. The method of claim 1, wherein the data conversion unit
And converting only a predetermined size of data representing the stream data into a part of the virtual file data. delete The method of claim 1, wherein the virtual file system
And requesting the first multimedia device to stream data expected to be requested from the second multimedia device. The method of claim 1, wherein the virtual mass storage device
It is determined whether a communication network for data transmission and reception is connected to the first multimedia device, and if the communication network is connected, requesting the meta information to the first multimedia device using the mass storage function of the USB. General purpose stream transporter. The method of claim 1, wherein the virtual mass storage device
It is determined whether there is a request for data stored in a predetermined sector of the virtual disk from the second multimedia device. If there is a data request for the predetermined sector, the virtual file data corresponding to the predetermined sector is calculated, and the calculation is performed. And transmitting the virtual file data to the second multimedia device. The method of claim 1,
The first multimedia device and the second multimedia device includes at least one of a smart phone, a tablet PC, a laptop, a PDA, a general purpose PC, and a smart TV. Device. When the first multimedia device receives the meta information of the multimedia content being played, the virtual mass storage device generates the virtual disk using the meta information;
Receiving, by the data converter, the stream data of the multimedia content being played back from the first multimedia device, the real data of the multimedia content of the stream data into virtual file data;
Storing the converted virtual file data on the virtual disk by the virtual mass storage device; And
At the request of a second multimedia device, transmitting a virtual file data stored in the virtual disk to a second multimedia device by a USB transmitter;
If the virtual file data does not exist in a predetermined sector of the virtual disk, a virtual file system requests the first multimedia device for the stream data corresponding to the virtual file data. General purpose stream transmission method. The method of claim 9, wherein creating the virtual disk
Determining whether a communication network for data transmission and reception is connected to the first multimedia device;
If the communication network is connected, requesting the meta information from the first multimedia device; And
And when the meta information is received from the first multimedia device, generating the virtual disk using the provided meta information. The method of claim 9, wherein receiving the stream data
And at least one of a wired interface module and a wireless interface module to receive the stream data. The method of claim 9, wherein converting the stream data into the virtual file data comprises:
And converting only data of a predetermined size representing the stream data into a part of the virtual file data. The method of claim 9, wherein the transmitting of the virtual file data to the second multimedia device comprises:
Determining whether there is a request for data stored in the predetermined sector of the virtual disk from the second multimedia device;
Calculating the virtual file data corresponding to the predetermined sector if there is a data request for the predetermined sector; And
And transmitting the calculated virtual file data to the second multimedia device. The method of claim 13, wherein the transmitting of the virtual file data to the second multimedia device comprises:
After calculating the virtual file data corresponding to the predetermined sector, determining whether the virtual file data exists in a predetermined sector of the virtual disk; And
If the virtual file data does not exist in the predetermined sector, requesting the stream data corresponding to the virtual file data from the first multimedia device, and converting the stream data provided from the first multimedia device into virtual file data. Universal stream transmission method using a USB mass storage device characterized in that it further comprises a step. The method of claim 14, wherein the requesting the stream data corresponding to the virtual file data from the first multimedia device comprises:
Requesting stream data expected to be requested by the second multimedia device to the first multimedia device.

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