WO2016082409A1

WO2016082409A1 - Terminal control method and intelligent earphone

Info

Publication number: WO2016082409A1
Application number: PCT/CN2015/075769
Authority: WO
Inventors: 朱晓璞
Original assignee: 捷开通讯(深圳)有限公司
Priority date: 2014-11-27
Filing date: 2015-04-02
Publication date: 2016-06-02
Also published as: CN104503692A

Abstract

Disclosed are a terminal control method and an intelligent earphone. The terminal control method comprises: an intelligent earphone receives a slide operation on a touchscreen of the intelligent earphone, and determines an order of touching touch points at different positions on the touchscreen, wherein the touch points at different positions are differently marked; determines a slide track of the slide operation according to the order of touching the touch points at different positions; and determines an instruction to be executed according to the slide track, and controls a terminal to execute the instruction. By means of the present invention, a terminal can be controlled without adding any other device.

Description

Terminal control method and smart earphone

【技术领域】[Technical Field]

The present invention relates to the field of mobile terminal technologies, and in particular, to a terminal control method and a smart headset.

【背景技术】【Background technique】

In today's society, smart terminals have become an inaccessible part of people's lives due to their rich functions. In addition to the traditional dialing and receiving calls through smart terminals, smart terminals are more used for playing videos, playing games or reading e-books. E-books enjoy music.

However, people generally say that the above functions are implemented through full screen. If it is necessary to turn off the full screen or return to control the program that is running on the smart terminal, or to switch the program to the music player interface to achieve further control of the music player. . Or when the user puts the smart terminal into the pocket or the bag is inconvenient to take out and needs to control it, the traditional control mode that can only operate the smart terminal itself is very inconvenient.

In order to solve the above technical problem, in the prior art, an additional control device such as a more popular wearable device is generally added, but the above method not only requires the user to purchase another wearable device, but is not only costly but also needs to be simultaneously Carrying the above-mentioned wearable device and smart terminal also brings the same to the user.

【发明内容】 [Summary of the Invention]

The technical problem to be solved by the present invention is to provide a terminal control method and a smart earphone capable of controlling a terminal through an intelligent earphone without additionally adding any other device.

To solve the above technical problem, a technical solution adopted by the present invention is to provide a terminal control method, including:

The smart earphone receives a sliding operation on the touch screen thereof, and when the touch operation on a touch point on the touch screen is received for the first time, the time is started as an initial time;

Recording a touch time of touching the touch point of each different position, and determining each touch time to determine whether it is within a predetermined time range; wherein the touch point of each different position Different labels;

If the touch time is within a predetermined time range, the touch point corresponding to the touch time is an effective touch point; if the touch time is not within the predetermined time range, the touch corresponding to the touch time The point is not a valid touch point;

Determining an order of touching the touch points of the different positions by detecting different voltage values generated by the sliding operation touching the effective touch points of the different positions;

Determining a sliding trajectory of the sliding operation according to an order of touching the effective touch points of different positions;

Determining an instruction to be executed according to the sliding trajectory, and controlling the terminal to execute the instruction.

The instructions include a forward instruction, a backward instruction, a page turning instruction, a scaling instruction, a refresh instruction, and a determining instruction.

In order to solve the above technical problem, another technical solution adopted by the present invention is to provide a terminal control method, including:

The smart earphone receives a sliding operation on the touch screen thereof, and determines an order of touching the touch points at different positions on the touch screen; wherein the touch points of each different position are marked differently;

Determining a sliding trajectory of the sliding operation according to an order of touching the touch points of different positions;

The step of the smart earphone receiving an instruction to the touch screen thereof and determining the order of touching the touch points at different positions on the touch screen includes:

The smart earphone determines the order of touching the touch points of the different positions by detecting different voltage values generated by the sliding operation touching the touch points of the different positions.

The step of the smart earphone receiving the sliding operation on the touch screen thereof and determining the touch point of touching the different positions on the touch screen further includes:

When receiving a touch operation on a touch point on the touch screen for the first time, timing is started as an initial time;

The smart earphone records the touch time of the touch point touched by each different position, and judges each touch time to determine whether it is within a predetermined time range;

If the touch time is within a predetermined time range, the touch point corresponding to the touch time is an effective touch point; if the touch time is not within the predetermined time range, the touch corresponding to the touch time The point is not a valid touch point.

The step of determining the sliding trajectory of the sliding operation according to the order of touching the touch points of different positions specifically includes:

The sliding track is determined in chronological order according to the effective touch points touching the different positions.

In order to solve the above technical problem, another technical solution adopted by the present invention is to provide a smart earphone for controlling the terminal, including:

Touch detection module, track determination module and execution module,

The touch detection module is configured to receive a sliding operation on the smart earphone touch screen, and determine an order of touching touch points of different positions on the touch screen; wherein the touch points of each different position are marked differently ;

The trajectory determining module is configured to determine a sliding trajectory of the sliding operation according to an order of the touch points determined by the touch detecting module to touch different positions;

The execution module is configured to determine an instruction to be executed according to the sliding track determined by the trajectory determination module, and control the terminal to execute the instruction.

The touch detection module is specifically configured to determine a sequence of touching the touch points at different positions by detecting different voltage values generated by the sliding operation touching the touch points of different positions. .

The touch detection module is further configured to record a touch time of touching the touch point of each different position, and determine each touch time to determine whether it is within a predetermined time range; The touch time determines a touch point corresponding to the touch time as a valid touch point within a predetermined time range; and when the touch time is not within the predetermined time range, determining a touch corresponding to the touch time The touch point does not belong to the effective touch point; wherein, when the touch detection module receives the touch operation on a touch point on the touch screen for the first time, the time is started as the initial time.

The trajectory determining module is specifically configured to determine a sliding trajectory according to a chronological sequence of the effective touch points touched by the touch detecting module at different positions.

The beneficial effects of the present invention are: different from the prior art, the terminal control method of the present invention includes the smart earphone receiving a sliding operation on the touch screen thereof, and determining the order of touching the touch points at different positions on the touch screen, according to the sequence. Determining a sliding trajectory of the instruction, further determining a control type of the instruction, and controlling the terminal to execute an instruction triggered by the sliding operation. In the above manner, the touch control of the terminal can be realized only by the smart headset carried by the smart terminal itself, which is more convenient, and the user does not need to purchase other wearable devices, which is convenient to carry and saves the user.

【附图说明】 [Description of the Drawings]

1 is a schematic flow chart of an embodiment of a terminal control method according to the present invention;

2 is a schematic structural diagram of a specific implementation manner of the terminal control method of FIG. 1;

3 is a schematic flowchart of another embodiment of a terminal control method according to the present invention;

4 is a schematic structural view of an embodiment of a smart earphone according to the present invention.

【具体实施方式】【detailed description】

Referring to FIG. 1, FIG. 1 is a schematic flowchart diagram of an implementation manner of a terminal control method according to the present invention. This embodiment includes the following steps:

101: The smart headset receives a sliding operation on its touch screen to determine the order in which the touch points of different positions on the touch screen are touched.

When the smart earphone acts as an external control device for the terminal, when the receiving user issues a sliding operation on the touch screen of the smart earphone, the smart earphone receives the sliding operation. Generally, different sliding operations correspond to different operation commands. For example, when the user plays a video using the terminal and slides a right-to-left operation on the screen, the terminal directly switches to play the next video. Specifically, the smart earphones implement the above functions on the hardware by adding a capacitive or resistive touch panel and a corresponding ADC chip to each of the earphone wires.

In order to recognize the sliding operation, the smart earphone is provided with touch points at different positions of the screen, and the sliding operation of the user is obtained by touching the touch points at different positions on the display screen to further determine the sliding order. Specifically, when the user touches the touch point of different positions, the voltage value generated by the ADC corresponding to the touch point is not equal, and the smart earphone determines which touch point is touched according to the generated voltage value, and The order in which the sliding operation touches each of the touch points is determined in accordance with the order of the different voltage values generated.

Among them, the touch points of each different position are different, and can be marked by letters, numbers or other ways to distinguish the touch points of different positions, which is not limited herein. And the number of touch points is not limited, as long as the order of the sliding operation can be determined, such as five, seven, ten, etc., and is not limited herein.

For example, as shown in FIG. 2, in the present embodiment, by touching the touch points of different positions with Arabic numerals, the number of touched points is set to five, and the touch points and touch points are respectively used. 2. Touch point 3, touch point 4, and touch point 5. The corresponding voltage of the touch point 1 is 0.1V, the voltage corresponding to the touch point 2 is 0.15V, the corresponding voltage of the touch point 3 is 0.2V, and the corresponding voltage of the touch point 4 is 0.25V, the touch point 5 The corresponding voltage is 0.3V. When the sliding operation received by the smart earphone is in the direction indicated by the arrow in FIG. 2, the smart earphone detects three voltage values and the order of triggering by the sliding operation are 0.1V, 0.3V and 0.2V, respectively, and the smart earphone is instantly determined. The touch point touched by this sliding operation has 1, 1 corresponding to 0.1V, 5 corresponding to 0.3V, and 3 corresponding to 0.2V, that is, the order in which the sliding operation touches each touch point is 1, 5, 3. In other embodiments, the touch point can also be directly represented by the voltage value generated by touching it, which is not limited herein.

102: Determine a sliding trajectory of the sliding operation according to an order of touching the touch points of different positions.

After the smart earphone determines the order of touching the touch points according to the sequence of different voltage values generated by the sliding operation, the sliding track can be directly determined according to the above sequence, as shown in FIG. 2, the order of touching the touch points by the current sliding operation It is 1, 5, 3, so the smart earphone determines the trajectory of the current sliding operation from the upper left to the lower right according to the correspondence relationship of the touch points 1, 5, and 3.

103: Determine an instruction to be executed according to the sliding track, and control the terminal to execute the instruction.

Specifically, the smart headset further establishes a correspondence table, and stores a one-to-one correspondence between the trajectory of the sliding operation and the instruction of the terminal in the corresponding correspondence table. The instructions include a forward instruction, a backward instruction, a page turning instruction, a scaling instruction, a refresh instruction, and a determination instruction. If the trajectory of the sliding operation is a horizontal straight line from right to left, it represents the instruction of the backward movement, and the trajectory of the sliding operation is a horizontal straight line from left to right, which represents the forward instruction, and the trajectory of the sliding operation is from the upper left to the lower right. The straight line represents the instruction to be turned up, etc., and is not limited herein.

After determining the sliding track, the smart earphone searches for the instruction corresponding to the current sliding operation in the corresponding table, and the instruction corresponding to a straight line from the upper left to the lower right in FIG. 2 is the upward turning operation. Then, the smart earphone sends an up-turning instruction to the terminal, and after receiving the up-turning command, the terminal performs up-and-down control on the currently running application. If the current terminal is displaying an e-book, the previous page is displayed. If the terminal is currently playing music, the game is switched to the previous music, etc., and is not limited herein.

Different from the prior art, the terminal control method of the present invention includes the smart earphone receiving a sliding operation on the touch screen thereof, determining the order of touching the touch points at different positions on the touch screen, determining the sliding track of the command according to the sequence, and further Determining the type of control of the instruction and controlling the terminal to execute an instruction triggered by the sliding operation. In the above manner, the touch control of the terminal can be realized only by the smart headset carried by the smart terminal itself, which is more convenient, and the user does not need to purchase other wearable devices, which is convenient to carry and saves the user.

In another embodiment, as shown in FIG. 3, FIG. 3 is a schematic flowchart of another embodiment of a terminal control method according to the present invention. The difference between this embodiment and the previous embodiment is that, in order to ensure the effectiveness of the sliding operation, in step 301, after the smart earphone receives the sliding operation on the touch screen, the touch point touched by the current sliding operation is acquired. The step of touching a touch point is not directly determined, and the step of determining whether each touch point touched is valid is also included.

Specifically, after the smart headset receives the touch operation on a touch point on the touch screen for the first time, the time when the touch point is received for the first time is started as the initial time. Record the touch time of the touch point touched by each slide operation at each different position, and compare each touch time with a preset time threshold range, such as 3 milliseconds to 5 milliseconds, to determine whether it is Within a predetermined time threshold range. If the touch time of a touch point is within a time threshold, such as 4 milliseconds, it is determined that the touch point is a valid touch point. If the touch time of a touch point is not within the time threshold range, if the touch time is too long or too short, the corresponding touch point does not belong to the effective touch point. If the touch time is 2 milliseconds or 6 milliseconds, it does not belong to a valid touch point with a time threshold ranging from 3 milliseconds to 5 milliseconds. All touch points that are not part of the effective touch point are no longer used as a range for determining the order of the touch points.

Further, after the smart headset receives the touch operation on a touch point on the touch screen for the first time, the time when the touch point is received for the first time is started as the initial time. Recording the touch time of the touch operation of each different position by the current sliding operation, and determining whether the plurality of touch points are received within a predetermined time, and if yes, determining that the plurality of touch points are valid, according to The plurality of touch points determine the touch order. Otherwise, the touch points received outside of the predetermined time are discarded, and the touch order is determined based on the touch points received within the predetermined time. For example, the user receives 4 touch points within a predetermined 10 milliseconds, that is, the time interval of each touch point cannot exceed 2.5 milliseconds for a predetermined time, and after 5 milliseconds, the fifth touch point is received, although The time of the five touch points is within the touch time threshold of each touch point, but since the smart earphone does not receive the touch point within the predetermined time, the fifth touch point is still not a valid touch. Touch it and discard it.

Then, the smart earphone determines the touch sequence of each effective touch point, and then determines the sliding track according to the order of the effective touch points, as in step 303.

Different from the prior art, the terminal control method of the present embodiment only needs to implement the touch control on the terminal by using the smart headset carried by the smart terminal itself, which is more convenient, and the user does not need to purchase other wearable devices, which is convenient to carry. It also saves users money.

Different from the terminal control method of the previous embodiment, after obtaining the touch point, the present embodiment further determines the validity of each touch point, and further determines the sliding track of the sliding operation according to the touch sequence of the effective touch point. Excluding the touch points that are not valid touch points can effectively eliminate the misoperation, further improve the effectiveness of the touch control, save the power resources of the terminal, and save the cost for the user.

Referring to FIG. 4, FIG. 4 is a schematic structural diagram of an embodiment of a smart earphone according to the present invention. The smart earphone of the present embodiment includes a touch detection module 401, a trajectory determination module 402, and an execution module 403.

The touch detection module 401 is configured to receive a sliding operation on the smart earphone touch screen, and determine an order of touching touch points of different positions on the touch screen; wherein the touch points of each different position are different in labeling;

When the smart earphone is used as an external control device for the terminal, when the receiving user issues a sliding operation on the touch screen of the smart earphone, the touch screen receives the sliding operation. Because, under normal circumstances, different sliding operations will bring different operating instructions. For example, when the user plays a video using the terminal and slides a right-to-left operation on the screen, the terminal directly switches to play the next one. video. Specifically, the smart earphone achieves the above functions by adding a capacitive or resistive touch panel and a corresponding ADC chip to each of the earphone wires.

In order to recognize the sliding operation, the smart earphones are provided with touch points at different positions of the screen, and the touch detection module 401 obtains the sliding operation of the user by touching the touch points at different positions on the display screen to further determine the sliding order. Specifically, when the user touches the touch point of the different position, the voltage value generated by the ADC corresponding to the touch point is not equal, and the touch detection module 401 determines the touch point of which position is touched according to the generated voltage value. And determining the order in which the sliding operation touches the respective touch points according to the order of the different voltage values generated.

The trajectory determining module 402 is configured to determine a sliding trajectory of the sliding operation according to an order determined by the touch detecting module to touch the touch points of different positions. .

After the touch detection module 401 determines the order of touching the respective touch points according to the order of the different voltage values generated by the sliding operation, the trajectory determination module 402 can directly determine the sliding trajectory according to the above sequence.

The executing module 403 is configured to determine an instruction to be executed according to the sliding track determined by the trajectory determining module, and control the terminal to execute the instruction.

After determining the sliding track, the executing module 403 searches for an instruction corresponding to the current sliding operation in the corresponding table, and controls the terminal to execute the instruction. For example, the instruction corresponding to this sliding operation is the upturn operation. Then, the executing module 403 sends an up-turning instruction to the terminal, and after receiving the up-turning command, the terminal performs up-control on the currently running application. If the current terminal is displaying an e-book, the previous page is displayed. If the terminal is currently playing music, the game is switched to the previous music, etc., and is not limited herein.

Different from the prior art, the touch screen of the smart earphone of the embodiment receives the sliding operation of the touch screen thereof, and the touch detecting module determines the order of touching the touch points at different positions on the touch screen, and the track determining module determines the order according to the sequence. The sliding track of the instruction further determines the type of control of the instruction, and the execution module controls the terminal to execute an instruction triggered by the sliding operation. In the above manner, the touch control of the terminal can be realized only by the smart headset carried by the smart terminal itself, which is more convenient, and the user does not need to purchase other wearable devices, which is convenient to carry and saves the user.

In another embodiment, the touch detection module of the smart earphone in the embodiment is further configured to: after the touch screen receives the sliding operation, not directly determine the order of touching the touch points, but further determine that the record touches each The touch time of the touch point at different positions, and each touch time is judged to determine whether it is within a predetermined time range and the touch screen receives the touch of a touch point on the touch screen for the first time. The time of the touch operation starts as the initial time. And each touch time is compared with a preset time threshold range, such as 3 milliseconds to 5 milliseconds, to determine whether it is within a predetermined time threshold range. If the touch time of a touch point is within a time threshold, such as 4 milliseconds, the touch point corresponding to the touch time is determined as a valid touch point; if the touch time of one touch point is not the time threshold In the range, if the touch time is too long or too short, the corresponding touch points are not valid touch points. If the touch time is 2 milliseconds or 6 milliseconds, it does not belong to a valid touch point with a time threshold ranging from 3 milliseconds to 5 milliseconds. All touch points that are not part of the effective touch point are no longer used as a range for determining the order of the touch points.

Further, after the touch detection module receives the touch operation on a touch point on the touch screen for the first time, the time when the touch point is received for the first time is started as the initial time. Recording the touch time of the touch operation of each different position by the current sliding operation, and determining whether the plurality of touch points are received within a predetermined time, and if yes, determining that the plurality of touch points are valid, according to The plurality of touch points determine the touch order. Otherwise, the touch points received outside of the predetermined time are discarded, and the touch order is determined based on the touch points received within the predetermined time. For example, the user receives 4 touch points within a predetermined 10 milliseconds, that is, the time interval of each touch point cannot exceed 2.5 milliseconds for a predetermined time, and after 5 milliseconds, the fifth touch point is received, although The time of the five touch points is within the touch time threshold of each touch point, but since the smart earphone does not receive the touch point within the predetermined time, the fifth touch point is still not a valid touch. Touch it and discard it.

The trajectory determination module is further configured to determine the sliding trajectory according to the order of touching the effective touch points of the different positions.

Different from the prior art, the smart earphone of the present embodiment only needs to implement the touch control of the terminal through the smart earphone carried by the terminal itself, which is more convenient, and the user does not need to purchase other wearable devices, which is convenient to carry and saves the user. Spend.

Different from the smart earphone of the previous embodiment, after the touch screen acquires the touch point, the touch detection module further determines the validity of each touch point, and the track determination module further steps according to the touch order of the effective touch point. Determining the sliding trajectory of the sliding operation and eliminating the touch points that are not valid touch points can effectively eliminate the erroneous operation, further improve the effectiveness of the touch control, save the power resources of the terminal, and save the cost for the user.

The above is only the embodiment of the present invention, and is not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the invention and the drawings are directly or indirectly applied to other related technologies. The fields are all included in the scope of patent protection of the present invention.

Claims

A terminal control method includes:

The smart earphone receives a sliding operation on the touch screen thereof, and when the touch operation on a touch point on the touch screen is received for the first time, the time is started as an initial time;

Recording a touch time of touching the touch point of each different position, and determining each touch time to determine whether it is within a predetermined time range; wherein the touch point of each different position Different labels;

If the touch time is within a predetermined time range, the touch point corresponding to the touch time is an effective touch point; if the touch time is not within the predetermined time range, the touch corresponding to the touch time The point is not a valid touch point;

Determining an order of touching the touch points of the different positions by detecting different voltage values generated by the sliding operation touching the effective touch points of the different positions;

Determining a sliding trajectory of the sliding operation according to an order of touching the effective touch points of different positions;

Determining an instruction to be executed according to the sliding trajectory, and controlling the terminal to execute the instruction.
The method of claim 1 wherein the instructions comprise a forward instruction, a back instruction, a page turning instruction, a scaling instruction, a refresh instruction, and a determining instruction.
A terminal control method includes:

The smart earphone receives a sliding operation on the touch screen thereof, and determines an order of touching the touch points at different positions on the touch screen; wherein the touch points of each different position are marked differently;

Determining a sliding trajectory of the sliding operation according to an order of touching the touch points of different positions;

Determining an instruction to be executed according to the sliding trajectory, and controlling the terminal to execute the instruction.
The method of claim 3, wherein the step of the smart headset receiving an instruction to its touch screen to determine the order of touching the touch points at different locations on the touch screen comprises:

The smart earphone determines the order of touching the touch points of the different positions by detecting different voltage values generated by the sliding operation touching the touch points of the different positions.
The method according to claim 3, wherein the step of the smart earphone receiving a sliding operation on the touch screen thereof, determining the order of touching the touch points at different positions on the touch screen further comprises:

When receiving a touch operation on a touch point on the touch screen for the first time, timing is started as an initial time;

The smart earphone records the touch time of the touch point touched by each different position, and judges each touch time to determine whether it is within a predetermined time range;

If the touch time is within a predetermined time range, the touch point corresponding to the touch time is an effective touch point; if the touch time is not within the predetermined time range, the touch corresponding to the touch time The point is not a valid touch point.
The method according to claim 5, wherein the step of determining the sliding trajectory of the sliding operation according to the order of touching the touch points of different positions comprises:

The sliding track is determined in chronological order according to the effective touch points touching the different positions.
The method of claim 3, wherein the instructions comprise a forward instruction, a backward instruction, a page turning instruction, a scaling instruction, a refresh instruction, and a determining instruction.
A smart earphone for controlling a terminal, wherein the smart earphone comprises: a touch detection module, a track determination module, and an execution module,

The touch detection module is configured to receive a sliding operation on the smart earphone touch screen, and determine an order of touching touch points of different positions on the touch screen; wherein the touch points of each different position are marked differently ;

The trajectory determining module is configured to determine a sliding trajectory of the sliding operation according to an order of the touch points determined by the touch detecting module to touch different positions;

The execution module is configured to determine an instruction to be executed according to the sliding track determined by the trajectory determination module, and control the terminal to execute the instruction.
The smart earphone according to claim 8, wherein the touch detection module is specifically configured to determine a touch by detecting different voltage values generated by the sliding operation touching the touch points of different positions. The order of the touch points at different locations.
The smart earphone according to claim 8, wherein

The touch detection module is further configured to record a touch time of touching the touch point of each different position, and determine each touch time to determine whether it is within a predetermined time range; and touch Determining a touch point corresponding to the touch time as an effective touch point within a predetermined time range; determining a touch point corresponding to the touch time when the touch time is not within a predetermined time range It does not belong to an effective touch point; wherein, when the touch detection module receives a touch operation on a touch point on the touch screen for the first time, the time is started as an initial time.
The smart earphone according to claim 10, wherein the trajectory determining module is specifically configured to determine a sliding trajectory according to a chronological sequence of the effective touch points touched by the touch detecting module at different positions.
The smart headset of claim 8, wherein the instructions comprise a forward instruction, a back instruction, a page turning instruction, a scaling instruction, a refresh instruction, and a determination instruction.