WO2012022260A1 - System for transmission and reception of touch screen related data - Google Patents

Abstract

A system for the transmission and the reception of touch screen related data, a data transmission technology in particular. A transmission command confirmation process is included in a data transmission process in a first microprocessor system of a data transmission smart tool; if a piece of operation motion information on an image by a user is judged by the transmission command confirmation process to match a preset data transmission command, then a preparation is made to start a data transmission related to the image. A reception command confirmation process is included in a data reception process preset in a second microprocessor system of a data reception smart tool; if the piece of operation motion information on the image by the user is judged by the reception command confirmation process judges to match a preset data reception command, then data reception is started. The image related to the data received is generated on the page whereon the user is executing the operation action. As operations formerly necessitating the user to perform separate executions are now executed by process control, the user operation procedures are simplified, and the operation speed is increased.

Description

 Data transmitting and receiving system associated with touch screen

Technical field

 The present invention relates to the field of electronics, and in particular to data transfer techniques. Background technique

 The touch screen is convenient for users to directly and intuitively operate the data information on the display screen, so it is very popular among users. Touch screens are now widely used in intelligent systems such as computers, mobile phones, game consoles, automation control systems, and printers.

 The existing touch screen can only operate on data information on a single intelligent system, and cannot directly and directly operate data information between multiple intelligent systems. For example, you can only move pictures or icons by touch on a display on a computer or other smart system, but you cannot move pictures or icons between multiple computers or other intelligent systems. It brings inconvenience to the interaction of data and information between smart tools.

 There are more and more portable smart tools, and more and more operations are needed to exchange data with each other. Nowadays, people's data interaction between smart tools is more complicated. It brings inconvenience to people's work and life. Summary of the invention

 It is an object of the present invention to provide a data transmission intelligent tool to solve the above technical problems. The object of the present invention is also to provide a data receiving intelligent tool to solve the above technical problems. The data sending smart tool can be used together with the data receiving smart tool to further facilitate user use.

 The invention can be implemented by the following technical solutions:

The data transmitting and receiving system associated with the touch screen includes a data sending smart tool, a data receiving smart tool, and the data sending smart tool includes a first micro processor system, the first micro processor system is connected to the first touch screen system, and is also connected a first communication module, wherein the data sending smart tool displays an image on a first display screen, and the first touch screen system acquires a user An operation action on the image, and transmitting operation action information of the image to the first microprocessor system;

 a data transmission program is preset in the first microprocessor system, and the data transmission program includes a transmission operation command determining program, and the transmission operation command determining program determines whether the operation operation information of the image by the user conforms to a preset The data transfer instruction, if compliant, is ready to perform a data transfer associated with the image.

 The above technical solution is more convenient than the operation of the smart tool for sending data to the outside. In the existing data transmission mode, the user first needs to determine the data to be transmitted first; then determine the manner of data transmission, such as determining the transmission through the local area network, infrared transmission or Bluetooth transmission, and making the two smart tools connect the data; You need to determine which smart tool to send data to; then determine the send. However, in the specific use of the data transmission intelligent tool of the present invention, the data transmission operation can be completed only by performing a simple operation on the image related to the data to be transmitted through the touch screen.

 The data receiving smart tool includes a second micro processor system, the second micro processor system is connected to the second touch screen system, and is further connected to the second communication module, wherein the second touch screen system acquires operation action information of the user. And transmitting the operation action information to the second microprocessor system; the second microprocessor system is preset with a data receiving program, the data receiving program includes a receiving action command determining program, and the receiving action command determining program It is judged whether the operation operation information of the user conforms to a preset data reception instruction, and if it is met, the reception of data is started; the associated image of the received data (file) is generated on a page on which the user performs an operation action. The associated image may be an icon or a picture when the picture data itself is opened.

 The above technical solution is more convenient than the operation of the existing smart tool for receiving data externally. The data received by the existing smart tool and the data (file) are saved in a pre-designated document, or the document needs to be specified immediately. The associated image is not generated on the currently open page. Data Delivery Smart tools work with data-receiving smart tools for added convenience.

 The data transmission program further includes a transmission data determination program, a data transmission hardware device check startup program, and a data transmission process program, wherein the transmission operation instruction determination program determines that the user's operation action information on the image conforms to a preset data transmission instruction. After that, the transmission data determination program, the data transmission hardware device check startup program, and the data transmission process program are prepared to perform data transmission.

In the process of data transmission, the operation that the user originally needs to perform separately is changed to be sent by the data. Program control execution simplifies user operations and increases operating speed.

 The data receiving program further includes a data receiving hardware device check start program, a device data connection check start program, and a data receiving process program, wherein the receiving action command determining program determines whether the user's operation action information meets preset data After receiving the instruction, the data receiving hardware device check start program, the device data connection check start program, and the data receiving process program are respectively performed to perform data reception.

 During the data receiving process, the operations that were originally required to be performed by the user are instead controlled by the data receiving program, which simplifies the user operation steps and improves the operation speed. Because the device data connection check initiator is included, the user does not need to operate separately when establishing a data connection between the data receiving smart tool and the data sending smart tool. Moreover, even if there are other smart tools that can communicate within the data transmission range, it can ensure that the data connection is established between the data sending smart tool and the data receiving smart tool.

 The data transmission process program first controls the first communication module to send an inquiry signal outward; the data reception process program controls the second communication module to send an acknowledge connection signal after receiving the inquiry signal; the first communication After receiving the confirmation signal, the module establishes a data connection with the second communication module to perform data transmission.

 The path in which the data receiving smart tool saves the received data is stored in a page on which the user executes the operation action information in accordance with the received action instruction determining program. In order to grasp the data storage path.

 The data transmitted by the first communication module further includes information of an image related to the data, and after the data transmission is completed, the image is displayed on the data receiving smart tool.

 The data transmitted by the first communication module further includes current execution information of the data. The data receiving smart tool executes the data to the state of the transmission on the data receiving smart tool after the data transmission is completed, including the current execution information of the data.

 If the image file that is opened on the data sending smart tool is transmitted, the image file is also opened on the data receiving smart tool after the transmission part is completed or completely completed; if the data file is transmitted, the audio file is opened by the smart tool. , the audio file is also opened on the data receiving smart tool after the transmission part is completed or completely completed. If you are transferring an open video file, a document file, etc., you can also use the same as above.

The first communication module and the second communication module respectively adopt Bluetooth, infrared, and Intel A communication mode of one mode or a plurality of mode transmission modes in a communication mechanism such as a network, a wired LAN, a wireless local area network, or a mobile phone network.

 When the first communication module and the second communication module adopt a communication module based on a Bluetooth or an infrared communication mechanism, data transmission can be conveniently performed between two smart tools without requiring third party intervention.

 The first communication module and the second communication module adopt a communication module based on a communication mechanism such as the Internet, a wired local area network, a wireless local area network, or a mobile phone network, and can transmit data at a higher speed.

 The first communication module and the second communication module each have at least two transmission modes, that is, a first transmission mode and a second transmission mode. First, the data transmission smart tool passes and waits for the first transmission mode. Transmitting the data link associated with the transmission data to the data receiving smart tool;

 Then, the data receiving smart tool opens the data link, and acquires data to be transmitted by using a second transmission manner, and the second transmission mode has a higher transmission speed than the first transmission mode.

 In the above technical solution of the present invention, two or more data transmission modes are organically combined by means of two transmission modes for respectively transmitting data links and data contents, thereby realizing respective advantages and eliminating disadvantages.

 The first transmission mode adopts a Bluetooth transmission mode, and the second transmission mode adopts a wireless network communication transmission mode. In order to combine the convenience of Bluetooth transmission and the fast features of Wi-Fi (wireless network communication) transmission.

 The data link includes a storage path of the data to be transmitted in the data sending smart tool, and the data receiving smart tool downloads the data to be transmitted from the data sending smart tool according to the storage path in the data link by using the second transmission mode. data.

 The data link can be a link to a data storage path or a web link. Data Receiving The smart tool downloads data to be transmitted from the website.

 The first transmission mode adopts a Bluetooth transmission mode, and the second transmission mode adopts a broadband transmission mode.

 The first transmission mode adopts an infrared transmission mode, and the second transmission mode adopts a Wi-Fi transmission mode.

The data transmission smart tool and the data receiving smart tool have a Bluetooth communication permission. The data transmission smart tool and the data receiving smart tool have a wireless local area network communication permission.

 The data transmission smart tool and the data receiving smart tool have an internet communication license.

 The judgment standard of the data transmission instruction includes at least one standard sending gesture action, and when the gesture action drawn by the user on the first touch screen meets the standard sending gesture action, the data transmission is prepared. The receiving action command includes at least one standard receiving gesture action, and when the gesture action drawn by the user on the second touch screen meets the standard receiving gesture action, the data receiving is prepared.

 The standard send gesture action for a multi-touch screen can be:

 Forming a touch point group of at least two touch points on a touch screen of the first touch screen system, and the first microprocessor system is regarded as the first display when a distance between at least two touch points in the touch point group is shortened The image displayed on the screen between the two touch points is taken, and then the touch point group is removed, and the image is considered to be picked up, ready to be sent.

 The image may be a virtual item, and the virtual item refers to a picture, a folder, an icon, a virtual button, a virtual character, and the like. The above design enables the virtual item to be taken, enabling the virtual item to behave like the actual item. Make smart tool operations more intuitive and convenient. When the virtual item is taken, its associated data information is moved together.

 The image is considered to be held when at least two of the touch point groups are pressed against the image.

 The standard receiving gesture action for a multi-touch screen can be:

 A touch point group is presented on the touch screen of the second touch screen system, and at least two of the touch point groups become larger in distance, and the image is considered to be placed at a position between the touch point groups.

 The touch points in the touch point group described in the above design can be simply set to only two touch points. It is easier to process data when there are only two touch points, and it is not easy to cause an erroneous operation.

 Especially for single touch screens:

The standard sending gesture action is preferably a continuous gesture action for ease of operation. The standard sending gesture action includes: performing a touch operation on the display image on the first touch screen, and dragging the touch point to the edge of the first touch screen. This operation has the meaning of throwing data associated with the image to send the smart tool, not only to grasp the operation method, but also to give the user virtual data. The feeling of materialization.

 The standard receiving gesture action is preferably a continuous gesture action to facilitate ease of operation.

 The standard receiving gesture action includes an action of drawing a closed curve on the second touch screen. It is not only easy to grasp the operation method, but also easy to distinguish from other gesture actions, and it is easy to determine the display position of the image on the data receiving smart tool after the data is received, the display position can be the closed curve drawn, or the drawing is closed. The center of the curve.

 In specific applications:

 The transmitted data can also be virtual characters, and the virtual characters can be virtual people, cartoon characters, virtual animals, and the like.

 The data sending smart tool has a virtual character program, and the virtual character program includes at least one virtual character;

 The first microprocessor system is provided with a virtual character holding the action instruction and the virtual character dropping the action instruction;

 When the touch action on the touch screen conforms to the virtual character holding the action instruction, the virtual character is taken;

 When the touch action on the touch screen conforms to the virtual character drop action instruction, the virtual character is dropped;

 When the virtual character holds the action instruction on the data sending smart tool, and then executes the virtual character drop action instruction on the data receiving smart tool, the data sending smart tool sends the data with the virtual character through data communication. The data is sent to the data receiving intelligent tool, and the data receiving smart tool generates a virtual character according to the transmitted data, thereby completing the transmission of the virtual character from the data sending smart tool to the data receiving smart tool. After the virtual character is taken, the current page should become virtual, or disappear, to remind you to be taken. The above technical solution can realize the transfer of a virtual character from one computer device to another.

 The data sending smart tool and the data receiving smart tool may be smart devices with computing power such as a computer, a tablet computer, a mobile phone, a game machine, and a player.

The data sending smart tool stores the character attribute data of the virtual character, and the character characteristic data of the virtual character is transmitted to the data receiving smart tool by the communication module, and the data receiving smart tool generates a virtual character according to the character characteristic data, thereby Complete the transfer of the virtual character from the data sending smart tool to the data receiving smart tool. The virtual character is set in the data receiving intelligent tool Prepare for your own activities.

 It should be noted that the transmission of the virtual character as described in the present invention is different from the previous online game. In the past, online games mostly run the main program on the server (which can be a general computer), and then other computer devices connected to the server to perform data interaction with the server to complete the control of the virtual character. This virtual role is not generated on other computers, and the virtual role's activity still depends on the server. The present invention, in addition, generates a separate virtual character on other computer devices.

 The character attribute data transmitted contains sufficient data that the virtual character is independently active on the data receiving smart tool. The virtual character generated on the data receiving smart tool can be run away from the data sending smart tool, and the virtual character can still be active even if the data sending smart tool is turned off.

 The virtual character program in the data receiving smart tool has a virtual character program generated according to the character characteristic data, thereby completing transmission of the virtual character from the data sending smart tool to the data receiving smart tool. .

 The virtual character program on the data receiving smart tool should start itself at least after the end of the character property data transmission.

 In the case that the virtual character program is not included in the data receiving smart tool, the virtual character program may be simultaneously transmitted during the transmission of the virtual character from the data sending smart tool to the data receiving smart tool, and after the transmission ends The virtual character program runs on its own.

 The data sending smart tool can send control information to the virtual character to the data receiving smart tool through the communication module to implement control of the virtual character. The virtual character can be controlled to communicate or wrestle.

 When the role characteristic data of the virtual character on the data receiving smart tool changes, it is timely transmitted back to the data sending smart tool to update the characteristic data stored in the data sending smart tool. In order to ensure that the latest character attribute data of the virtual character is stored in the data sending smart tool.

 When the role characteristic data of the virtual character on the data receiving smart tool changes, when the virtual character returns to the data sending smart tool, the characteristic data stored in the data sending smart tool is updated. To save data traffic.

The data sending smart tool stores the characteristics of the computer device that the virtual character has been to Information, the virtual character searches for other computer devices that have been visited by the communication module by itself, and after transmitting the computer device that meets the condition, transmits the computer device to the computer device. Self-transmission can be set to random transmission. To enhance the realism of virtual characters.

 The virtual character program includes a virtual scenario. When the character feature data of the virtual character is transmitted to the data receiving smart tool by the data sending smart tool, the virtual scene characteristic data in the data receiving smart tool is transmitted to the data sending smart tool, and the data is sent. The image of the virtual character in the virtual scene on the data receiving smart tool is displayed on the smart tool.

 The virtual character program uses the current display page of the computer device as the virtual scene, and the first micro processor system or the second micro processor system of the computer device converts the current display page into the virtual character program. a virtual scene, which in turn causes the virtual character to interact with the picture in the currently displayed page. For example, virtual characters interact with folder icons, song icons, shortcuts, and more.

 When the virtual character has an influence on the virtual scene, the first microprocessor system or the second microprocessor system reads the change information of the virtual scene, and correspondingly changes the currently displayed page information. For example, change the location, size and other information of folders, songs, shortcuts and other icons.

 The current interface displayed on the display by the virtual scene in the data receiving smart tool is timely transmitted to the data sending smart tool. In order to facilitate the data sending smart tool to timely grasp the activity of the virtual character on the data receiving smart tool.

 Preferably, before the execution of the virtual character holding action command and the virtual character drop action command between the data sending smart tool and the data receiving smart tool, it is preferable to obtain a communication permission in advance. For example, the chanting is programmed into the same local area network, or the Bluetooth communication permission is obtained. The above design emphasizes that it is best to obtain communication permission first, and does not emphasize the establishment of a data connection relationship in advance. The LAN communication can be turned on beforehand, and the Bluetooth communication module can be left unopened. It can effectively guarantee the security and convenience of data transmission.

And a touch point group having at least two touch points on the touch screen of the data sending smart tool, and when the distance between at least two touch points in the touch point group is shortened, it is deemed that the virtual character is held by the action command, The first microprocessor system is considered to be holding a virtual character displayed between the two touch points displayed on the first display screen, the virtual character being operated by the touch point group. When the touch point group is removed, it is considered that the virtual character is picked up. Through the above design, an operation in which a virtual character can be picked up like a real thing is realized. Further enhance the realism of virtual characters.

 A touch point group is presented on the touch screen, and at least two touch points in the touch point group become larger, which is deemed to conform to the virtual character drop action instruction, and the virtual character is regarded as being dropped.

 Through the above design, it is realized that the virtual character can be put down like a real thing. Further enhance the realism of virtual characters.

 And, when a touch point is on the virtual character, and continuously slides to the edge of the first display screen, it is deemed that the virtual character holds the action instruction, and the first microprocessor system is regarded as The virtual character is taken or picked up. When a closed curve is drawn on the touch screen at a touch point, the virtual character is considered to be dropped.

 The above design can be realized only by a single touch screen, which can reduce the requirements on hardware devices while satisfying the realism. DRAWINGS

 FIG. 1 is a schematic structural diagram of a data sending intelligent tool;

 In FIG. 2, a is a schematic diagram of a standard sending gesture action for multi-touch; in FIG. 2, b is a schematic diagram of a standard receiving gesture action for multi-touch; in FIG. 3, a is for a single point. A schematic diagram of a standard gesture of sending a gesture; FIG. 3 is a schematic diagram of a standard receiving gesture action for a single touch; FIG. 4 is a schematic diagram of the operation of transmitting data as a virtual character. detailed description

 In order to understand the technical means, the creative features, the purpose and the effect of the invention, it is easy to understand and understand.

Referring to FIG. 1 a, the data transmitting and receiving system associated with the touch screen includes a data sending smart tool, a data receiving smart tool, and the data sending smart tool includes a first micro processor system 1 and the first micro processor system 1 is connected. The first touch screen system 3 is further connected to the first communication module, and the data sending smart tool displays an image on the first display screen 2. The first touch screen system 3 acquires an operation action of the user on the image, and transmits the operation action information of the image to First microprocessor system 1. a data transmission program is preset in the first microprocessor system 1, and the data transmission program includes a transmission operation command determination program, and the transmission operation command determination program determines whether the operation operation information of the user on the image conforms to a preset data transmission instruction. If it is met, it is ready to perform data transmission associated with the image.

 The above technical solution is more convenient than the operation of the smart tool for sending data to the outside. In the existing data transmission mode, the user first needs to determine the data to be transmitted first; then determine the manner of data transmission, such as determining the transmission through the local area network, infrared transmission or Bluetooth transmission, and making the two smart tools connect the data; You need to determine which smart tool to send data to; then determine the send. However, in the specific use of the data transmission intelligent tool of the present invention, the data transmission operation can be completed only by performing a simple operation on the image related to the data to be transmitted through the touch screen.

 Referring to FIG. 1 b, similar to the data transmission smart tool, the data receiving smart tool includes a second micro processor system la, the second micro processor system la is connected to the second touch screen system 3a, and is also connected to the second communication module, second The touch panel system 3a acquires the operation action information of the user, and transmits the operation action information to the second microprocessor system 1a. a data receiving program is preset in the second microprocessor system 1a, the data receiving program includes a receiving action command determining program, and the receiving action command determining program determines whether the user's operation action information conforms to a preset data receiving command, and if so, Then start receiving data. The associated image of the received data (file) is generated on the page where the user performs the action. The associated image can be an icon or a picture when the image data itself is opened.

 The above technical solution is more convenient than the operation of the existing smart tool for receiving data externally. The data received by the existing smart tool and the data (file) are saved in a pre-designated document, or the document needs to be specified immediately. The associated image is not generated on the currently open page. Data Delivery Smart tools work with data-receiving smart tools for added convenience. In specific use, the data sending intelligent tool and the data receiving intelligent tool can be interchanged, that is, the same smart tool can be used as a data sending intelligent tool or as a data receiving intelligent tool.

The data transmission program further includes a transmission data determination program, a data transmission hardware device check startup program, and a data transmission process program, and respectively after the transmission operation instruction determination program determines that the user operation information of the image conforms to a preset data transmission instruction, respectively The transmission data determination program, the data transmission hardware device check startup program, and the data transmission process program are prepared for data transmission. During the data transmission process, the operation that the user originally needs to perform is changed to be controlled by the data transmission program. It simplifies the user's operation steps and improves the operation speed.

 The data receiving program may further include a data receiving hardware device check start program, a device data connection check start program, and a data receiving process program, after receiving the action command determining program to determine whether the user's operation action information meets a preset data receiving instruction The data receiving hardware device check start program, the device data connection check start program, and the data receiving process program are respectively performed to perform data reception.

 During the data receiving process, the operations that were originally required to be performed by the user are instead controlled by the data receiving program, which simplifies the user operation steps and improves the operation speed. Because the device data connection checker is included, the data connection between the data receiving smart tool and the data sending smart tool is no longer required for the user to operate separately. Moreover, even if there are other smart tools that can communicate within the data transmission range, it can ensure that the data connection is established between the data sending smart tool and the data receiving smart tool.

 The data transmission process program first controls the first communication module to send an inquiry signal outward; the data reception process program controls the second communication module to send an acknowledge connection signal after receiving the inquiry signal; the first communication module receives the confirmation signal, and the second A data connection is established between the communication modules for data transmission.

 The path in which the data receiving smart tool saves the received data is a page stored in the user's execution of the operation action information conforming to the received action instruction determining program. In order to grasp the preservation path of the data.

 The data transmitted by the first communication module further includes information of an image related to the data, and after the data transmission is completed, the image is displayed on the data receiving smart tool.

 The data transmitted by the first communication module further includes current execution information of the data. The data receiving smart tool performs the data to the state of the transmission on the data receiving smart tool after the data transmission is completed, including the current execution information of the data. For example, if the transmitted image file is transmitted on the data sending smart tool, the image file is also opened on the data receiving smart tool after the transmission part is completed or completely completed. For another example, if the transmitted audio file is transmitted by the data sending smart tool, the audio file is also opened on the data receiving smart tool after the transmission part is completed or completely completed. For example, if you are transferring an open video file, a document file, etc., you can also use the same.

The first communication module and the second communication module respectively adopt one mode or multiple modes based on communication mechanisms such as Bluetooth, infrared, Internet, wired local area network, wireless local area network or mobile phone network. Communication module for the input mode.

 When the first communication module and the second communication module respectively adopt the communication module based on the Bluetooth and the infrared communication mechanism, the data transmission can be conveniently performed between the two smart tools without the intervention of the third party.

 The first communication module and the second communication module respectively adopt communication modules based on communication mechanisms such as the Internet, a wired local area network, a wireless local area network, or a mobile phone network, and can transmit data at a higher speed.

 The first communication module and the second communication module each have at least two transmission modes, that is, a first transmission mode and a second transmission mode. First, the data sending smart tool transmits a data link associated with the data to be transmitted to the data receiving smart tool through the first transmission mode; then, the data receiving smart tool opens the data link, and obtains the data to be transmitted by using the second transmission method. The second transmission method has a higher transmission speed than the first transmission method.

 In the above technical solution of the present invention, two or more data transmission modes are organically combined by means of two transmission modes for respectively transmitting data links and data contents, thereby realizing respective advantages and eliminating disadvantages.

 Preferably, the combination of the two transmission modes uses a Bluetooth transmission mode for the first transmission mode and a wireless network communication transmission mode for the second transmission mode. In order to combine the convenience of Bluetooth transmission and the fast features of Wi-Fi (wireless network communication) transmission.

 The combination of the two transmission modes may also be: the first transmission mode adopts the Bluetooth transmission mode, the second transmission mode adopts the broadband transmission mode; the first transmission mode adopts the infrared transmission mode, and the second transmission mode adopts the infrared transmission mode, and the second transmission mode adopts the Wi-Fi transmission mode. the way.

 The transmitted data link contains the storage path of the data to be transmitted in the data sending intelligent tool, and the data receiving intelligent tool downloads the data to be transmitted from the data sending intelligent tool according to the storage path in the data link by the second transmission method. The transmitted data link can also be linked to a data download URL. The data receiving smart tool downloads the data to be transmitted from the website.

 In order to ensure the security of the transmitted data, there should be a Bluetooth communication license between the data sending smart tool and the data receiving smart tool. Alternatively, there should be a WLAN communication license between the data sending smart tool and the data receiving smart tool. Or, there is an Internet communication permission between the data sending smart tool and the data receiving smart tool.

The judgment standard of the data transmission instruction includes at least one standard sending gesture action, and when the gesture action drawn by the user on the first touch screen meets the standard sending gesture action, the number is ready to be performed. According to transmission. The receiving action command includes at least one standard receiving gesture action, and when the gesture action drawn by the user on the second touch screen conforms to the standard receiving gesture action, the data receiving is ready.

 Referring to a diagram of FIG. 2, a standard transmission gesture action for a multi-touch screen may be: forming a touch point group 51 of at least two touch points on the touch screen 5 of the first touch screen system 3, and at least one of the touch point groups 51 When the distance between the two touch points is shortened, the first microprocessor system 1 regards the image 52 located between the two touch points displayed on the first display screen 2 being held, and then removing the touch point group 51, It is considered that the image 52 is picked up and ready to be sent. It can be set that the image is held when at least two touch points in the touch point group 51 are pressed against the image, respectively.

 The image 52 can be a virtual item, and the virtual item refers to a picture, a folder, an icon, a virtual button, a virtual character, and the like. The above design enables the virtual item to be taken, enabling the virtual item to be subjected to the same operation as the actual item. Make smart tool operations more intuitive and convenient. When the virtual item is taken, its associated data information is moved together.

 Referring to the b diagram of FIG. 2, the standard receiving gesture action for the multi-touch screen may be: presenting a touch point group 61 on the touch screen 6 of the second touch screen system 3a, and touching at least two of the touch point groups 61 The distance 612 becomes larger, and the image 52' is regarded as being placed at a position between the touched points 611, 612. In the above design, the touch points in the touch point group 61 are simply set to be only two touch points, and it is easier to process data when there are only two touch points, and it is not easy to cause an erroneous operation.

 Especially for single touch screens:

 Referring to Figure a in Figure 3, the standard send gesture action is preferably a continuous gesture action to facilitate ease of operation. The standard sending gesture action includes: performing a touch operation on the touch screen 14 of the first touch screen system 3, that is, above the display image 15 on the first touch screen, and dragging the touch point toward the edge of the touch screen 14. This operation has the meaning of throwing data associated with the image 15 to send the smart tool, not only to grasp the operation method, but also to give the user the feeling of realizing the virtual data.

 Referring to Figure b in Figure 3, the standard receiving gesture action is preferably a continuous gesture action to facilitate ease of operation. The standard receiving gesture action includes an action of drawing a closed curve 25 on the touch screen 24 of the second touch screen system 3a, i.e., on the second touch screen. Not only is it easy to grasp the operation method, it is easy to distinguish from other gesture actions, and it is easy to determine the display position of the image 26 on the data receiving smart tool after the data reception is completed, and the display position can be the closed curve 25 drawn, or the drawing is closed. Center of curve 25.

In specific applications: Referring to FIG. 4, the transmitted data may also be a virtual character 41, which may be a virtual person, a cartoon character, a virtual animal, or the like. The data sending smart tool has a virtual character program, and the virtual character program includes at least one virtual character 41. The first microprocessor system 1 is provided with a virtual character holding action command and a virtual character drop action command. When the touch action on the touch screen 42 conforms to the virtual character holding the action command, the virtual character 41 is picked up or picked up. When the touch action on the touch screen 43 of the data receiving smart tool conforms to the virtual character drop action command, the virtual character is dropped.

 When the virtual character holds the action instruction on the data sending smart tool, and then executes the virtual character drop action instruction on the data receiving smart tool, the data sending smart tool transmits the data of the virtual character 41 to the data receiving smart tool through data communication. The data receiving smart tool generates a virtual character 44 based on the transmitted data, thereby completing the transmission of the virtual character 41 from the data sending smart tool to the data receiving smart tool. After the virtual character 41 is held, it should become virtual on the current page, or disappear, to remind you to be taken. The above technical solution can realize that a virtual character 41 is transferred from one computer device to another computer device. The data sending smart tool and the data receiving smart tool can be smart devices with computing power such as computers, tablets, mobile phones, game machines, and players.

 In the specific data transmission, the data transmission intelligent tool stores the role characteristic data of the virtual character 41. The character characteristic data of the virtual character 41 is transmitted to the data receiving intelligent tool through the communication module, and the data receiving intelligent tool generates the virtual character 44 according to the character characteristic data. Thereby, the transmission of the virtual character 41 from the data sending smart tool to the data receiving smart tool is completed. The virtual character 44 is active on the data receiving smart tool device. The transmitted character attribute data contains sufficient data for the virtual character 44 to independently act on the data receiving smart tool. The virtual character 44 generated on the data receiving smart tool can be run off the data sending smart tool, and the virtual character 44 can still be active even if the data sending smart tool is turned off.

 It should be noted that the transmission of the virtual character described in the present invention is different from the usual online game. In the past, online games mostly run the main program on the server (which can be a general computer), and then other computer devices are connected to the server to perform data interaction with the server to complete the control of the virtual character. This virtual role is not generated on other computers, and the virtual character's activity still depends on the server. The present invention, in addition, generates a virtual character 44 on other computer devices.

The specific implementation may be: a virtual character program on the data receiving smart tool, and a virtual character program in the data receiving smart tool generates a virtual character 44 according to the virtual character characteristic data, thereby The transfer of the virtual character 41 from the data sending smart tool to the data receiving smart tool is completed. At least after the end of the character attribute data transmission, the virtual character program on the data receiving smart tool should start itself.

 In the specific implementation, the virtual character program can be simultaneously transmitted in the process of transmitting the virtual character 41 from the data sending smart tool to the data receiving smart tool in the case that there is no virtual character program on the data receiving smart tool. The virtual character program runs on its own.

 The data sending smart tool can send control information to the virtual character 44 to the data receiving smart tool through the communication module to implement control of the virtual character 44. The virtual character 44 can be controlled to communicate or wrestle.

 When the role characteristic data of the virtual character 44 on the data receiving smart tool changes, it is timely transmitted back to the data sending smart tool to update the characteristic data stored in the data sending smart tool. In order to ensure that the latest character characterization data of the virtual character is stored in the data sending smart tool.

 Alternatively, when the character attribute data of the virtual character 44 on the data receiving smart tool changes, when the virtual character 44 returns to the data sending smart tool, the characteristic data stored in the data sending smart tool is updated. To save data traffic. When the virtual character 44 returns the data sending smart tool from the data receiving smart tool, that is, when the data receiving smart tool transmits the data of the virtual character 44 to the data sending smart tool virtual character 41 through data communication, the data receiving virtual role on the smart tool 44 disappeared.

 The data sending smart tool stores the feature information of the computer device that the virtual character 41 has visited. The virtual character 41 searches for other computer devices that have been used to establish a data connection through the communication module, and after searching for the computer device that meets the condition, , transfer to the computer device by itself. Self-transmission can be set to random transmission. To enhance the realism of virtual characters.

 The virtual character program includes a virtual scene. When the role characteristic data of the virtual character 41 is transmitted to the data receiving smart tool, the virtual scene characteristic data in the data receiving smart tool is transmitted to the data sending intelligent tool, and the data sending intelligent data is transmitted. The tool displays an image of the virtual character 44 in the virtual scene on the data receiving smart tool.

The virtual character program may use the current display page of the data sending smart tool or the data receiving smart tool as a virtual scene, and the first micro processor system 1 or the second micro processor system la of the data sending smart tool or the data receiving smart tool will display the current page. It is converted into a virtual scene in which the virtual character 41 or the virtual character 44 is located, thereby causing the virtual character 41 or the virtual character 44 to interact with the picture in the currently displayed page. Such as virtual characters and folder icons, song icons, shortcuts, etc. Interaction.

 When the virtual character 41 or the virtual character 44 affects the virtual scene, the first microprocessor system 1 or the second microprocessor system la reads the change information of the virtual scene and correspondingly changes the current page information. For example, change the location, size, etc. of icons such as folders, songs, and shortcut keys.

 The virtual interface in the data receiving smart tool is timely transmitted to the data sending smart tool on the current interface displayed on the display. In order to facilitate the data transmission smart tool to grasp the activity of the virtual character 44 on the data receiving smart tool.

 It is best to obtain communication permission before the execution of the virtual character holding action command and the virtual character to drop the action command between the data sending smart tool and the data receiving smart tool. For example, you can program the same LAN, or you can get Bluetooth communication permission. The above design emphasizes that it is best to obtain a communication license in advance, and does not emphasize the establishment of a data connection relationship in advance. The local area network communication may not be turned on before, and the Bluetooth communication module may not be turned on. It can effectively guarantee the security and convenience of data transmission.

 For the operation of multi-touch, referring to the operation modes shown in a and b of Fig. 2, the view image 52 and the image 52' are virtual characters. The touch point group 51 having at least two touch points on the touch screen 5 of the first touch screen system 3, and when the distance between at least two touch points in the touch point group 51 is shortened, it is regarded as conforming to the virtual character holding the action instruction, the data The virtual character, image 52, located between the two touch points displayed on the first display 2 of the sending smart tool is held, and the virtual character is operated by the touch point group 51. When the touch point group 51 is removed, it is considered that the virtual character is picked up. Through the above design, an operation in which a virtual character can be picked up like a real thing is realized. Further enhance the realism of virtual characters.

 A touch point group 61 is presented on the touch screen of the data receiving smart tool, and at least two touch points 611, 612 of the touch point group 61 become larger in distance, and are regarded as conforming to the virtual character, that is, the image 52' put down the action instruction, which is regarded as virtual The character is put down. Through the above design, an operation in which a virtual character can be put down like a real thing is realized. Further enhance the realism of virtual characters.

For the operation of the single touch, referring to FIG. 4, when a touch point is on the virtual character 41, and continuously slides to the edge of the first display screen 2 of the data transmission smart tool, it is regarded as conforming to the virtual character holding the action instruction, the first miniature The processor system 1 regards the virtual character 41 as being picked up or picked up. When a closed curve 45 is drawn on the touch screen 43 of the data receiving smart tool at a touch point, the virtual character 44 is considered to be dropped. The above design can be realized only by a single touch screen, and the requirements for hardware devices can be reduced under the premise of satisfying the realism.

 The above shows and describes the basic principles of the invention and the main features of the invention's advantages. A person skilled in the art should understand that the invention is not limited by the above-mentioned methods of use. The above-described methods of use and the descriptions are only the principles of the invention, and various changes and modifications may be made without departing from the spirit and scope of the invention. The scope of the invention is defined by the appended claims and their equivalents.

Claims

Claim

1. The data transmitting and receiving system associated with the touch screen comprises a data sending smart tool, a data receiving smart tool, the data sending smart tool comprising a first micro processor system, the first micro processor system being connected to the first touch screen system, And connecting, to the first communication module, the data sending smart tool displays an image on the first display screen, the first touch screen system acquires an operation action of the user on the image, and performs operation action information on the image Transmitting to the first microprocessor system;

 a data transmission program is preset in the first microprocessor system, and the data transmission program includes a transmission operation command determining program, and the transmission operation command determining program determines whether the operation operation information of the image by the user conforms to a preset The data transfer instruction, if compliant, is ready to perform a data transfer associated with the image.

 2. The data transmitting and receiving system associated with the touch screen according to claim 1, wherein: the data receiving smart tool comprises a second microprocessor system, and the second microprocessor system is connected to the second touch screen system, Connecting the second communication module, the second touch screen system acquires operation action information of the user, and transmits the operation action information to the second microprocessor system; the data receiving program is preset in the second microprocessor system, The data receiving program includes a receiving action command determining program, and the receiving action command determining program determines whether the user's operation action information conforms to a preset data receiving instruction, and if yes, starts receiving data; the associated image of the received data A page is generated that is executed by the user.

 3. The data transmission and reception system associated with the touch screen according to claim 2, wherein: the data transmission process program first controls the first communication module to send an inquiry signal outward; the data reception process program control After receiving the inquiry signal, the second communication module sends an acknowledgment connection signal; after receiving the acknowledgment signal, the first communication module establishes a data connection with the second communication module to perform data transmission.

 4. The data transmitting and receiving system associated with the touch screen according to claim 2, wherein: the data receiving smart tool saves the path of the received data to be saved in the user to execute the receiving action instruction determining program. The page that operates the action information.

The data transmitting and receiving system associated with the touch screen according to claim 4, wherein: the data transmitted by the first communication module further includes an image of an image related to the data The image is displayed on the data receiving smart tool after the data transmission is completed.

 The data transmitting and receiving system associated with the touch screen according to claim 1, 2, 3, 4 or 5, wherein: the data transmitted by the first communication module further includes current execution of the data information.

 7. The data transmitting and receiving system associated with a touch screen according to claim 1, 2, 3, 4 or 5, wherein: said first communication module and said second communication module each have at least two transmissions The first transmission mode and the second transmission mode; first, the data transmission smart tool transmits a data link associated with the data to be transmitted to the data receiving smart tool by using the first transmission mode;

 Then, the data receiving smart tool opens the data link, and acquires data to be transmitted by using a second transmission manner, and the second transmission mode has a higher transmission speed than the first transmission mode.

 8. The data transmitting and receiving system associated with the touch screen according to claim 7, wherein: the data link includes a storage path of the data to be transmitted in the data sending smart tool, and the data receiving smart tool according to the The storage path in the data link is downloaded from the data sending smart tool by the second transmission method.

 9. The data transmitting and receiving system associated with a touch screen according to claim 7, wherein: said data link is a web link.

 10. The data transmitting and receiving system associated with the touch screen according to claim 7, wherein: the first transmission mode adopts a Bluetooth transmission mode, and the second transmission mode adopts a wireless network communication transmission mode.

 11. The data transmitting and receiving system associated with a touch screen according to claim 7, wherein: the data transmitting smart tool and the data receiving smart tool have a Bluetooth communication permission.

 12. The data transmitting and receiving system associated with a touch screen according to claim 7, wherein: the data transmitting smart tool and the data receiving smart tool have a wireless local area network communication permission.

13. The data transmitting and receiving system associated with the touch screen according to claim 1, wherein: the determining criterion of the data transmission instruction includes at least one standard sending gesture action, and the user draws on the first touch screen. Gesture action, when the gesture is sent in accordance with the standard, Ready for data transfer, the standard send gesture action is:

 When the touch point group of at least two touch points is formed on the touch screen of the first touch screen system, and the distance between at least two touch points in the touch point group is shortened, the first microprocessor system is regarded as the first display screen The image displayed between the two touch points is held, and then the touch point group is removed, and the image is regarded as being picked up, ready to be sent.

 14. The data transmitting and receiving system associated with a touch screen according to claim 13, wherein: at least two of the touch point groups are respectively regarded as holding the image when the image is pressed .

 The data transmitting and receiving system associated with the touch screen according to claim 2, wherein: the receiving action instruction includes at least one standard receiving gesture action, and the gesture drawn by the user on the second touch screen The action, when receiving the gesture action according to the standard, is ready to receive data, and the standard receiving gesture action is:

 A touch point group is presented on the touch screen of the second touch screen system, and at least two of the touch point groups become larger in distance, and the image is considered to be placed at a position between the touch point groups.

 16. The data transmitting and receiving system associated with the touch screen according to claim 1, wherein: the determining criterion of the data transmission instruction includes at least one standard sending gesture action, and the user is in the first touch screen system. The gesture action drawn on the touch screen, when the gesture is sent according to the standard, is ready for data transmission. The standard gesture gesture is: performing a touch operation on the first touch screen, and dragging the touch point to the first touch screen edge.

 The data transmitting and receiving system associated with the touch screen according to claim 2, wherein: the receiving action instruction includes at least one standard receiving gesture action, and the user draws on the touch screen of the second touch screen system. The gesture action, when the gesture is received according to the standard, is ready to receive data, and the standard gesture gesture includes: drawing a closed curve on the second touch screen.

 18. The data transmitting and receiving system associated with a touch screen according to claim 2, wherein: the transmitted data is also a virtual character;

 The data sending smart tool has a virtual character program, and the virtual character program includes at least one virtual character;

The first microprocessor system is provided with a virtual character holding an action instruction and a virtual character drop action instruction; When the touch action on the touch screen conforms to the virtual character holding the action instruction, the virtual character is taken;

 When the touch action on the touch screen of the data receiving smart tool conforms to the virtual character drop action instruction, the virtual character is dropped;

 When the virtual character holds the action instruction on the data sending smart tool, and then executes the virtual character drop action instruction on the data receiving smart tool, the data sending smart tool sends the data with the virtual character through data communication. The data is sent to the data receiving intelligent tool, and the data receiving smart tool generates a virtual character according to the transmitted data, thereby completing the transmission of the virtual character from the data sending smart tool to the data receiving smart tool.

 19. The data transmitting and receiving system associated with a touch screen according to claim 18, wherein: a touch point group having at least two touch points on the touch screen, and at least two touch points in the touch point group When the distance is shortened, it is deemed that the virtual character holds the action instruction, and the first microprocessor system regards the virtual character displayed on the first display screen between the two touch points being held, The virtual character is operated by the set of touch points.

 The data transmitting and receiving system associated with the touch screen according to claim 18, wherein: the data sending smart tool stores role characteristic data of a virtual character, and the character characteristic data of the virtual character passes through the communication module Transmitted to the data receiving smart tool, the data receiving smart tool generates a virtual character according to the character characteristic data, thereby completing transmission of the virtual character from the data sending smart tool to the data receiving smart tool.

 21. The data transmitting and receiving system associated with a touch screen according to claim 19, wherein: the data receiving smart tool has the virtual character program, and the virtual character program in the data receiving smart tool is according to the role The characteristic data generates a virtual character, thereby completing the transmission of the virtual character from the data sending smart tool to the data receiving smart tool;

 The virtual character program on the data receiving smart tool starts itself at least after the end of the character property data transmission.

 22. The data transmitting and receiving system associated with the touch screen according to claim 18, wherein: the data sending smart tool sends control information to the virtual character to the data receiving smart tool through the communication module, and implements the virtual The control of the character.

23. The data transmitting and receiving system associated with a touch screen according to claim 18, The character attribute data of the virtual character on the data receiving smart tool is transmitted back to the data sending intelligent tool in time, and the characteristic data stored in the data sending smart tool is updated.

 24. The data transmitting and receiving system associated with a touch screen according to claim 19, wherein: when the character characteristic data of the virtual character on the data receiving smart tool changes, the virtual character returns again. When the data is sent to the smart tool, the characteristic data stored in the data sending smart tool is updated.

 The data transmitting and receiving system associated with the touch screen according to claim 18, wherein: the data sending smart tool stores feature information of the computer device that the virtual character has visited, and the virtual character passes through the The communication module searches for other computer devices that have been used to establish a data connection, and then transmits the computer device to the computer device after searching for the qualified computer device.

 26. The data transmitting and receiving system associated with the touch screen according to claim 20, wherein: the virtual character program includes a virtual scene, and the character characteristic data of the virtual character is sent to the data receiving intelligent device in the data sending smart tool. When the tool is transmitted, the virtual scene characteristic data in the data receiving smart tool is transmitted to the data sending smart tool, and the image in the virtual scene on the data receiving smart tool is displayed on the data sending smart tool.

 The data transmitting and receiving system associated with the touch screen according to claim 20, wherein: the virtual character program uses the data receiving smart tool current display page as the virtual scene, and the data receiving smart tool The second microprocessor system converts the current display page into a virtual scene in the virtual character program, thereby interacting the virtual character with the picture in the currently displayed page, such as a virtual character and a folder icon, a song Icons, shortcuts, etc. interact.