CN105094650B - A kind of data transmission method, device and electronic equipment - Google Patents

A kind of data transmission method, device and electronic equipment Download PDF

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CN105094650B
CN105094650B CN201410179255.9A CN201410179255A CN105094650B CN 105094650 B CN105094650 B CN 105094650B CN 201410179255 A CN201410179255 A CN 201410179255A CN 105094650 B CN105094650 B CN 105094650B
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sending
data
transmitted
receiving
equipment
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CN105094650A (en
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陈燕霞
张雪元
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Lenovo Beijing Ltd
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Lenovo Beijing Ltd
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Abstract

The embodiment of the present invention provides a kind of data transmission method, device and electronic equipment, and one of data transmission method, applied to the sending device of data to be transmitted, sending device has touch-control input unit, and method comprises determining that the receiving device of data to be transmitted;It is detected by slide of the touch-control input unit to operating body;If detect with the matched slide of identified receiving device, data to be transmitted is sent to receiving device.Detect whether to provide a kind of mode of slide triggering transmission data to be transmitted for triggering send button with passing through in the prior art.And in the case where receiving device is multiple, sending device can be when detecting a matched slide, data to be transmitted is sent to determining multiple receiving devices, it often detects that a send button trigger event is sent for data to be transmitted to corresponding receiving device with sending device in the prior art, simplifies operation and improve operating efficiency.

Description

Data transmission method and device and electronic equipment
Technical Field
The present invention relates to the field of information processing technologies, and in particular, to a data transmission method and apparatus, and an electronic device.
Background
Data sharing refers to sharing information among different information systems, and can share the information, which is a resource with more obvious importance in the internet era, with other people so as to more reasonably allocate the resource. With the development of electronic devices, data sharing methods have been developed from data sharing methods between the original electronic devices and servers to data sharing methods between the electronic devices.
The existing data sharing method between electronic devices may be as follows: the first electronic device transmits data to the second electronic device through the communication module to share data with the second electronic device, for example, data sharing is performed through a bluetooth communication module or a (wireless fidelity) communication module, and an interaction process thereof is described as follows by taking the bluetooth communication module as an example:
firstly, the electronic device starts the Bluetooth communication module, scans other electronic devices nearby the electronic device, which start the Bluetooth communication module, through the Bluetooth communication module, and selects one device from the other electronic devices after acquiring a first selection action of the operation body. And secondly, after the electronic equipment selects one piece of equipment, the electronic equipment gives a pairing key and prompts whether the electronic equipment is paired, after the second selection action of the operation body is acquired, the pairing key input by the operation body is acquired, and after the input pairing key is successfully matched, the electronic equipment and the selected electronic equipment establish a Bluetooth communication channel. After the Bluetooth communication channel is established, the electronic equipment determines data to be transmitted, and after the electronic equipment detects that the operation body triggers the sending button, the data to be transmitted is sent to the selected electronic equipment through the Bluetooth communication channel.
When one electronic device shares data with any one electronic device, the data needs to be sent to the electronic device needing to share the data through the steps, so that the operation is complex, and particularly when one electronic device shares data with a plurality of electronic devices, whether an operation body triggers a sending button needs to be detected in sequence, the operation is more complex, and the use by a user is not facilitated.
Disclosure of Invention
The embodiment of the invention provides a data transmission method, a data transmission device and electronic equipment, which are used for sending data to be transmitted to receiving equipment when sliding operation matched with determined received data is detected. The technical scheme is as follows:
in a first aspect, an embodiment of the present invention provides a data transmission method, which is applied to a sending device to be used for transmitting data, where the sending device has a touch input unit, and the method includes:
determining receiving equipment of the data to be transmitted;
detecting a sliding operation of an operation body through the touch input unit;
and if the sliding operation matched with the determined receiving equipment is detected, sending the data to be transmitted to the receiving equipment.
Preferably, when it is determined that the number of the receiving devices is multiple, if a sliding operation matching the determined receiving device is detected, sending the data to be transmitted to the receiving device includes:
and broadcasting the data to be transmitted to the determined plurality of receiving devices if a preset group sending sliding operation matched with the determined receiving devices is detected.
Preferably, when the determined number of receiving devices is one, the method further includes:
positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
if the sliding operation matched with the determined receiving equipment is detected, sending the data to be transmitted to the receiving equipment, wherein the sending comprises the following steps: and if the single-finger sliding operation is detected and the track direction of the single-finger sliding operation is matched with the position relation of the receiving equipment relative to the sending equipment, sending the data to be transmitted to the receiving equipment.
Preferably, the method further comprises:
positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
displaying the positional relationship in a display area of the transmitting device in a graphical manner.
Preferably, the method further comprises:
and prompting the user to execute a sliding operation based on the display area.
Preferably, locating the receiving device comprises:
and positioning the receiving equipment by any one of a wireless fidelity (WiFi) indoor positioning technology, an infrared indoor positioning technology, an ultrasonic indoor positioning technology and a ZigBee positioning technology.
Preferably, the data to be transmitted includes a snapshot of the shared content and a link of the shared content;
the sending the data to be transmitted to the receiving device includes: and with the identification of the receiving equipment as a receiving address, sequentially sending the snapshot of the shared content and the link of the shared content to the receiving equipment, and directly loading the snapshot of the shared content to a network page corresponding to the link when the receiving equipment looks up the link of the shared content.
Preferably, the sending device stores at least one type of data to be transmitted, and binds each type of data to be transmitted with the device identifier of at least one receiving device;
the receiving device for determining the data to be transmitted comprises:
acquiring a device identifier of first equipment communicating with the sending equipment and the type of the data to be transmitted by the sending equipment;
comparing the equipment identifier of the first equipment with the bound equipment identifier of the receiving equipment based on the type of the data to be transmitted;
and if the equipment identification of the first equipment is matched with the bound equipment identification of the receiving equipment, determining that the first equipment is the receiving equipment.
Preferably, the sending device sets a sending mode for each type of the data to be transmitted;
the sending the data to be transmitted to the receiving device includes:
acquiring the sending mode based on the type of the data to be transmitted;
and sending the data to be transmitted to the receiving equipment by using the sending mode.
Preferably, sending the data to be transmitted to the receiving device includes: and sending the data to be transmitted to the receiving equipment through a local area network between the receiving equipment and the sending equipment.
In a second aspect, an embodiment of the present invention provides a data transmission apparatus, which is applied to a sending device to be used for transmitting data, where the sending device has a touch input unit, and the apparatus includes:
a selecting unit, configured to determine a receiving device of the data to be transmitted;
the detection unit is used for detecting the sliding operation of the operation body through the touch input unit;
a sending unit, configured to send the data to be transmitted to the receiving device when the detection unit detects a sliding operation matching the determined receiving device.
Preferably, when it is determined that the number of the receiving apparatuses is multiple, the sending unit sends the data to be transmitted to the receiving apparatus when the detecting unit detects a sliding operation matching the determined receiving apparatus, including:
under the condition that the detection unit detects a preset group sending sliding operation matched with the determined receiving equipment, the data to be transmitted are broadcasted to the determined plurality of receiving equipment.
Preferably, when the determined number of receiving devices is one, the apparatus further includes:
the positioning unit is used for positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
the sending unit sends the data to be transmitted to the receiving device when the detecting unit detects a sliding operation matched with the determined receiving device, and the sending unit includes: and sending the data to be transmitted to the receiving equipment under the condition that the detection unit detects the single-finger sliding operation and the track direction of the single-finger sliding operation is matched with the position relation of the receiving equipment relative to the sending equipment.
Preferably, the apparatus further comprises:
the positioning unit is used for positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
a display unit configured to display the positional relationship in a display area of the transmission apparatus in a graphical manner.
Preferably, the apparatus further comprises:
and the prompting unit is used for prompting the user to execute the sliding operation based on the display area.
Preferably, the positioning unit positions the receiving device by any one of a wireless fidelity WiFi indoor positioning technology, an infrared indoor positioning technology, an ultrasonic indoor positioning technology, and a ZigBee positioning technology.
Preferably, the data to be transmitted includes a snapshot of the shared content and a link of the shared content;
the sending unit sends the data to be transmitted to the receiving device, and the sending unit includes: and with the identification of the receiving equipment as a receiving address, sequentially sending the snapshot of the shared content and the link of the shared content to the receiving equipment, and directly loading the snapshot of the shared content to a network page corresponding to the link when the receiving equipment looks up the link of the shared content.
Preferably, the sending device stores at least one type of data to be transmitted, and binds each type of data to be transmitted with the device identifier of at least one receiving device;
the selecting unit comprises:
an obtaining subunit, configured to obtain a device identifier of a first device that communicates with the sending device and a type of the data to be transmitted, where the data to be transmitted is to be transmitted by the sending device;
a comparison subunit, configured to compare, based on the type of the to-be-transmitted data to be transmitted, the device identifier of the first device with the device identifier of the bound receiving device;
and the selecting subunit is used for determining that the first device is the receiving device under the condition that the comparison subunit determines that the device identifier of the first device is matched with the device identifier of the bound receiving device.
Preferably, the sending device sets a sending mode for each type of the data to be transmitted;
the sending unit sends the data to be transmitted to the receiving device, and the sending unit includes: acquiring the sending mode based on the type of the data to be transmitted; and sending the data to be transmitted to the receiving equipment by using the sending mode.
Preferably, the sending unit sends the data to be transmitted to the receiving device, including: and sending the data to be transmitted to the receiving equipment through a local area network between the receiving equipment and the sending equipment.
In a third aspect, an embodiment of the present invention provides an electronic device, which includes a touch input unit, and further includes the data transmission device connected to the touch input unit.
Compared with the prior art, the invention has the following advantages:
by applying the data transmission method provided by the embodiment of the invention, after the sending equipment of the data to be transmitted determines the receiving equipment of the data to be transmitted, the sliding operation of the operation body is detected through the touch input unit in the sending equipment, and if the sliding operation matched with the determined receiving equipment is detected, the data to be transmitted is sent to the receiving equipment. Compared with the prior art that whether the sending button is triggered or not is detected, a mode that sliding operation triggers sending of data to be transmitted is provided.
In addition, in the above-mentioned manner of sending the sliding operation trigger data, when the receiving device is multiple, the sending device may send the data to be transmitted to the multiple determined receiving devices when detecting a matched sliding operation, which simplifies the operation and improves the operation efficiency compared with the case that the sending device sends the data to be transmitted to the corresponding receiving device every time it detects a button sending trigger event in the prior art.
Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive labor.
Fig. 1 is a first flowchart of a data transmission method according to an embodiment of the present invention;
fig. 2 is a first schematic diagram of a preset mass-sending sliding operation according to an embodiment of the present invention;
FIG. 3 is a schematic diagram of a single finger sliding operation provided by an embodiment of the present invention;
fig. 4 is a second flowchart of a data transmission method according to an embodiment of the present invention;
FIG. 5 is a first schematic diagram of a positional relationship display provided by an embodiment of the present invention;
fig. 6 is a third flowchart of a data transmission method according to an embodiment of the present invention;
FIG. 7 is a second schematic diagram of a positional relationship display provided by an embodiment of the present invention;
FIG. 8 is a second exemplary diagram of a predetermined mass-sending sliding operation according to an embodiment of the present invention;
FIG. 9 is a third exemplary diagram illustrating a default bulk-hair sliding operation according to an embodiment of the present invention;
fig. 10 is a schematic diagram of a first structure of a data transmission apparatus according to an embodiment of the present invention;
FIG. 11 is a schematic diagram of the structure of the selected cell of FIG. 10;
fig. 12 is a schematic diagram of a second structure of a data transmission device according to an embodiment of the present invention;
fig. 13 is a schematic diagram of a third structure of a data transmission apparatus according to an embodiment of the present invention;
fig. 14 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.
Detailed Description
The inventor finds that in the prior art, when instant messaging software sends data to be transmitted to other electronic devices, the electronic devices need to add the data to be transmitted to a chat dialog box first, and then send the data after detecting that a sending button in a display area of the electronic devices is triggered. Especially, when the electronic device transmits data to a plurality of electronic devices, the above-described process needs to be repeatedly executed, which makes the operation complicated.
In this background, an embodiment of the present invention provides a scheme: two specific operations are configured for the electronic equipment, wherein the first specific operation can enable the electronic equipment to complete one-to-one data transmission, and the second specific operation can enable the electronic equipment to complete one-to-many data transmission in one step.
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1, a flowchart of a data transmission method according to an embodiment of the present invention is shown, where the data transmission method is applied to a sending device to be transmitted, and the sending device has a touch input unit. The data transmission method may include the steps of:
101: a receiving device for data to be transmitted is determined.
In the embodiment of the present invention, the determination of the receiving device includes, but is not limited to, two determination manners: an artificial determination determined by a user of the transmitting apparatus and an automatic determination determined by the transmitting apparatus.
The process of the sending device determining the receiving device to transmit the data may be: firstly, the sending device divides the type of the data to be transmitted stored in the sending device in advance, and binds each type of the data to be transmitted with the device identifier of at least one receiving device. The device identifier is a unique identifier of the receiving device, and is used to distinguish the receiving devices, where the device identifier may be a device serial Number, an International Mobile Equipment Identity (IMEI) and an International Mobile Subscriber Identity (IMSI).
Secondly, acquiring a device identifier of first equipment currently communicating with the sending equipment and a type of data to be transmitted by the sending equipment, comparing the device identifier of the first equipment with a device identifier of bound receiving equipment based on the type of the data to be transmitted, and if the device identifier of the first equipment is matched with the device identifier of the bound receiving equipment, indicating that the first equipment and the bound receiving equipment are the same equipment, and determining that the first equipment is the receiving equipment.
The sending device may obtain the device identifier uploaded by the first device from an Access Point (AP) to which the sending device belongs, and of course, the first device may also directly send the device identifier of the first device to the sending device.
102: the sliding operation of the operation body is detected through the touch input unit.
In the embodiment of the present invention, the first specific operation is a single-finger sliding operation, and the transmission corresponding to the first specific operation is one-to-one transmission. The second specific operation is a preset group sending sliding operation, and the sending corresponding to the second specific operation is one-to-many sending.
When the operation body performs the single-finger sliding operation or the preset group-sending sliding operation, the operation point information detected by the touch input unit is different, so that the touch input unit can determine which expression form of the sliding operation is according to the operation point information, wherein the operation point information is information of the operation point formed by the operation body in the display area of the sending device when the operation body performs the sliding operation.
103: and if the sliding operation matched with the determined receiving equipment is detected, transmitting the data to be transmitted to the receiving equipment.
Wherein, matching refers to matching the number of transmitting and receiving devices characterized by a particular sliding operation. When the sending device determines that there is one receiving device, the matched sliding operation is a single-finger sliding operation to instruct the sending device to perform one-to-one transmission.
When the sending device determines that the receiving device is multiple, the matched sliding operation is a preset group sending sliding operation, and the preset group sending operation instructs the sending device to execute one-to-many sending. The preset group hair sliding operation may be a multi-finger sliding operation, as shown in fig. 2, in which at least two operation bodies 1 slide from the black dot position in fig. 2 in the direction indicated by the arrow.
The preset group sending operation may also be a sliding operation of drawing a specific figure on the display area, as shown in fig. 3, when one operation body 1 performs a sliding operation on the display area, an arrow indicates a sliding track of the operation body 1, the sliding track forms a circle, and such a sliding operation may also instruct the sending device to perform one-to-many sending.
Since the user of the transmitting device knows that data to be transmitted needs to be transmitted to several receiving devices, the user can operate the operating body to perform sliding operation matched with the number of the receiving devices, so that the transmitting device can transmit the data to be transmitted to the determined receiving devices at one time.
By applying the technical scheme, after the sending equipment of the data to be transmitted determines the receiving equipment of the data to be transmitted, the sliding operation of the operation body is detected through the touch input unit in the sending equipment, and if the sliding operation matched with the determined receiving equipment is detected, the data to be transmitted is sent to the receiving equipment. In contrast to the prior art, by detecting whether the send button is triggered, a way is provided for sending data to be transmitted with a specific operation, a sliding operation.
In addition, in the above-mentioned manner of sending the sliding operation trigger data, when the receiving device is multiple, the sending device may send the data to be transmitted to the multiple determined receiving devices when detecting a matched sliding operation, which simplifies the operation and improves the operation efficiency compared with the case that the sending device sends the data to be transmitted to the corresponding receiving device every time it detects a button sending trigger event in the prior art.
In addition, when the sending device determines the receiving device according to the type of the data to be transmitted, the sending device may further set a sending mode for each type of data to be transmitted. When a certain type of data to be transmitted is sent, the data to be transmitted is sent by using a corresponding sending mode. The sending mode is used for indicating which form is adopted for sending, such as a short message form or a voice form.
Referring to fig. 4, another flowchart of a data transmission method according to an embodiment of the present invention is shown, where the process of a sending device executing the data transmission method when the sliding operation is a single-finger sliding operation or a preset group sending sliding operation is described, and the process may include the following steps:
401: determining a receiving device to transmit data, wherein the determining process may refer to step 101, and embodiments of the present invention are not described here.
402: it is determined whether the determined number of receiving devices is one, and if not, step 403 is performed. If not, step 404 is performed.
If the determined number of the receiving devices is one, the relationship between the sending device and the receiving devices is a one-to-one relationship, and at this time, the sending device needs to detect whether the operation body performs the matched single-finger sliding operation. If the determined number of the receiving devices is multiple, the relationship between the sending device and the receiving devices is a one-to-many relationship, and at this time, the sending device needs to detect whether the operation body performs the matched preset group sending sliding operation.
403: and if the preset mass sending sliding operation matched with the determined receiving equipment is detected, broadcasting the data to be transmitted to the determined plurality of receiving equipment.
The preset group sending sliding operation may be the multi-finger sliding operation shown in fig. 2, or the sliding operation of drawing a specific graph on the display area shown in fig. 3, which is not limited in the embodiment of the present invention.
And when the sending device detects the preset group sending sliding operation, the sending device can further select the receiving device from the plurality of determined receiving devices according to the preset group sending sliding operation, and then broadcast the data to be transmitted to the selected receiving device.
If the preset group sending sliding operation is the double-finger sliding operation, the sending device may randomly select two receiving devices from the determined multiple receiving devices after detecting the double-finger sliding operation, and broadcast the data to be transmitted to the two receiving devices.
404: and positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment. The following positioning techniques may be adopted for positioning the receiving device: the receiving device is positioned by any one of a WiFi (Wireless Fidelity) indoor positioning technology, an infrared indoor positioning technology, an ultrasonic indoor positioning technology and a ZigBee positioning technology.
405: and if the single-finger sliding operation is detected and the track direction of the single-finger sliding operation is matched with the position relation of the receiving equipment relative to the sending equipment, sending the data to be transmitted to the receiving equipment.
The matching of the track direction of the single-finger sliding operation and the position relation of the corresponding sending equipment of the receiving equipment means that the track direction of the single-finger sliding operation points to the direction of the position of the receiving equipment. If the receiving device is positioned in the left front of the sending device and the track direction of the single-finger sliding operation indicates that the receiving device slides to the left front, the track direction of the single-finger sliding operation is matched with the position relation of the receiving device relative to the sending device.
And after the position relation of the receiving equipment relative to the sending equipment is obtained, the position relation can be displayed in a display area of the sending equipment in a graphic mode, so that a sliding reference is provided on the display area, and a user is prompted to execute single-finger sliding operation based on the display area.
As shown in fig. 5, a schematic diagram of a transmitting device displaying a positional relationship in a display area is shown, in which a dot 3 denotes the transmitting device, a dot 4 denotes a receiving device, and the receiving device is located at the front left of the transmitting device. When the user performs the single-finger sliding operation, the user can slide from the position of the sending device to the position of the receiving device based on the position relationship shown in fig. 5, so that the track direction (the direction indicated by the arrow) of the single-finger sliding operation is the position relationship shown in fig. 5, and the track direction is matched with the position relationship.
By applying the technical scheme, the sending equipment can send the data to be transmitted to the determined receiving equipment at one time when the corresponding sliding operation is detected. And when the determined number of the receiving devices is one, the track direction of the single-finger sliding operation can be indicated in a graphic mode based on the position relation of the receiving devices relative to the sending device, so that the track direction of the single-finger sliding operation can be accurately matched with the position of the receiving devices relative to the sending device, and the number of times of error sliding is reduced.
Referring to fig. 6, a flowchart of a data transmission method according to another embodiment of the present invention is shown, where the method includes the following steps:
601: determining a receiving device to transmit data, wherein the determining process may refer to step 101, and embodiments of the present invention are not described here.
602: and positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment. The following positioning techniques may be adopted for positioning the receiving device: and positioning the receiving equipment by any one of a WiFi indoor positioning technology, an infrared indoor positioning technology, an ultrasonic indoor positioning technology and a ZigBee positioning technology.
603: the positional relationship is graphically displayed in a display area of the transmitting device.
When the transmitting device displays the positional relationship in a diagram, the number of receiving devices and the positional relationship of the receiving devices and the transmitting device can be determined in the diagram. When the determined number of receiving devices is one, the receiving devices may be displayed in the manner shown in fig. 5. When the determined number of the receiving devices is plural, the display manner of the receiving devices may be as shown in fig. 7.
604: the user is prompted to perform a slide operation based on the display area.
The sending device displays the position relation in a graphic mode, and can provide a sliding reference for the sliding operation, so that when the user controls the operation body to perform the sliding operation, the user can perform the matched sliding operation according to the number of the receiving devices displayed in the graphic mode.
Particularly, when the receiving device is one and the track direction of the sliding operation is matched with the position relationship, the sending device sends the data to be transmitted, the graphical mode provides a sliding reference for the sliding operation, and a user can slide from the position of the sending device to the position of the receiving device based on the position relationship displayed by the graphical representation when the user executes the single-finger sliding operation, so that the track direction of the single-finger sliding operation can be accurately matched with the position relationship, and the number of times of mistaken sliding is reduced.
605: the sliding operation of the operation body is detected by a touch input unit in the transmission device.
606: and if the sliding operation matched with the determined receiving equipment is detected, transmitting the data to be transmitted to the receiving equipment.
Step 605 and step 606: like steps 102 and 103, this is not described in detail. In addition, in the actual execution process, step 605 and step 606 may also refer to the processes illustrated in step 402 to step 405 shown in fig. 4, and are not described again in this embodiment of the present invention.
In addition, when the number of the receiving devices is multiple, the sending device may also analyze the preset group sending sliding operation of the operation body in combination with the position relationship displayed in the above-described graphical manner, and select a receiving device from the multiple determined receiving devices to send the data to be transmitted.
If the multi-finger sliding operation is a double-finger sliding operation, the sending device can analyze the track directions of two fingers sliding in the double-finger sliding operation, and select the receiving device with the position relation matched with the track directions. If the preset group sending sliding operation is a sliding operation for drawing a specific graph on the display area, the sending device can select the receiving device with the position on the sliding track of the sliding operation to receive the data to be transmitted.
When the operation body actually performs the sliding operation, the operator of the operation body — the user may determine which receiving devices need to be selected, so that the user may instruct the operation body to perform the corresponding sliding operation based on the position relationship shown in fig. 7, so as to send the data to be transmitted to the receiving device selected by the user.
For example, when a user wishes to transmit data to be transmitted to two receiving devices 4 located on the left and right sides of the transmitting device 3 in fig. 7, the user may control the operation body to slide from the position of the transmitting device 3 to the two receiving devices 4 located on the left and right sides, as shown in fig. 8, the operation body slides from the position of the transmitting device 3 to the two receiving devices 4 located on the left and right sides, respectively, the sliding operation indicates that the transmitting device 3 selects the two receiving devices 4 located on the left and right sides to receive the data to be transmitted, and then the transmitting device 3 transmits the data to be transmitted to the two receiving devices 4. When the user wishes to transmit data to be transmitted to all of the receiving apparatuses 4 in fig. 7, the user can operate the operation body to perform the five-finger sliding operation.
If the group sending sliding operation is preset as a sliding operation for drawing a specific pattern on the display area, since the sliding operation is a continuous sliding, if it is desired to select two receiving apparatuses 4 located on the left and right of the sending apparatus 3 in fig. 7, it is necessary to slide a large arc to skip the receiving apparatus 4 located between the two receiving apparatuses 4, as shown in fig. 9. That is, when the preset group sending sliding operation is a sliding operation of drawing a specific graph on the display area, the sending device judges whether the position of the receiving device is on the sliding track of the preset group sending sliding operation, and the judgment can realize that several receiving devices in the receiving devices distributed in the sequence are skipped for selection.
By applying the technical scheme, the data transmission method provided by the embodiment of the invention can display the position relation on the display area in the graphic mode after obtaining the position relation of the receiving equipment relative to the sending equipment, and prompt the user to execute the sliding operation based on the display area, so that the user can determine which sliding operation should be performed based on the receiving equipment displayed in the display area, the sending equipment can detect the sliding operation matched with the number of the receiving equipment, and the misoperation rate is reduced.
In all the data transmission methods, the data to be transmitted includes a snapshot of the shared content and a link of the shared content. The sending device sends the data to be transmitted to the receiving device, and the snapshot of the shared content and the link of the shared content are sequentially sent to the receiving device by using the identifier of the receiving device as a receiving address.
When receiving the snapshot of the shared content, the receiving device displays the snapshot in the display area and opens the link cache of the shared content, so that the user can view the shared content while opening the link, and seamless browsing of the shared content between the two devices is realized. If the sending device directly sends the link of the shared content to the receiving device, the application or the browser of the receiving device needs to have a process of loading the information used in the link, so that the user sees the loading process in the display area, and seamless browsing between the two devices cannot be realized.
In the embodiment of the present invention, the identifier of the receiving device is a mark capable of distinguishing the receiving device, and may be user information of the receiving device, such as a QQ account number, a wechat account number, a mobile phone number, and the like of a user, where the user information may distinguish different receiving devices. Since the device identification of the receiving device may also distinguish between different receiving devices, the identification of the receiving device may also be the device identification of the receiving device.
In addition, when the sending device sends the data to be transmitted to the receiving device, the data to be transmitted can be sent to the receiving device through the local area network between the receiving device and the sending device, so that the risk of data leakage can be reduced.
Corresponding to the foregoing method embodiment, an embodiment of the present invention further provides a data transmission apparatus, which is applied to a sending device to be transmitted with data, where the sending device has a touch input unit, and a schematic structural diagram of the data transmission apparatus 500 is shown in fig. 10, and may include: the device comprises a selecting unit 501, a detecting unit 502 and a sending unit 503. Wherein,
a selecting unit 501 is configured to determine a receiving device of data to be transmitted. In the embodiment of the present invention, the determination of the receiving device includes, but is not limited to, two determination manners: an artificial determination determined by a user of the transmitting apparatus and an automatic determination determined by the transmitting apparatus.
In order to automatically determine the receiving device, the sending device needs to perform type division on the data to be transmitted stored in the sending device in advance, and bind each type of data to be transmitted with the device identifier of at least one receiving device. The device identifier is a unique identifier of the receiving device, and is used for distinguishing the plurality of receiving devices, and the device identifier may be a device serial number, an IMEI, and an IMSI.
Then, based on the selection unit 501 shown in fig. 11, selection is performed according to the type of the data to be transmitted, where the selection unit 501 includes: the acquisition subunit 5011, the comparison subunit 5012 and the selection subunit 5013.
The obtaining subunit 5011 is configured to obtain a device identifier of a first device that communicates with the sending device and a type of data to be transmitted that is to be transmitted by the sending device.
The obtaining subunit 5011 may obtain the device identifier uploaded by the first device from the AP to which the obtaining subunit 5011 belongs, and of course, the first device may also directly send the device identifier of the first device to the obtaining subunit 5011, and for this, the embodiment of the present invention does not limit the manner in which the sending device obtains the device identifier.
The comparison subunit 5012 is configured to compare the device identifier of the first device with the device identifier of the bound receiving device based on the type of the data to be transmitted.
The selecting subunit 5013 is configured to determine that the first device is a receiving device if the device identifier of the first device matches the device identifier of the bound receiving device as determined by the subunit.
If the device identifier of the first device matches the device identifier of the bound receiving device, it indicates that the first device and the bound receiving device are the same device, and at this time, the selecting sub-unit 5013 determines that the first device is the receiving device.
The detecting unit 502 is configured to detect a sliding operation of the operating body through the touch input unit. In the embodiment of the invention, the sending device has two specific operations, the first specific operation is a single-finger sliding operation, and the corresponding sending is one-to-one sending. The second specific operation is a preset group sending sliding operation, and the sending corresponding to the second specific operation is one-to-many sending.
When the operation body performs the single-finger sliding operation or the preset group-sending sliding operation, the operation point information detected by the touch input unit is different, so that the touch input unit can determine which expression form of the sliding operation is according to the operation point information, wherein the operation point information is information of the operation point formed by the operation body in the display area of the sending device when the operation body performs the sliding operation.
A sending unit 503, configured to send the data to be transmitted to the receiving apparatus if the sliding operation matching the determined receiving apparatus is detected by the detecting unit.
Wherein, matching refers to matching the number of transmitting and receiving devices characterized by a particular sliding operation. When the sending device determines that there is one receiving device, the matched sliding operation is a single-finger sliding operation to instruct the sending device to perform one-to-one transmission.
When a plurality of receiving devices are determined, the matched sliding operation is a preset group sending sliding operation, and the preset group sending operation instructs the sending device to execute one-to-many sending. The preset group sending sliding operation may be a multi-finger sliding operation, as shown in fig. 2, that is, a plurality of operators 1 simultaneously perform the sliding operation on the display area of the sending device.
The preset group sending operation may be a sliding operation of drawing a specific pattern on the display area, as shown in fig. 3, when one operation body 1 performs a sliding operation on the display area, the sliding trajectory thereof forms a circle, and such a sliding operation may also instruct the sending device to perform one-to-many sending.
Since the user of the transmitting apparatus knows that it is necessary to transmit data to be transmitted to several receiving apparatuses, the user can operate the operating body to perform a sliding operation matching the number of receiving apparatuses, so that the transmitting unit 503 can broadcast the data to be transmitted to certain receiving apparatuses at a time.
By applying the above technical scheme, after the sending device of the data to be transmitted determines the receiving device of the data to be transmitted, the sliding operation of the operation body is detected through the touch input unit in the sending device, and if the detecting unit 502 detects the sliding operation matched with the determined receiving device, the sending unit 503 sends the data to be transmitted to the receiving device. In contrast to the prior art, by detecting whether the send button is triggered, a way is provided for sending data to be transmitted with a specific operation, a sliding operation.
In addition, in the above manner of sending the sliding operation trigger data, when a plurality of receiving devices are provided, the detecting unit 502 may send the data to be transmitted to the determined plurality of receiving devices by the sending unit 503 when detecting a matching sliding operation, which simplifies the operation and improves the operation efficiency compared with the case that the sending device sends the data to be transmitted to the corresponding receiving device every time it detects a sending button trigger event in the prior art.
In addition, when the sending device determines the receiving device according to the type of the data to be transmitted, the sending device may further set a sending mode for each type of data to be transmitted. When transmitting a certain type of data to be transmitted, the transmitting unit 503 transmits the data to be transmitted using a corresponding transmission method. The sending mode is used for indicating which form is adopted for sending, such as a short message form or a voice form.
When the determined number of the receiving devices is one, the data transmission apparatus provided in the embodiment of the present invention further includes, on the basis of fig. 10: a positioning unit 504, as shown in fig. 12. The positioning unit 504 is configured to position the receiving device, and obtain a position relationship of the receiving device with respect to the sending device. The receiving device can be positioned by any one of a WiFi indoor positioning technology, an infrared indoor positioning technology, an ultrasonic indoor positioning technology and a ZigBee positioning technology.
On the basis, the detection unit 502 also detects whether the track direction of the single-finger sliding operation matches the positional relationship of the receiving device with respect to the transmitting device when the single-finger sliding operation is detected. When the detection unit detects a single-finger sliding operation and the trajectory direction of the single-finger sliding operation matches the positional relationship of the receiving apparatus with respect to the transmitting apparatus, the transmitting unit 503 transmits data to be transmitted to the receiving apparatus.
The matching of the track direction of the single-finger sliding operation and the position relation of the corresponding sending equipment of the receiving equipment means that the track direction of the single-finger sliding operation points to the direction of the position of the receiving equipment. If the receiving device is positioned in the left front of the sending device and the track direction of the single-finger sliding operation indicates that the receiving device slides to the left front, the track direction of the single-finger sliding operation is matched with the position relation of the receiving device relative to the sending device.
As shown in fig. 5, a schematic diagram of a transmitting device displaying a positional relationship in a display area is shown, in which a dot 3 denotes the transmitting device, a dot 4 denotes a receiving device, and the receiving device is located at the front left of the transmitting device. When the user performs the single-finger sliding operation, the user can slide from the position of the sending device to the position of the receiving device based on the position relationship shown in fig. 5, so that the track direction of the single-finger sliding operation is the position relationship shown in fig. 5, and the track direction is matched with the position relationship.
Referring to fig. 13, which shows a third schematic structural diagram of a data transmission device according to an embodiment of the present invention, on the basis of fig. 10, the data transmission device may further include: a positioning unit 505, a display unit 506 and a prompting unit 507. Wherein,
a positioning unit 505, configured to position the receiving device, and obtain a position relationship of the receiving device with respect to the sending device. It may employ, but is not limited to, the following localization techniques: and positioning the receiving equipment by any one of a WiFi indoor positioning technology, an infrared indoor positioning technology, an ultrasonic indoor positioning technology and a ZigBee positioning technology.
A display unit 506 for displaying the positional relationship in a display area of the transmitting apparatus in a graphic manner. When the positional relationship is displayed in a diagram, the number of receiving devices and the positional relationship of the receiving devices and the transmitting device may be determined in the diagram. When the determined number of receiving devices is one, the receiving devices may be displayed in the manner shown in fig. 5. When the determined number of the receiving devices is plural, the display manner of the receiving devices may be as shown in fig. 7.
A prompting unit 507 for prompting the user to perform a sliding operation based on the display area. The position relation is displayed in a graphic mode, a sliding reference can be provided for the sliding operation, and therefore when the user controls the operation body to perform the sliding operation, the user can perform the matched sliding operation according to the number of the receiving devices displayed in the graphic mode.
Particularly, when the receiving device is one and the track direction of the sliding operation is matched with the position relationship, the sending device sends the data to be transmitted, the graphical mode provides a sliding reference for the sliding operation, and a user can slide from the position of the sending device to the position of the receiving device based on the position relationship displayed by the graphical representation when the user executes the single-finger sliding operation, so that the track direction of the single-finger sliding operation can be accurately matched with the position relationship, and the number of times of mistaken sliding is reduced.
In addition, when the number of the receiving devices is multiple, the data transmission apparatus provided in the embodiment of the present invention may also analyze the preset group sending sliding operation of the operation body in combination with the position relationship displayed in the above-described diagram manner, and select a receiving device from the multiple determined receiving devices to send the data to be transmitted.
If the multi-finger sliding operation is a two-finger sliding operation, the detection unit 502 in the data transmission apparatus may analyze the track directions of the two fingers sliding in the two-finger sliding operation, and select a receiving device whose position relationship matches the track directions. If the preset group sending sliding operation is a sliding operation for drawing a specific graph on the display area, the detection unit 502 may select a receiving device whose position is on the sliding track of the sliding operation to receive the data to be transmitted.
When the operation body actually performs the sliding operation, the operator of the operation body — the user may determine which receiving devices need to be selected, so that the user may instruct the operation body to perform the corresponding sliding operation based on the position relationship shown in fig. 7, so as to send the data to be transmitted to the receiving device selected by the user.
For example, when a user wishes to transmit data to be transmitted to two receiving devices 4 located on the left and right sides of the transmitting device 3 in fig. 7, the user may control the operation body to slide from the position of the transmitting device 3 toward the two receiving devices 4 located on the left and right sides, as shown in fig. 8, the sliding operation indicates that the transmitting device 3 selects the two receiving devices 4 located on the left and right sides to receive the data to be transmitted, and then the transmitting unit 503 of the data transmission apparatus in the transmitting device 3 transmits the data to be transmitted to the two receiving devices 4. When the user wishes to transmit data to be transmitted to all of the receiving apparatuses 4 in fig. 7, the user can operate the operation body to perform the five-finger sliding operation.
If the group sending sliding operation is preset as a sliding operation for drawing a specific pattern on the display area, since the sliding operation is a continuous sliding, if it is desired to select two receiving apparatuses 4 located on the left and right of the sending apparatus 3 in fig. 7, it is necessary to slide a large arc to skip the receiving apparatus 4 located between the two receiving apparatuses 4, as shown in fig. 9. That is, when the preset group sending sliding operation is a sliding operation for drawing a specific pattern on the display area, the detecting unit 502 determines whether the position of the receiving device is on the sliding track of the preset group sending sliding operation, and this determination can realize selection of several receiving devices among the receiving devices distributed in the skipping order.
By applying the above technical solution, the data transmission apparatus provided in the embodiment of the present invention may display the position relationship on the display area in an illustrated manner after obtaining the position relationship of the receiving device with respect to the sending device, and prompt the user to execute the sliding operation based on the display area, so that the user may determine which sliding operation should be performed based on the receiving device displayed in the display area, so that the detecting unit 502 may detect the sliding operation matched with the number of the receiving devices, and reduce the misoperation rate.
In all the data transmission devices, the data to be transmitted includes a snapshot of the shared content and a link of the shared content. The sending unit 503 sends the data to be transmitted to the receiving device, and may send the snapshot of the shared content and the link of the shared content to the receiving device in sequence with the identifier of the receiving device as the receiving address.
When receiving the snapshot of the shared content, the receiving device displays the snapshot in the display area and opens the link cache of the shared content, so that the user can view the shared content while opening the link, and seamless browsing of the shared content between the two devices is realized. If the sending unit 503 directly sends the link of the shared content to the receiving device, the application or the browser of the receiving device needs to have a process of loading the information used in the link, so that the user sees the loading process in the display area, and seamless browsing between the two devices cannot be realized.
In the embodiment of the present invention, the identifier of the receiving device is a mark capable of distinguishing the receiving device, and may be user information of the receiving device, such as a QQ account number, a wechat account number, a mobile phone number, and the like of a user, where the user information may distinguish different receiving devices. Since the device identification of the receiving device may also distinguish between different receiving devices, the identification of the receiving device may also be the device identification of the receiving device.
In addition, when the sending unit 503 sends the data to be transmitted to the receiving device, the data to be transmitted may be sent to the receiving device through the local area network between the receiving device and the sending device, so that the risk of data leakage may be reduced.
The data transmission apparatus 500 provided in the above-mentioned embodiment of the present invention may be included in an electronic device 600, as shown in fig. 14, the electronic device 600 further includes a touch input unit 601. The data transmission apparatus 500 may determine a receiving device of data to be transmitted; and detects the sliding operation of the operation body by the touch input unit 601; and if the sliding operation matched with the determined receiving equipment is detected, transmitting the data to be transmitted to the receiving equipment.
It should be noted that, in the present specification, the embodiments are all described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments may be referred to each other. For the device-like embodiment, since it is basically similar to the method embodiment, the description is simple, and for the relevant points, reference may be made to the partial description of the method embodiment.
Finally, it should also be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
For convenience of description, the above devices are described as being divided into various units by function, and are described separately. Of course, the functions of the units may be implemented in the same software and/or hardware or in a plurality of software and/or hardware when implementing the invention.
The data transmission method, the data transmission device and the electronic device provided by the invention are described in detail, a specific example is applied in the text to explain the principle and the implementation of the invention, and the description of the above embodiment is only used to help understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (17)

1. A data transmission method is applied to sending equipment of data to be transmitted, the sending equipment is provided with a touch input unit, and the method comprises the following steps:
determining receiving equipment of the data to be transmitted;
detecting a sliding operation of an operation body through the touch input unit;
if the sliding operation matched with the determined receiving equipment is detected, sending the data to be transmitted to the receiving equipment;
when the number of the receiving devices is determined to be multiple, if the sliding operation matched with the determined receiving device is detected, the sending the data to be transmitted to the receiving device comprises the following steps:
if a preset group sending sliding operation matched with the determined receiving equipment is detected, broadcasting the data to be transmitted to the determined multiple receiving equipment, wherein the preset group sending sliding operation is a multi-finger sliding operation;
the data to be transmitted comprises a snapshot of shared content and a link of the shared content;
the sending the data to be transmitted to the receiving device includes: and with the identification of the receiving equipment as a receiving address, sequentially sending the snapshot of the shared content and the link of the shared content to the receiving equipment, and directly loading the snapshot of the shared content to a network page corresponding to the link when the receiving equipment looks up the link of the shared content.
2. The method of claim 1, wherein when the determined number of receiving devices is one, the method further comprises:
positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
if the sliding operation matched with the determined receiving equipment is detected, sending the data to be transmitted to the receiving equipment, wherein the sending comprises the following steps: and if the single-finger sliding operation is detected and the track direction of the single-finger sliding operation is matched with the position relation of the receiving equipment relative to the sending equipment, sending the data to be transmitted to the receiving equipment.
3. The method of claim 1, further comprising:
positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
displaying the positional relationship in a display area of the transmitting device in a graphical manner.
4. The method of claim 3, further comprising:
and prompting the user to execute a sliding operation based on the display area.
5. The method of claim 2 or 3, wherein locating the receiving device comprises:
and positioning the receiving equipment by any one of a wireless fidelity (WiFi) indoor positioning technology, an infrared indoor positioning technology, an ultrasonic indoor positioning technology and a ZigBee positioning technology.
6. The method according to claim 1, wherein the sending device stores at least one type of data to be transmitted, and binds each type of data to be transmitted with a device identifier of at least one receiving device;
the receiving device for determining the data to be transmitted comprises:
acquiring a device identifier of first equipment communicating with the sending equipment and the type of the data to be transmitted by the sending equipment;
comparing the equipment identifier of the first equipment with the bound equipment identifier of the receiving equipment based on the type of the data to be transmitted;
and if the equipment identification of the first equipment is matched with the bound equipment identification of the receiving equipment, determining that the first equipment is the receiving equipment.
7. The method according to claim 6, wherein the sending device sets a sending mode for each type of the data to be transmitted;
the sending the data to be transmitted to the receiving device includes:
acquiring the sending mode based on the type of the data to be transmitted;
and sending the data to be transmitted to the receiving equipment by using the sending mode.
8. The method according to any one of claims 1 to 4 and 6 to 7, wherein sending the data to be transmitted to the receiving device comprises: and sending the data to be transmitted to the receiving equipment through a local area network between the receiving equipment and the sending equipment.
9. A data transmission device is applied to sending equipment of data to be transmitted, the sending equipment is provided with a touch input unit, and the device comprises:
a selecting unit, configured to determine a receiving device of the data to be transmitted;
the detection unit is used for detecting the sliding operation of the operation body through the touch input unit;
a sending unit, configured to send the data to be transmitted to the receiving device when the detection unit detects a sliding operation that matches the determined receiving device;
when it is determined that the number of the receiving devices is multiple, the sending unit sends the data to be transmitted to the receiving device when the detecting unit detects a sliding operation matched with the determined receiving device, including:
under the condition that the detection unit detects a preset group sending sliding operation matched with the determined receiving equipment, the data to be transmitted is broadcasted to the determined receiving equipment, and the preset group sending sliding operation is a multi-finger sliding operation;
the data to be transmitted comprises a snapshot of shared content and a link of the shared content;
the sending unit sends the data to be transmitted to the receiving device, and the sending unit includes: and with the identification of the receiving equipment as a receiving address, sequentially sending the snapshot of the shared content and the link of the shared content to the receiving equipment, and directly loading the snapshot of the shared content to a network page corresponding to the link when the receiving equipment looks up the link of the shared content.
10. The apparatus of claim 9, wherein when the determined number of receiving devices is one, the apparatus further comprises:
the positioning unit is used for positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
the sending unit sends the data to be transmitted to the receiving device when the detecting unit detects a sliding operation matched with the determined receiving device, and the sending unit includes: and sending the data to be transmitted to the receiving equipment under the condition that the detection unit detects the single-finger sliding operation and the track direction of the single-finger sliding operation is matched with the position relation of the receiving equipment relative to the sending equipment.
11. The apparatus of claim 9, further comprising:
the positioning unit is used for positioning the receiving equipment to obtain the position relation of the receiving equipment relative to the sending equipment;
a display unit configured to display the positional relationship in a display area of the transmission apparatus in a graphical manner.
12. The apparatus of claim 11, further comprising:
and the prompting unit is used for prompting the user to execute the sliding operation based on the display area.
13. The apparatus according to claim 10 or 11, wherein the positioning unit positions the receiving device by any one of WiFi indoor positioning technology, infrared indoor positioning technology, ultrasonic indoor positioning technology, and ZigBee positioning technology.
14. The apparatus according to claim 9, wherein the sending device stores at least one type of data to be transmitted, and binds each type of data to be transmitted with a device identifier of at least one receiving device;
the selecting unit comprises:
an obtaining subunit, configured to obtain a device identifier of a first device that communicates with the sending device and a type of the data to be transmitted, where the data to be transmitted is to be transmitted by the sending device;
a comparison subunit, configured to compare, based on the type of the to-be-transmitted data to be transmitted, the device identifier of the first device with the device identifier of the bound receiving device;
and the selecting subunit is used for determining that the first device is the receiving device under the condition that the comparison subunit determines that the device identifier of the first device is matched with the device identifier of the bound receiving device.
15. The apparatus according to claim 14, wherein the sending device sets a sending mode for each type of the data to be transmitted;
the sending unit sends the data to be transmitted to the receiving device, and the sending unit includes: acquiring the sending mode based on the type of the data to be transmitted; and sending the data to be transmitted to the receiving equipment by using the sending mode.
16. The apparatus according to any one of claims 9 to 12 and 14 to 15, wherein the sending unit sends the data to be transmitted to the receiving device, including: and sending the data to be transmitted to the receiving equipment through a local area network between the receiving equipment and the sending equipment.
17. An electronic device comprising a touch input unit, further comprising the data transmission device of any one of claims 9 to 16 connected to the touch input unit.
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