CN105912250B - Data synchronous transmission method - Google Patents

Abstract

A data synchronous transmission method relates to a data transmission technology, and is used for transmitting data, wherein the data transmitted by first intelligent equipment also comprises current execution information of the data (virtual article), and after the data transmission is finished, second intelligent equipment used for receiving the data executes the state of the data when the data is transmitted. If the picture file which is already opened on the first intelligent device is transmitted, the picture file is also opened on the second intelligent device after the transmission part is completed or the transmission part is completely completed; if the audio file that the first smart device has opened is transmitted, the audio file is also opened on the second smart device after the transmission is partially or fully completed. The same can be said if files of the type of open video files, document files, etc. are transmitted.

Description

Data synchronous transmission method

Technical Field

The invention relates to the field of electronics, in particular to a data transmission technology.

Background

The touch screen is convenient for a user to directly and visually operate the data information on the display screen, so the touch screen is popular among the users. Touch screens are widely used in intelligent systems such as computers, mobile phones, game machines, automatic control systems and printers.

The existing touch screen can only simply replace a mouse in actual use, has quite simple functions, and cannot bring better use experience to people.

In addition, the existing touch screen can only operate data information on a set of independent intelligent systems, and cannot intuitively and directly operate the data information among a plurality of intelligent systems. For example, the picture or icon can only be moved on the display screen of one computer or other intelligent systems by touch, but the picture or icon cannot be moved among a plurality of computers or other intelligent systems. Inconvenience is brought to data information interaction operation between intelligent tools.

Nowadays, portable intelligent tools are more and more, and operations for exchanging data among the portable intelligent tools are more and more. At present, the operation of data interaction between intelligent tools is complex. Bringing inconvenience to the work and life of people.

Disclosure of Invention

The invention aims to provide a data synchronous transmission method.

The invention can be realized by adopting the following technical scheme:

the data synchronous transmission method is characterized in that the data transmitted by the first intelligent device used for transmitting the data also comprises the current execution information of the data (virtual article), and after the data transmission is completed, the second intelligent device used for receiving the data executes the state of the data when the data is transmitted.

If the picture file which is already opened on the first intelligent device is transmitted, the picture file is also opened on the second intelligent device after the transmission part is completed or the transmission part is completely completed; if the audio file that the first smart device has opened is transmitted, the audio file is also opened on the second smart device after the transmission is partially or fully completed. The same can be said if files of the type of open video files, document files, etc. are transmitted. When the transmission file is an audio file or a video file in playing, synchronous playing can be performed on the second intelligent device in the transmission process. Early buffering is allowed. The file data being played, and (secondly) the data to be played, are transmitted with priority.

The first intelligent device comprises a microprocessor system and a display screen, wherein the microprocessor system is connected with a touch screen arranged on the display screen and is used for processing touch action information on the touch screen and associating the touch action information with display content on the display screen;

the microprocessor system regards that a virtual article between two touch points displayed on the display screen is held, and the virtual article follows the touch point group to act when the distance between the at least two touch points in the touch point group is shortened.

The design enables virtual articles (such as pictures, folders, icons, virtual keys and the like) displayed on intelligent tools (such as computers, mobile phones, game machines, electronic books, MP4, electronic photo albums and the like) to be taken, so that the virtual articles can be operated like actual articles. The intelligent tool is more visual and convenient to operate.

When a virtual item is picked up, its associated data information is moved together.

And when at least two touch points in the touch point group respectively press the virtual article, the virtual article is regarded as being held.

When the virtual article is held, the virtual article moves along with the movement of the touch point group.

When the set of touch points is removed, the microprocessor system treats the virtual item as being picked up.

When a virtual article is picked up, a touch point group is presented on the touch screen, and the distance between at least two touch points in the touch point group becomes larger, so that the virtual article is regarded as the position where the virtual article is put down between the touch point group.

In the above design, the touch points in the touch point group can be simply set to be only two touch points. And under the condition of only two touch points, data is easy to process, and misoperation is not easy to generate.

The design allows the existing touch screen operation method to be integrated.

The touch point group holds a virtual article on the first intelligent device, then the touch point group is removed, and the virtual article is regarded as being picked up on the first intelligent device;

presenting a touch point group on a touch screen of a second intelligent device, wherein the distance between at least two touch points in the touch point group is increased, and the virtual object is regarded as being laid down at a position between the two touch points;

the first smart device transmits data information associated with the virtual item to a second smart device via data communication.

The communication mode adopted in the data communication can be local area network transmission, infrared transmission, Bluetooth transmission or the like.

In the communication process, the second intelligent device may first send a data receiving request, and the first intelligent device sends data after receiving the data receiving request.

The data receiving request sent by the second intelligent device is non-directional, and the object which is requested to send data has no pertinence, namely not only aiming at the first intelligent device, one or more objects which are requested to send data can be provided, and after some or several or all objects which are requested to send data determine to send data, data interaction can be carried out.

In the communication process, the first intelligent device may also send a data sending request, and when the second intelligent device determines to receive data, that is, when the virtual article is taken to the second intelligent device, the second intelligent device starts to establish connection to receive data.

The data sending request sent by the microprocessor system of the first intelligent device may also be unidirectional, the object requested to be received has no pertinence, that is, not only for the second intelligent device, but also one or more objects requested to be received may be provided, and after some or all of the objects requested to be received determine to send data, data interaction may be performed.

Of course, when there are more than two other smart devices other than the first smart device, the same virtual item is allowed to be taken from the first smart device to more than one smart device.

The data transmitted by the first intelligent device also comprises current execution information of the data (virtual article), and after the data transmission is completed, the intelligent device receiving the data uploads the state of executing the data to the sending process. If the picture file which is already opened on the data transmission intelligent tool is transmitted, the picture file is also opened on the second intelligent device after the transmission part is completed or the transmission part is completely completed; if the audio file that the data sending intelligent tool has opened is transmitted, the audio file is also opened on the second intelligent device after the transmission is partially or completely completed. The same can be said if files of the type of open video files, document files, etc. are transmitted. When the transmission file is an audio file or a video file in playing, synchronous playing can be performed on the second intelligent device in the transmission process. Early buffering is allowed. The file data being played, and (secondly) the data to be played, are transmitted with priority.

Compared with the existing data interaction mode among intelligent tools, the technical scheme is more convenient and fast. In the existing data interaction mode, a user is generally required to determine data to be transmitted; then determining a data transmission mode, such as local area network transmission, infrared transmission or Bluetooth transmission, and enabling the two intelligent tools to perform data connection; then, determining a path for storing data by the intelligent tool for receiving the data; and finally, the data transmission can be completed. According to the technical scheme, the operation process of the user is greatly simplified, and the data interaction operation is more convenient and faster. More importantly, the invention not only realizes the moving and the storage of the virtual articles in the single machine, but also realizes the taking, the storage and the transmission of the virtual articles among multiple machines, so that the data interaction process is more visual, direct, visual and realistic.

Drawings

FIG. 1 is a schematic diagram of a smart device architecture;

FIG. 2 is a diagram of a relationship between touch points and virtual objects on a touch screen;

FIG. 3 is a diagram of a relationship between touch points and virtual items on a multi-machine virtual item picking system.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained by combining the specific drawings.

Referring to fig. 1, the smart device includes a microprocessor system 1 and a display 2. The microprocessor system 1 is connected to a touch screen 3 arranged on the display screen 2. The microprocessor system 1 is used for processing touch action information on the touch screen 3 and associating the touch action information with display contents on the display screen 2. The touch screen 3 may be a conventional touch screen such as an infrared touch screen, a capacitive touch screen, a virtual touch screen, or an unconventional touch screen.

Referring to fig. 2, when the touch screen 3 has a touch point group of at least two touch points 31 and 32, and the distance between the at least two touch points 31 and 32 in the touch point group is shortened, the microprocessor system 1 regards that the virtual item 4 between the two touch points 31 and 32 displayed on the display screen 2 is held, and the virtual item 4 follows the touch point group action.

At least two touch points 31, 32 in the touch point group respectively hold the virtual article 4, and the virtual article is regarded as being held. Either pressing only the edge of the virtual article 4 or pressing on the virtual article 4. When the virtual item 4 is held, the virtual item 4 moves following the movement of the touch point group on the touch screen 3. When the touch point group is removed, the microprocessor system 1 regards the virtual item 4 as being picked up.

When a virtual item 4 is picked up, a touch point group is presented on the touch screen 3 again, and at least two touch points 31 and 32 in the touch point group become longer in distance, which is regarded as the virtual item 4 being put down at a position between the touch point groups, such as a position between the two touch points 31 and 32. The design allows other touch screen operation methods to be integrated.

The above design enables the virtual article 4 such as a picture, a folder, an icon, and a virtual key displayed on a smart tool such as a computer, a mobile phone, a game machine, an electronic book, MP4, and an electronic album to be taken, and enables the virtual article 4 to be operated in the same manner as an actual article. The intelligent tool is more visual and convenient to operate. When the virtual item 4 is fetched, its associated data information is moved or copied together.

In the above design, the touch points in the touch point group can be simply set to be only two touch points 31 and 32. And under the condition of only two touch points, data is easy to process, and misoperation is not easy to generate.

Referring to fig. 3, the touch point group 51 holds a virtual item 52 on the first smart device 5, and then the touch point group 51 is removed, and the microprocessor system regards the virtual item 52 as being picked up.

A group of touch points 61 is presented on the touch screen of the second smart device 6, and at least two touch points 611, 612 in the group of touch points 61 have a larger distance, which is considered as a position where the virtual item 52' is dropped between the two touch points 611, 612. The first smart device 5 transmits data information associated with the virtual item 52 to the second smart device 6 via data communication.

The communication mode adopted in the data communication can be local area network transmission, infrared transmission, Bluetooth transmission or the like. In the data communication process, the second intelligent device 6 may first send a data receiving request, and the first intelligent device 5 sends data after receiving the data receiving request. The data receiving request sent by the second smart device 6 may be unidirectional, and the object requested to send data has no pertinence, that is, not only for the first smart device 5, but also there may be one or more objects requested to send data, and after some or all of the objects requested to send data determine to send data, data interaction may be performed.

In the communication process, the first smart device 5 may also send a data sending request, and when the second smart device 6 determines to receive data, that is, when the virtual item 52' is taken to the second smart device 6, the second smart device 6 starts to establish a connection to receive data.

The data transmission request sent by the microprocessor system of the first smart device 5 may also be unidirectional, the requested received object has no pertinence, that is, it is not only for the second smart device 6, there may be one or more requested received objects, and after some or all of the requested received objects determine to transmit data, data interaction may be performed.

Of course, having more than two other smart devices in addition to the first smart device 5 allows the same virtual item 52 to be taken from the first stand-alone virtual item 5 pick-up system onto more than one smart device.

The data transmitted by the first smart device 5 also includes current execution information of the data (virtual object 52), and after the data transmission is completed, the smart device that receives the data uploads the execution information of the data to the state at the time of transmission. If the picture file already opened on the first smart device 5 is transmitted, the picture file is also opened on the second smart device 6 after the transmission is partially or completely completed; if an audio file that has already been opened by the first smart device 5 is transmitted, the audio file is also opened on the second smart device 6 after the transmission has been partially or completely completed. The same can be said if files of the type of open video files, document files, etc. are transmitted.

When the transmission file is an audio file or a video file being played, the transmission file is played synchronously on the second intelligent device 6 in the transmission process. Buffering is allowed. The file data being played and (secondly) the data to be played are preferentially transmitted so as to be smoothly played.

Compared with the existing data interaction mode among intelligent tools, the technical scheme is more convenient and fast. In the existing data interaction mode, a user is generally required to determine data to be transmitted; then determining a data transmission mode, such as local area network transmission, infrared transmission or Bluetooth transmission, and enabling the two intelligent tools to perform data connection; then, determining a path for storing data by the intelligent tool for receiving the data; and finally, the data transmission can be completed. According to the technical scheme, the operation process of the user is greatly simplified, and the data interaction operation is more convenient and faster. More importantly, the invention not only realizes the moving and the storage of the virtual articles in the single machine, but also realizes the taking, the storage and the transmission of the virtual articles among multiple machines, so that the data interaction process is more visual, direct, visual and realistic.

The foregoing illustrates and describes the general principles and features of the invention with the advantages thereof. It will be understood by those skilled in the art that the present invention is not limited by the foregoing method of use, and that the foregoing method of use and description are illustrative of the principles of the invention and various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (5)

1. The data synchronous transmission method is characterized in that the data transmitted by the first intelligent equipment for transmitting the data also comprises the current execution information of the virtual article, and after the data transmission is finished, the second intelligent equipment for receiving the data executes the state of the data when the data is transmitted;

if the picture file which is already opened on the first intelligent device is transmitted, the picture file is also opened on the second intelligent device after the transmission part is completed or the transmission part is completely completed; if the audio file which is already opened by the first intelligent device is transmitted, the audio file is also opened on the second intelligent device after the transmission part is completed or the transmission part is completely completed; if the video file is transmitted in an open mode, the video file is also opened on the second intelligent device after the transmission part is completed or the transmission part is completely completed; if the file of the opened document file type is transmitted, the file of the document file type is also opened on the second intelligent device after the transmission is partially or completely completed; when the transmission file is an audio file or a video file in playing, synchronously playing on the second intelligent device in the transmission process;

preferentially transmitting the file data which is being played and the data to be played;

the first intelligent device comprises a microprocessor system and a display screen, wherein the microprocessor system is connected with a touch screen arranged on the display screen and is used for processing touch action information on the touch screen and associating the touch action information with display content on the display screen;

the touch screen is provided with a touch point group with at least two touch points, and the virtual article is regarded as being held when the virtual article is respectively pressed by the at least two touch points in the touch point group;

when the virtual article is held, the virtual article moves along with the movement of the touch point group;

the touch point group holds a virtual article on the first intelligent device, then the touch point group is removed, and the virtual article is regarded as being picked up on the first intelligent device;

presenting a touch point group on a touch screen of a second intelligent device, wherein the distance between at least two touch points in the touch point group is increased, and the virtual object is regarded as being laid down at a position between the two touch points;

the first intelligent device transmits data information associated with the virtual article to a second intelligent device through data communication;

when more than two other intelligent devices except the first intelligent device are provided, the same virtual object is allowed to be taken from the first intelligent device to more than one intelligent device.

2. The data synchronous transmission method according to claim 1, characterized in that: the intelligent tool comprises at least one of a computer, a mobile phone, a game machine, an electronic book, an MP4 and an electronic photo album.

3. The data synchronous transmission method according to claim 1, characterized in that: when a virtual item is picked up, its associated data information is moved together.

4. The data synchronous transmission method according to claim 1, characterized in that: in the communication process, the second intelligent device firstly sends a data receiving request, and the first intelligent device sends data after receiving the data receiving request;

the data receiving request sent by the second intelligent device is non-directional, the objects which are requested to send data have no pertinence, namely the objects are not only for the first intelligent device, the number of the objects which are requested to send data is at least two, and after some or all of the objects which are requested to send data determine to send data, data interaction is carried out.

5. The data synchronous transmission method according to claim 1, characterized in that: in the communication process, the first intelligent device sends a data sending request, and when the second intelligent device determines to receive data, namely when a virtual article is taken to the second intelligent device, the second intelligent device starts to establish connection to receive the data;

the data sending request sent by the microprocessor system of the first intelligent device is non-directional, the requested receiving objects have no pertinence, namely the data sending request is not only specific to the second intelligent device, the number of the requested receiving objects is at least two, and after some or a plurality of or all the requested receiving objects determine to send data, data interaction is carried out.

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