CN104426903A - Media data sharing method - Google Patents

Abstract

The invention provides a media data sharing method which can increase the convenience of media data sharing. The media data sharing method comprises the following steps: transmitting the media data to the server; receiving a quick response matrix code generated by the server, wherein the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in the temporary storage space of the server; transmitting a reception confirmation message to the server according to the received quick response matrix code, and calculating a first time; displaying the quick response matrix code on a screen of the electronic device; and removing at least one of the quick response matrix code and the media data stored by the server after the first time has elapsed.

Description

Media data sharing method

Technical Field

The present invention relates to a media data sharing method, and more particularly, to a media data sharing method for an electronic device having a screen.

Background

With the rapid development of electronic technology, various portable electronic products greatly enrich the consumer market, and meet the requirements of people for multi-directional work and entertainment. For example, Mobile phones, Mobile Internet Devices (MIDs), Personal Digital Assistants (PDAs), electronic books, Digital photo frames, Digital walkmans, electronic dictionaries, and Global Positioning System navigators (GPS navigators). When a consumer selects a portable electronic product, the convenience of use is taken as a reference basis for selecting the portable electronic product in addition to considering the volume and the appearance.

In daily life, users of electronic devices often take pictures, watch images, listen to music, etc. by using the electronic devices. When a user uses the electronic device, the user may wish to share with surrounding relatives and friends if the user encounters images or music that the user finds himself wonderful. One of the traditional sharing methods is to establish a connection between two electronic devices by bluetooth or infrared and then transmit the data to be shared, which is slow and inconvenient. Another way is that the data to be shared is uploaded to a server, the data to be shared is stored to a designated position by the server, and then the website for storing the data to be shared is told to the object to be shared, so that the other party can log on to download the data by himself; however, web sites are often of considerable length and are difficult to quickly and easily know to the other party. In addition, for some electronic devices, the performance of the processor or the function of the input module is limited, so that the user cannot achieve the purpose of data sharing through the application program.

Disclosure of Invention

The invention aims to provide a media data sharing method which is used for an electronic device with a screen and improves the convenience of media data sharing.

To achieve the above object, the present invention provides a media data sharing method for an electronic device having a screen, the media data sharing method comprising the steps of:

1A, transmitting media data to a server;

1B, receiving a quick response matrix code generated by the server, wherein the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in the temporary storage space of the server;

1C, transmitting receiving confirmation information to the server according to the received quick response matrix code, and calculating a first time;

1D, displaying the quick response matrix code on a screen of the electronic device; and

1E, after the first time, removing at least one of the quick response matrix code and the media data stored by the server.

Preferably, the media data comprises at least two files, and step 1B comprises:

1B-1, enabling the server to store the media data in a temporary storage space;

1B-2, enabling the server to generate a unified positioning address, wherein the unified positioning address points to the at least two files in the temporary storage space;

1B-3, enabling the server to generate a quick response matrix code of which the content comprises the uniform positioning address; and

1B-4, causing the server to transmit the quick response matrix code while starting the second time.

Preferably, the media data comprises at least two files, and step 1B comprises:

1B-1, enabling the server to store the media data in a temporary storage space;

1B-2, enabling the server to generate a plurality of unified positioning addresses, wherein the unified positioning addresses respectively point to the at least two files in the temporary storage space;

1B-3, enabling the server to generate a plurality of quick response matrix codes, wherein the quick response matrix codes respectively correspond to a plurality of contents, and the contents respectively comprise a plurality of unified positioning addresses; and

1B-4, causing the server to transmit the plurality of fast response matrix codes while starting the second time.

Preferably, step 1E comprises:

after the second time, the server removes the media data and the pointing direction of the unified positioning address to the temporary storage space, which are stored by the server, and the electronic device removes the quick response matrix code.

Preferably, step 1E comprises:

after the first time, one of the quick response matrix code and the media data stored by the server is removed, and after a third time, the other of the quick response matrix code and the media data stored by the server is removed.

Preferably, the media data includes image data, and step 1D includes: and simultaneously displaying the media data, the remaining time from the first time and the quick response matrix code.

The invention also provides a media data sharing method, which is used for an electronic device with a screen and comprises the following steps:

7A, transmitting media data to a server;

7B, receiving added media data generated by the server according to the media data, wherein the added media data comprises the media data and a quick response matrix code, the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in a temporary storage space of the server; and

and 7C, displaying the quick response matrix code on a screen of the electronic device.

Preferably, step 7B includes:

7B-1, enabling the server to store the media data in a temporary storage space;

7B-2, enabling the server to generate a uniform positioning address, wherein the uniform positioning address points to the media data in the temporary storage space;

7B-3, enabling the server to generate a quick response matrix code of which the content comprises the uniform positioning address;

7B-4, enabling the server to generate filling media data, wherein the filling media data comprises the media data and the quick response matrix code; and

7B-5, causing the server to transmit the annotated media data.

Preferably, the media data includes image data, and step 7B-4 includes: the fast response matrix code is marked in the exchangeable image file format field of the media data to generate the annotated media data.

Preferably, after step 7B, the method further comprises:

and 7i, transmitting receiving confirmation information to the server according to the received filling media data, and starting the server to calculate a second time.

Preferably, after step 7B, the method further comprises:

and 7C, transmitting a receiving confirmation message to the server according to the received quick response matrix code, and calculating a first time.

Preferably, the media data sharing method further comprises:

and 7D, enabling the server to remove the media data after the second time.

Preferably, the media data sharing method further comprises:

and 7D, after the second time, enabling the server to remove the direction of the unified positioning address to the media data stored in the temporary storage space.

Preferably, the media data includes image data, and step 7C includes: and simultaneously displaying the media data, the remaining time from the first time and the quick response matrix code.

The invention also provides a media data sharing method, which is used for an electronic device with a screen, wherein the electronic device is pre-stored with a plurality of quick response matrix codes and a plurality of corresponding identifiers, the content of each quick response matrix code comprises a uniform positioning address, and the media data sharing method comprises the following steps:

15A, assigning one of the plurality of identifiers to the media data;

15B, transmitting the media data and the assigned identifier to a server;

15C, receiving start-up confirmation information generated by the server based on the media data and the specified identifier;

15D, displaying the quick response matrix code corresponding to the assigned identifier on a screen of the electronic device.

Preferably, step 15C includes:

15C-1, enabling the server to store the media data in a temporary storage space;

15C-2, enabling the server to point the content of the quick response matrix code corresponding to the identifier to be specified to the media data in the temporary storage space by the unified positioning address; and

15C-3, causing the server to transmit the start-up confirmation message while counting the second time.

Preferably, the media data sharing method further comprises:

and 15F, after the second time, enabling the server to remove the media data.

Preferably, the media data sharing method further comprises:

15F, after the second time, the server removes the direction of the unified positioning address to the media data stored in the temporary storage space.

Preferably, after the step 15D, the method further comprises:

15E, the electronic device starts to calculate the first time at the same time; and

after the first time, the fast response matrix code is hidden.

Preferably, the media data includes image data, and step 15D includes: and simultaneously displaying the media data, the remaining time from the first time and the quick response matrix code.

The invention provides a media data sharing method for an electronic device with a screen, wherein the electronic device can receive a quick response matrix code generated by a server after transmitting media data to the server, and the content of the quick response matrix code comprises a uniform positioning address pointing to the media data stored in a temporary storage space of the server; displaying the quick response matrix code on a screen of the electronic device, reading the quick response matrix code displayed by the electronic device by other people through another electronic device, obtaining a uniform positioning address pointing to a temporary storage space of a server for storing media data, and linking the uniform positioning address to the temporary storage space to download the media data; therefore, the user can share the media data to other people, and convenience is effectively improved.

Drawings

FIG. 1 is a schematic flow chart of a first embodiment of the present invention;

FIG. 2 is a diagram of a screen display of an electronic device according to the present invention;

FIG. 3A is a schematic flow chart of a second embodiment of the present invention;

FIG. 3B is a schematic flow chart illustrating a third embodiment of the present invention;

FIG. 3C is a diagram of a screen display of an electronic device sharing a plurality of files according to the present invention;

FIG. 4A is a schematic flow chart of a fourth embodiment of the present invention;

FIG. 4B is a schematic flow chart of a fifth embodiment of the present invention;

FIG. 4C is a schematic flow chart of a sixth embodiment of the present invention;

FIG. 5A is a schematic flow chart of a seventh embodiment of the present invention;

fig. 5B is a flowchart illustrating an eighth embodiment of the present invention.

Description of the main element symbols:

1010, 1030, 1050, 1070, 1090, 1031, 1033,1035,1037, 1032, 1034, 1036, 1038, 3010, 3030, 3050, 3031, 3033, 3035, 3037, 3039, 3041, 3042, 5010, 5030, 5050, 5070, 5091, 5031, 5033, 5035 and 5092

100 electronic device

300 screen

400. 400 ', 400 ', 400 and 400 ' digital photograph

200. 200 ', 200', 200 quick response matrix code

600. 600 ', 600 ', 600 ' is the time remaining from the first time

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

The media data sharing method is used for an electronic device with a screen. Preferably, the electronic device is a portable electronic device, such as but not limited to a mobile phone, a mobile internet device, a personal digital assistant, an electronic book, a digital photo frame, a digital walkman, an electronic dictionary, a gps navigator, a notebook computer, a tablet computer, etc.

As shown in fig. 1, a first embodiment of the media data sharing method of the present invention includes the following steps:

step 1010, the media data is transmitted to a server. Specifically, preferably, a user of the electronic device selects the media data sharing function in an operation menu of the electronic device, and selects the media data to be shared. The electronic device can establish connection with the server through mobile data communication, wireless or wired internet communication and the like, and send media data selected by a user to the server. The media data generally refers to digital video or audio data. Preferably, the media data is a digital photo.

Step 1030, receiving a Quick Response Code (QR Code) generated by the server, where the content of the QR Code includes a Uniform Resource Locator (URL), and the uniform resource locator points to the media data stored in the temporary storage space of the server. Specifically, after receiving the media data transmitted by the electronic device, the server stores the media data in the temporary storage space, generates a uniform positioning address pointing to the media data in the temporary storage space and a quick response matrix code whose content includes the uniform positioning address, and then returns the quick response matrix code to the electronic device.

Step 1050, transmitting a reception confirmation message to the server according to the received quick response matrix code, and calculating a first time. Specifically, after receiving the quick response matrix code transmitted from the server, the electronic device starts calculating a first time and transmits a reception confirmation message to the server, so that the server can confirm that the electronic device has received the quick response matrix code and the received time according to the reception confirmation message. The quick response matrix code may be temporarily stored in a Random Access Memory (RAM) of the electronic device or stored in a storage device (such as a built-in Memory, a hard disk, or a Memory card) of the electronic device.

In step 1070, the quick response matrix code is displayed on the screen of the electronic device. Specifically, as shown in fig. 2, the quick response matrix code 200 is displayed on the screen 300 of the electronic device 100. At this time, the user can display the electronic device 100 to another person, and the other person can read the quick response matrix code 200 displayed by the electronic device 100 through another electronic device, so as to obtain the uniform positioning address pointing to the temporary storage space of the server storing the media data, and link to the temporary storage space to download the media data. Therefore, the user can share the media data to other people, and convenience is effectively improved. It should be noted that the electronic device 100 may send the quick response matrix code 200 to another electronic device that is to share media data through any tool (e.g., a chat tool); the electronic device 100 may also display the quick response matrix code 200 on the screen of the electronic device 100, and another electronic device that is to share the media data may obtain the quick response matrix code 200 by any tool that can obtain the quick response matrix code 200 by scanning the quick response matrix code 200 displayed on the screen of the electronic device 100.

Step 1090, after the first time has elapsed, removing at least one of the quick response matrix code and the media data stored by the server. Specifically, after the first time, the electronic device may delete the quick response matrix code from the random access memory and/or the storage device, or at least not continue to display the quick response matrix code on the screen; the server can also delete the media data stored in the server. From different perspectives, even if the uniform positioning address pointing to the temporary storage space of the server storing the media data cannot be obtained continuously, the removal of the quick response matrix code cannot link to the temporary storage space to download the media data without the uniform positioning address. The server deletes the stored media data such that the media data cannot be continuously obtained from the server regardless of whether the quick response matrix code or the uniform location address has been previously obtained. Thereby, the security of the media data can be protected and the occupied space of the server can be reduced.

As shown in fig. 2, in the first embodiment, the screen 300 of the electronic device 100 simultaneously displays the digital photo 400 as the media data, the remaining time 600 from the first time, and the quick response matrix code 200. Therefore, when the user shares the media data, the user can confirm whether the quick response matrix code is correct or not, and can conveniently know how much time remains for sharing the media data. For example, as shown in fig. 2, the remaining time 600 is 23 hours, 59 minutes, and 59 seconds. However, in different embodiments, the quick response matrix code 200 may be displayed separately or in conjunction with one of the media data 400 and the remaining time 600 from the first time. The digital photos 400, the remaining time 600 from the first time, and the display position and size of the quick response matrix code 200 on the screen 300 can also be adjusted according to the design or usage requirements.

In various embodiments, step 1090 further comprises: after the first time, one of the quick response matrix code and the media data stored in the server is removed, and after the third time, the other of the quick response matrix code and the media data stored in the server is removed. More specifically, the removal of the quick response matrix code and the media data stored in the server is not limited to be performed simultaneously, but may be performed sequentially according to the requirement. For example, in the step 1050, the electronic device starts to calculate a first time after receiving the quick response matrix code from the server, and transmits a reception confirmation message to the server. However, if the server does not receive the reception confirmation information due to communication interruption or the like, the first time cannot be calculated accordingly, and thus the server does not delete the media data stored therein after the first time elapses. In contrast, if the server uniformly deletes the stored media data after the third time regardless of whether the reception confirmation information transmitted by the electronic device is received, the above situation can be avoided. Wherein the third time is calculated simultaneously when the server transmits the quick response matrix code.

In practice, the media data to be shared by the user may include at least two files, i.e., the user may wish to select multiple files at a time to share with others. The second embodiment shown in fig. 3A is different from the first embodiment in that step 1030 comprises: step 1031, storing the media data in the temporary storage space by the server; 1033, making the server generate a unified location address, wherein the unified location address points to at least two files in the temporary storage space; step 1035, enabling the server to generate a quick response matrix code with content containing a uniform positioning address; and a step 1037 of causing the server to transmit the fast response matrix code while starting the second time. Specifically, in this embodiment, a plurality of files to be shared by the user are all stored in the same temporary storage space, and a unified location address points to the temporary storage space, and the server only generates a quick response matrix code whose content includes the unified location address. Other people only need to read the quick response matrix code, and can download a plurality of files to be shared by the user through the unified positioning address link to the temporary storage space. Step 1090 further includes removing the stored media data and the pointing direction of the unified positioning address to the temporary storage space by the server after the second time, and removing the quick response matrix code by the electronic device.

However, in the third embodiment shown in fig. 3B, the difference from the first embodiment is that step 1030 includes: step 1032, enabling the server to store the media data in the temporary storage space; 1034, enabling the server to generate a plurality of uniform positioning addresses, where the uniform positioning addresses point to at least two files in the temporary storage space, respectively, and specifically, the uniform positioning addresses and the at least two files are in a one-to-one correspondence relationship; step 1036, enabling the server to generate a plurality of quick response matrix codes, wherein the plurality of quick response matrix codes respectively correspond to a plurality of contents, and the plurality of contents respectively comprise a plurality of uniform positioning addresses; and a step 1038 of causing the server to transmit the plurality of fast response matrix codes while counting the second time. Specifically, in this embodiment, a plurality of files to be shared by the user can be stored in the same or different temporary storage spaces, and each file has a separate unified location address pointing to each file, and the server generates a plurality of quick response matrix codes, each quick response matrix code including a unified location address corresponding to the file pointed to by the quick response matrix code. The user can display the quick response matrix code corresponding to the file to be downloaded according to the requirement, and other people only need to read the quick response matrix code, and can download a single file corresponding to the quick response matrix code through the unified positioning address link to the temporary storage space. Wherein, only one set of the corresponding digital photos 400, the remaining time 600 from the first time, and the quick response matrix code 200 can be displayed at a time as shown in FIG. 2; it is also possible to display a plurality of sets of corresponding digital photos (400 ', 400', 400 '), remaining times (600' ), 600 ') from the first time, and quick response matrix codes (200' ), 200 ', 200') at one time as shown in FIG. 3C. Step 1090 includes after a second time, the server removing the stored media data and the pointing of the unified locator address to the temporary storage space, and the electronic device removing the quick response matrix code. For example, after the second time, the server first removes the stored media data and the pointing direction of the unified positioning address to the temporary storage space; after the first time, the electronic device removes the quick response matrix code.

As shown in fig. 4A, a fourth embodiment of the media data sharing method of the present invention includes the following steps:

step 3010, transmit the media data to a server.

Step 3030, receiving the annotated media data generated by the server according to the media data, wherein the annotated media data comprises the media data and a quick response matrix code, wherein the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in the temporary storage space of the server.

3050, displaying the quick response matrix code on a screen of the electronic device.

Preferably, as shown in fig. 4A, step 3030 includes: step 3031, enabling the server to store the media data in the temporary storage space; 3033, the server generates a uniform positioning address pointing to the media data in the temporary storage space; step 3035, the server generates a quick response matrix code whose content contains a uniform positioning address; step 3037, making the server generate the annotated media data, wherein the annotated media data comprises the media data and the quick response matrix code; and step 3039, causing the server to transmit the annotated media data.

Specifically, in this embodiment, the server, in addition to storing the media data, generating the unified locator address, and generating the quick response matrix code, also generates the annotated media data comprising the media data and the quick response matrix code, and transmits the annotated media data to the electronic device. In other words, the fast response matrix code transmitted by the server to the electronic device is not a simple fast response matrix code, but is the annotated media data obtained by merging the fast response matrix code with the media data. Preferably, in the first embodiment, the media data comprises image data, and step 3037 includes annotating fast response matrix codes in Exchangeable image file format (EXIF) fields of the media data to generate annotated media data. The user can read the filling media data by using the electronic device, then the quick response matrix code is displayed on the screen, and other people can download the original media data or the filling media data by linking to the temporary storage space through the unified positioning address only by reading the quick response matrix code through another electronic device. In this embodiment, since the quick response matrix code is directly included in the annotated media data, the need to re-operate the entire process to share the media data due to the unexpected disappearance of the quick response matrix code can be avoided. On the other hand, if the other people download the filling media data, the media data can be further shared with a third person, and the circulation of the media data to be shared by the user can be increased.

In a fifth embodiment as shown in fig. 4B, the media data sharing method provided in this embodiment includes the steps of: step 3010, transmit the media data to the server; step 3030, receiving the filling media data generated by the server according to the media data, wherein the filling media data comprises the media data and a quick response matrix code, the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in the temporary storage space of the server; 3050, displaying the quick response matrix code on a screen of the electronic device; step 3041, transmitting a receiving confirmation message to the server according to the received annotated media data, so that the server starts to calculate the second time. It should be noted that, there is no timing limitation in step 3041 and step 3050, that is, step 3041 may be executed first, and then step 3050 is executed; step 3050 may be performed first, and then step 3041 may be performed; step 3041 and step 3050 may also be performed simultaneously; fig. 4B illustrates only one of the flow diagrams. Preferably, after the step 3041, the method further includes: causing the server to remove the media data after a second time; or after the second time, the server removes the direction of the unified positioning address to the media data stored in the temporary storage space. Thereby, the security of the media data can be protected and the occupied space of the server can be reduced.

In a sixth embodiment as shown in fig. 4C, the media data sharing method provided in this embodiment includes the steps of: further comprising: step 3010, transmit the media data to the server; step 3030, receiving the filling media data generated by the server according to the media data, wherein the filling media data comprises the media data and a quick response matrix code, the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in the temporary storage space of the server; 3050, displaying the quick response matrix code on a screen of the electronic device; step 3042, transmitting the receiving confirmation message to the server according to the received quick response matrix code, and calculating a first time. It should be noted that, there is no timing limitation in step 3042 and step 3050, that is, step 3042 may be executed first, and then step 3050 may be executed; step 3050 may be performed first, and then step 3042 may be performed; step 3042 and step 3050 may also be performed simultaneously; fig. 4B illustrates only one of the flow diagrams. Preferably, the media data includes image data, and step 3050 includes: media data, a remaining time from the first time, and a quick response matrix code are displayed simultaneously. Therefore, when the user shares the media data, the user can confirm whether the quick response matrix code correctly corresponds to the media data to be shared, and can conveniently know the time left for sharing the media data.

In various embodiments, the electronic device may be pre-stored with a plurality of quick response matrix codes and a corresponding plurality of identifiers, and the content of each quick response matrix code includes a uniform positioning address. In addition, the identifier is substantially an identification code, and is a unique serial number in the electronic device, that is, each identifier is different from other identifiers. For example, when a user selects a media data (e.g., a photo) to be shared with the quick response matrix code URL1, the electronic device (e.g., a camera) records the ID1 corresponding to the media data and transmits the information to a server, and the server records the association between the quick response matrix code URL1 and the ID1, so that the server and the electronic device can know exactly which media data is shared and correctly calculate and display the remaining time. The quick response matrix is pre-stored in the electronic device, and is not transmitted to the electronic device after the server is generated, so that the data volume of transmission can be saved, and the burden of server operation can be reduced. More specifically, as shown in fig. 5A, a media data sharing method according to a seventh embodiment of the present invention includes the following steps:

at step 5010, one of a plurality of identifiers is specified for the media data. Preferably, a user of the electronic device selects the media data sharing function in an operation menu of the electronic device, selects media data to be shared, and designates one of the plurality of identifiers for the media data. However, one of the identifiers may be sequentially or randomly assigned to the media data from a plurality of pre-stored identifiers by the electronic device.

Step 5030 sends the media data and the assigned identifier to the server.

In step 5050, start-up confirmation information generated by the server based on the media data and the specified identifier is received.

In step 5070, a quick response matrix code corresponding to the specified identifier is displayed on a screen of the electronic device.

In a seventh embodiment as shown in fig. 5A, the method for sharing media data further includes, after step 5070: step 5091, the electronic device calculates a first time at the same time; and after the first time, concealing the fast response matrix code. Preferably, the media data includes image data; preferably, step 5070 comprises: simultaneously displaying the media data, the remaining time from the first time and the quick response matrix code; when the user shares the media data, the user can determine whether the quick response matrix code correctly corresponds to the media data to be shared, and can conveniently know how much time is left for sharing the media data.

Preferably, the eighth embodiment shown in fig. 5B is different from the seventh embodiment in that step 5030 includes: step 5031, storing the media data in the temporary storage space by the server; step 5033, the server directs the unified positioning address contained in the content of the fast response matrix code corresponding to the specified identifier to the media data in the temporary storage space; and step 5035, making the server transmit the start confirmation information and start the second time. In addition, the media data sharing method further comprises the following steps: step 5092, removing the media data from the server after the second time; or after the second time, the server removes the direction of the uniform positioning address to the media data stored in the temporary storage space. Thereby, the security of the media data can be protected and the occupied space of the server can be reduced.

Although the foregoing description and drawings disclose preferred embodiments of the present invention, it should be understood that various additions, modifications and substitutions may be made therein without departing from the spirit and scope of the principles of the present invention as defined in the accompanying claims. Those of ordinary skill in the art to which the subject invention pertains will appreciate that the subject invention may be used in many modifications of form, structure, arrangement, proportions, materials, components and assemblies. Accordingly, the embodiments disclosed herein should be considered in descriptive sense only and not for purposes of limitation. The scope of the invention should be determined by the appended claims and their legal equivalents are covered thereby and are not limited to the foregoing description.

Claims (19)

1. A media data sharing method is used for an electronic device with a screen, and is characterized by comprising the following steps:

1A, transmitting media data to a server;

1B, receiving a quick response matrix code generated by the server, wherein the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in the temporary storage space of the server;

1C, transmitting receiving confirmation information to the server according to the received quick response matrix code, and calculating a first time;

1D, displaying the quick response matrix code on a screen of the electronic device; and

and 1E, removing at least one of the quick response matrix code and the media data stored by the server after the first time.

2. The method according to claim 1, wherein the media data comprises at least two files, and step 1B comprises:

1B-1, enabling the server to store the media data in a temporary storage space;

1B-2, enabling the server to generate a unified positioning address, wherein the unified positioning address points to the at least two files in the temporary storage space;

1B-3, enabling the server to generate a quick response matrix code of which the content comprises the uniform positioning address; and

1B-4, causing the server to transmit the quick response matrix code while starting the second time.

3. The method according to claim 1, wherein the media data comprises at least two files, and step 1B comprises:

1B-1, enabling the server to store the media data in a temporary storage space;

1B-2, enabling the server to generate a plurality of unified positioning addresses, wherein the unified positioning addresses respectively point to the at least two files in the temporary storage space;

1B-3, enabling the server to generate a plurality of quick response matrix codes, wherein the quick response matrix codes respectively correspond to a plurality of contents, and the contents respectively comprise a plurality of unified positioning addresses; and

1B-4, causing the server to transmit the plurality of fast response matrix codes while starting the second time.

4. The method according to claim 2 or 3, wherein the step 1E comprises:

after the second time, the server removes the stored media data and the pointing direction of the unified positioning address to the temporary storage space, and the electronic device removes the quick response matrix code.

5. The method according to claim 1, wherein step 1E comprises:

after the first time, one of the quick response matrix code and the media data stored by the server is removed, and after a third time, the other of the quick response matrix code and the media data stored by the server is removed.

6. The method according to claim 1, wherein the media data comprises video data, and step 1D further comprises: and simultaneously displaying the media data, the remaining time from the first time and the quick response matrix code.

7. A media data sharing method is used for an electronic device with a screen, and is characterized by comprising the following steps:

7A, transmitting media data to a server;

7B, receiving added media data generated by the server according to the media data, wherein the added media data comprises the media data and a quick response matrix code, the content of the quick response matrix code comprises a uniform positioning address, and the uniform positioning address points to the media data stored in a temporary storage space of the server; and

and 7C, displaying the quick response matrix code on a screen of the electronic device.

8. The method according to claim 7, wherein the step 7B comprises:

7B-1, enabling the server to store the media data in a temporary storage space;

7B-2, enabling the server to generate a uniform positioning address, wherein the uniform positioning address points to the media data in the temporary storage space;

7B-3, enabling the server to generate a quick response matrix code of which the content comprises the uniform positioning address;

7B-4, enabling the server to generate filling media data, wherein the filling media data comprises the media data and the quick response matrix code; and

7B-5, causing the server to transmit the annotated media data.

9. The method of claim 7, wherein the media data comprises video data, and step 7B-4 comprises: the fast response matrix code is marked in the exchangeable image file format field of the media data to generate the annotated media data.

10. The method of claim 7, further comprising, after the step 7B:

and 7i, transmitting receiving confirmation information to the server according to the received filling media data, and starting the server to calculate a second time.

11. The method of claim 7, further comprising, after the step 7B:

and 7C, transmitting a receiving confirmation message to the server according to the received quick response matrix code, and calculating a first time.

12. The method of claim 10, wherein the method further comprises:

and 7D, enabling the server to remove the media data after the second time.

13. The method of claim 10, wherein the method further comprises:

and 7D, after the second time, enabling the server to remove the direction of the unified positioning address to the media data stored in the temporary storage space.

14. The method of claim 11, wherein the media data comprises video data, and step 7C comprises: and simultaneously displaying the media data, the remaining time from the first time and the quick response matrix code.

15. A media data sharing method is used for an electronic device with a screen, and is characterized in that a plurality of quick response matrix codes and a plurality of corresponding identifiers are prestored in the electronic device, the content of each quick response matrix code comprises a uniform positioning address, and the media data sharing method comprises the following steps:

15A, assigning one of the plurality of identifiers to the media data;

15B, transmitting the media data and the assigned identifier to a server;

15C, receiving start-up confirmation information generated by the server based on the media data and the specified identifier;

15D, displaying the quick response matrix code corresponding to the assigned identifier on a screen of the electronic device.

16. The method of claim 15, wherein step 15C comprises:

15C-1, enabling the server to store the media data in a temporary storage space;

15C-2, enabling the server to point the content of the quick response matrix code corresponding to the identifier to be specified to the media data in the temporary storage space by the unified positioning address; and

15C-3, causing the server to transmit the start-up confirmation message while counting the second time.

17. The method of claim 16, wherein the method further comprises:

after the second time, enabling the server to remove the media data; or,

after the second time, the server removes the direction of the unified positioning address to the media data stored in the temporary storage space.

18. The method of claim 15, further comprising, after the step 15D:

15E, the electronic device starts to calculate the first time at the same time; and

after the first time, the fast response matrix code is hidden.

19. The method of claim 18, wherein the media data comprises video data, and step 15D comprises: and simultaneously displaying the media data, the remaining time from the first time and the quick response matrix code.