CN107102717B - Screen control method and device - Google Patents

Abstract

The embodiment of the invention discloses a screen control method and device. The method comprises the following steps: when a bright screen control instruction sent by an intelligent wearable user is detected, acquiring motion detection parameters of the intelligent wearable device in a set historical time interval; judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user; if yes, starting screen display of the intelligent wearable device. The scheme of the embodiment of the invention can solve the problem that unnecessary power consumption waste is brought to the intelligent watch due to the fact that a user does not have a screen lightening requirement and the screen is awakened only because of misoperation or the fact that the screen of the intelligent watch is contacted with some conductive media, optimizes the existing screen awakening mechanism and reduces unnecessary power consumption waste of the intelligent wearable device.

Description

Screen control method and device

Technical Field

The embodiment of the invention relates to an information processing technology, in particular to a screen control method and device.

Background

The intelligent wearing equipment is a general term for applying wearing type technology to intelligently design daily wearing and develop wearable equipment, for example: watches, bracelets, glasses, clothing, etc. The intelligent watch is used as one of wearable devices, combines the latest IT technology with the traditional watch function, and has the advantages of convenience in carrying, easiness in use, rich functions and the like.

Due to the volume limitation of the smart watch, the battery capacity cannot be too large. At present, the standby time of the smart watches in the market is basically no longer than half a month, only a few days are short, and a lot of troubles are brought to users by frequent charging, wherein one of the most power-consuming components of the smart watches is a screen. In the prior art, a screen of a smart watch is in a screen-off state when a user does not use the smart watch, and when the user clicks the screen of the smart watch, the screen can be awakened and corresponding operation can be executed, so that power consumption is reduced.

The inventor finds that the prior art has the following defects in the process of implementing the invention: when a user does not have a screen lightening requirement, unnecessary power consumption waste can be brought to the smart watch only because of screen awakening caused by misoperation or the fact that the screen of the smart watch is in contact with some conductive media.

Disclosure of Invention

The embodiment of the invention provides a screen control method and device, which aim to optimize the existing screen awakening mechanism and reduce unnecessary power consumption waste of intelligent wearable equipment.

In a first aspect, an embodiment of the present invention provides a screen control method, including:

when a bright screen control instruction sent by an intelligent wearable user is detected, acquiring motion detection parameters of the intelligent wearable device in a set historical time interval;

judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user;

if yes, starting screen display of the intelligent wearable device.

Further, the intelligent wearable device comprises: wear in intelligence dress user wrist on the intelligence wrist watch, perhaps intelligent bracelet.

Further, the motion detection parameters include at least one of:

a gravitational acceleration detection parameter, a horizontal acceleration detection parameter, and an angular velocity detection parameter.

Further, whether the motion detection parameter meets the effective screen-lighting condition or not is judged by combining the current state of the intelligent wearable user, and the judgment comprises the following steps:

if the current state of the intelligent wearable user is the arm drop state, matching the motion detection parameters with a first detection template, and judging that the motion detection parameters meet effective screen-lighting conditions when the matching is successful;

if the current state of the intelligent wearable user is a state that an arm is placed on a horizontal support, matching the motion detection parameter with a second detection template, and judging that the motion detection parameter meets an effective screen-lighting condition when the matching is successful;

the first detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user drops; the second detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user is placed on the horizontal support.

Further, before determining whether the motion detection parameter satisfies an effective screen-lighting condition in combination with the current state of the intelligent wearable user, the method further includes:

and acquiring the motion detection parameters of the intelligent wearable device in real time, and updating the current state of the intelligent wearable user in real time according to the motion detection parameters.

In a second aspect, an embodiment of the present invention further provides a screen control apparatus, including:

the motion detection parameter acquisition module is used for acquiring motion detection parameters of the intelligent wearable device in a set historical time interval when a bright screen control instruction sent by the intelligent wearable user is detected;

the effective screen lightening condition judging module is used for judging whether the motion detection parameters meet effective screen lightening conditions or not by combining the current state of the intelligent wearable user;

and the screen display starting module is used for starting the screen display of the intelligent wearable device if the motion detection parameters meet the effective screen lighting condition.

Further, the intelligent wearable device comprises: wear in intelligence dress user wrist on the intelligence wrist watch, perhaps intelligent bracelet.

Further, the motion detection parameters include at least one of:

a gravitational acceleration detection parameter, a horizontal acceleration detection parameter, and an angular velocity detection parameter.

Further, the effective screen-lighting condition judgment module includes:

the first detection template matching unit is used for matching the motion detection parameters with a first detection template if the current state of the intelligent wearable user is the arm drop state, and judging that the motion detection parameters meet the effective screen-lighting condition when the matching is successful;

the second detection template matching unit is used for matching the motion detection parameters with a second detection template if the current state of the intelligent wearable user is a state that an arm is placed on a horizontal support, and judging that the motion detection parameters meet effective screen-lighting conditions when the matching is successful;

the first detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user drops; the second detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user is placed on the horizontal support.

Further, the system further comprises a current state updating module, configured to:

and acquiring the motion detection parameters of the intelligent wearable equipment in real time before judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user, and updating the current state of the intelligent wearable user in real time according to the motion detection parameters.

The embodiment of the invention provides a screen control method and a screen control device, wherein when a bright screen control instruction sent by an intelligent wearable user is detected, a motion detection parameter of intelligent wearable equipment in a set historical time interval is obtained; judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user; when the motion detection parameters meet the effective screen lightening condition, the screen display technical means of the intelligent wearable device is started, the problem that unnecessary power consumption is wasted due to the fact that the screen is wakened up only when the screen of the intelligent watch is contacted with some conductive media due to misoperation or the fact that the screen of the intelligent watch is not required to be lightened by a user can be solved, the existing screen wakening mechanism is optimized, and unnecessary power consumption waste of the intelligent wearable device is reduced.

Drawings

FIG. 1 is a flowchart of a screen control method according to a first embodiment of the present invention;

FIG. 2 is a flowchart of a screen control method according to a second embodiment of the present invention;

fig. 3 is a structural diagram of a screen control device in a third embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

It should be further noted that, for the convenience of description, only some but not all of the relevant aspects of the present invention are shown in the drawings. Before discussing exemplary embodiments in more detail, it should be noted that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart may describe the operations (or steps) as a sequential process, many of the operations can be performed in parallel, concurrently or simultaneously. In addition, the order of the operations may be re-arranged. The process may be terminated when its operations are completed, but may have additional steps not included in the figure. The processes may correspond to methods, functions, procedures, subroutines, and the like.

Example one

Fig. 1 is a flowchart of a screen control method according to an embodiment of the present invention, where the present embodiment is applicable to a case where a user controls a display screen of a wearable device, and the method may be executed by a screen control apparatus according to an embodiment of the present invention, where the apparatus may be implemented in software and/or hardware, and may be generally integrated in a wearable device. As shown in fig. 1, the method of this embodiment specifically includes:

s110, when a bright screen control instruction sent by the intelligent wearable user is detected, motion detection parameters of the intelligent wearable device in a set historical time interval are obtained.

In this embodiment, the smart wearable device may include: wear in intelligence dress user wrist on the intelligence wrist-watch, perhaps intelligent bracelet etc..

The bright screen control instruction refers to a control instruction generated by triggering by a user through touching a screen of the intelligent wearable device or pressing a set entity key in the intelligent wearable device, and the bright screen control instruction is used for waking up (or lighting up) the screen of the intelligent wearable device.

In the prior art, after the intelligent wearable device acquires the bright screen control instruction, the screen display can be directly started to realize bright screen. However, the technical solution of this embodiment does not directly start the screen display, but further determines whether the bright screen control command is triggered and generated at the actual will of the user or is triggered and generated by the misoperation of the user. The specific judgment method is realized based on the motion detection parameters of the intelligent wearable device in the set historical time interval.

Wherein the motion detection parameters may include at least one of: a gravitational acceleration detection parameter, a horizontal acceleration detection parameter, and an angular velocity detection parameter.

Correspondingly, the motion detection parameters can be obtained through various sensors arranged in the intelligent wearable device or externally connected with the intelligent wearable device.

For example: the method comprises the steps of obtaining a gravity acceleration detection parameter through a gravity sensor, obtaining a horizontal acceleration detection parameter through an acceleration sensor, and obtaining an angular velocity detection parameter through a gyroscope.

The historical time interval may be preset according to actual conditions, for example, the obtaining time of the bright screen control instruction is used as an end point of the historical time interval, and a starting point of the historical time interval is obtained after a set time period (for example, 2s, 3s, 5s, or the like) is recurred forward.

For example: the obtaining time of the bright screen control instruction is 18:01:30, the set time period is 5s, and the historical time interval is 18:01: 25-18: 01: 30.

The purpose of obtaining the motion detection parameters in the set historical time interval is to identify whether a bright screen control instruction of a user is generated by triggering after the user completes one or a series of typical actions for checking the screen of the intelligent wearable device.

And S120, judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user.

In an optional implementation manner of this embodiment, the inventor considers that, in order to view the screen of the smart wearable device worn on the wrist, before touching the screen or pressing a set physical key in the smart wearable device, an operation of raising the arm (or a state that the smart wearable device is raised) must be performed first, and therefore, only after determining that the user performs the above typical action through the motion detection parameter, it is determined that the motion detection parameter satisfies the effective screen-lighting condition, and then the screen display of the smart wearable device is turned on.

Therefore, a detection template composed of a plurality of motion detection parameters corresponding to a typical motion of raising the arm may be stored in advance, and if the motion detection parameters acquired in real time conform to the detection template, it is determined that an effective screen-on condition is satisfied; otherwise, determining that the bright screen condition is not met.

The detection template can be determined according to a plurality of groups of actually acquired motion detection parameters corresponding to the action of the user for lifting the arm. Typically, the detection template may be divided into a plurality of sub-templates according to the types of motion detection parameters (gravity acceleration detection parameter, horizontal acceleration detection parameter, and angular velocity detection parameter), and in each sub-template, statistical characteristic parameters of a plurality of motion detection parameter acquisition values matching the motion are recorded, for example: average, maximum, minimum, or variation curve, etc.

After the detection parameters are acquired in real time, whether the motion detection parameters meet the effective screen-lighting condition or not can be determined through data fitting, similarity calculation and other modes.

Furthermore, the inventors have further found that the detection templates corresponding to the above typical actions are different from each other in different scenes. Namely: when the user is standing or lying down, and performs the above-mentioned typical motion of raising the arm, the motion detection parameters are significantly different, mainly because the user has different arm states before raising the arm, and may be in a state of hanging down or in a state of being placed on a support (e.g., a bed). In this embodiment, further to user's different states, construct different detection templates, and acquire in real time during the motion detection parameter, combine intelligence wearing user's current state, judge whether the motion detection parameter satisfies effective bright screen condition, set up like this and can improve final discernment precision greatly, judge more accurate to the bright screen demand of user's reality, improved user's use and experienced.

S130, if the motion detection parameters meet effective screen lightening conditions, starting screen display of the intelligent wearable device.

The embodiment of the invention provides a screen control method, which comprises the steps of acquiring motion detection parameters of intelligent wearable equipment in a set historical time interval when a bright screen control instruction sent by an intelligent wearable user is detected; judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user; when the motion detection parameters meet the effective screen lightening condition, the screen display technical means of the intelligent wearable device is started, the technical problem that unnecessary power consumption is wasted due to the fact that a user does not have the screen lightening requirement and only wakes up due to the fact that the screen of the intelligent watch is in contact with some conductive media through misoperation or the screen of the intelligent watch is not in contact with the conductive media can be solved, an existing screen waking-up mechanism is optimized, and unnecessary power consumption waste of the intelligent wearable device is reduced.

Example two

Fig. 2 is a flowchart of a screen control method according to a second embodiment of the present invention, where the present embodiment is optimized based on the above-described embodiment, and in the present embodiment, whether the motion detection parameter meets an effective screen-lighting condition is determined by combining the current state of the intelligent wearable user, and the optimization is specifically: if the current state of the intelligent wearable user is the arm drop state, matching the motion detection parameters with a first detection template, and judging that the motion detection parameters meet effective screen-lighting conditions when the matching is successful; and if the current state of the intelligent wearable user is a state that the arm is placed on a horizontal support, matching the motion detection parameter with a second detection template, and judging that the motion detection parameter meets an effective screen-lighting condition when the matching is successful.

And, before determining whether the motion detection parameter satisfies an effective screen-lighting condition in combination with the current state of the intelligent wearable user, the method preferably further includes: and acquiring the motion detection parameters of the intelligent wearable device in real time, and updating the current state of the intelligent wearable user in real time according to the motion detection parameters.

Correspondingly, the method of the embodiment of the invention comprises the following steps:

s210, obtaining motion detection parameters of the intelligent wearable device in real time, and updating the current state of the intelligent wearable user in real time according to the motion detection parameters.

As mentioned above, the detection templates corresponding to the actions of raising the arms of the smart wearing user in different scenes, typically, in a standing state (including standing still and walking) and a lying state (including lying down and lying prone), may be significantly different. Therefore, in combination with the above-mentioned arm-raising operation, two current states of the smart wearing user can be defined, one state is an arm-down state, and the other state is a state in which the arm is placed on the horizontal support.

Meanwhile, in order to realize that whether the user performs an action of lifting an arm or lifting the intelligent wearable device or not after receiving a bright screen control instruction sent by the user, the current state of the intelligent wearable user can be preferably updated in real time. Wherein the state of the smart wearable user may include: the arm is in a state of sagging and the arm is placed on the horizontal support.

Further, the current state of the smart wearable user may be updated by obtaining motion detection parameters (typically, gravitational acceleration detection parameters) of the smart wearable device.

S220, when a bright screen control instruction sent by the intelligent wearable user is detected, motion detection parameters of the intelligent wearable device in a set historical time interval are obtained.

S230, judging whether the current state of the intelligent wearable user is the state of arm drop or not: if yes, go to S240; otherwise, S250 is executed.

S240, matching the motion detection parameters with a first detection template, judging that the motion detection parameters meet effective screen-lighting conditions when the matching is successful, and executing S270.

The first detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user drops.

S250, judging that the current state of the intelligent wearable user is a state that an arm is placed on a horizontal support: if yes, go to S260; otherwise, S280 is executed.

And S260, matching the motion detection parameters with a second detection template, judging that the motion detection parameters meet effective screen lightening conditions when the matching is successful, and executing S270.

The second detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user is placed on the horizontal support.

And S270, starting screen display of the intelligent wearable device.

And S280, not starting the screen display of the intelligent wearable device.

According to the technical scheme, the motion detection parameters of the intelligent wearable device are obtained in real time, the current state of the intelligent wearable user is updated in real time according to the motion detection parameters, if the current state of the intelligent wearable user is the state with the drooping arm, the motion detection parameters are matched with a first detection template, and when the matching is successful, the motion detection parameters are judged to meet effective screen-lighting conditions; if intelligence dress user's current state is the state that the arm was placed on the horizontal support, then will motion detection parameter and second detect the template and match to when matching successfully, judge motion detection parameter satisfies the mode of effective bright screen condition, can improve final discernment precision greatly, and it is more accurate to the bright screen demand judgement of user's reality, has improved user's use and has experienced.

EXAMPLE III

Fig. 3 is a schematic structural diagram of a screen control device according to a third embodiment of the present invention, and as shown in fig. 3, the screen control device includes: a motion detection parameter obtaining module 310, an effective bright screen condition determining module 320, and a screen display opening module 330, wherein:

the motion detection parameter obtaining module 310 is configured to, when a bright-screen control instruction sent by the intelligent wearable user is detected, obtain a motion detection parameter of the intelligent wearable device within a set historical time interval.

And an effective screen-lighting condition judgment module 320, configured to judge, in combination with the current state of the intelligent wearable user, whether the motion detection parameter meets an effective screen-lighting condition.

And the screen display starting module 330 is configured to start the screen display of the intelligent wearable device if the motion detection parameter meets an effective screen lighting condition.

The embodiment of the invention provides a screen control device, which is used for acquiring motion detection parameters of intelligent wearable equipment in a set historical time interval when a bright screen control instruction sent by an intelligent wearable user is detected; judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user; when the motion detection parameters meet the effective screen lightening condition, the screen display technical means of the intelligent wearable device is started, the problem that unnecessary power consumption is wasted due to the fact that the screen is wakened up only when the screen of the intelligent watch is contacted with some conductive media due to misoperation or the fact that the screen of the intelligent watch is not required to be lightened by a user can be solved, the existing screen wakening mechanism is optimized, and unnecessary power consumption waste of the intelligent wearable device is reduced.

On the basis of the above embodiments, the smart wearable device may include: wear in intelligence dress user wrist on the intelligence wrist watch, perhaps intelligent bracelet.

On the basis of the above embodiments, the motion detection parameters may include at least one of the following:

a gravitational acceleration detection parameter, a horizontal acceleration detection parameter, and an angular velocity detection parameter.

On the basis of the foregoing embodiments, the effective bright screen condition determining module may include:

the first detection template matching unit is used for matching the motion detection parameters with a first detection template if the current state of the intelligent wearable user is the arm drop state, and judging that the motion detection parameters meet the effective screen-lighting condition when the matching is successful;

the second detection template matching unit is used for matching the motion detection parameters with a second detection template if the current state of the intelligent wearable user is a state that an arm is placed on a horizontal support, and judging that the motion detection parameters meet effective screen-lighting conditions when the matching is successful;

the first detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user drops; the second detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user is placed on the horizontal support.

On the basis of the foregoing embodiments, the present state updating module may further include:

and acquiring the motion detection parameters of the intelligent wearable equipment in real time before judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user, and updating the current state of the intelligent wearable user in real time according to the motion detection parameters.

The screen control device can execute the screen control method provided by any embodiment of the invention, and has the corresponding functional modules and beneficial effects of the executed screen control method.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (8)

1. A screen control method, comprising:

when a bright screen control instruction sent by an intelligent wearable user is detected, acquiring motion detection parameters of the intelligent wearable device in a set historical time interval; the terminal point of the historical time interval is the acquisition time of the bright screen control instruction, and the starting point is the time point after the acquisition time is recurred forward by a set time period;

judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user;

if yes, starting screen display of the intelligent wearable device;

and judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user, wherein the judgment comprises the following steps:

if the current state of the intelligent wearable user is the arm drop state, matching the motion detection parameters with a first detection template, and judging that the motion detection parameters meet effective screen-lighting conditions when the matching is successful;

if the current state of the intelligent wearable user is a state that an arm is placed on a horizontal support, matching the motion detection parameter with a second detection template, and judging that the motion detection parameter meets an effective screen-lighting condition when the matching is successful;

the first detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user drops; the second detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user is placed on the horizontal support.

2. The method of claim 1, wherein the smart wearable device comprises: wear in intelligence dress user wrist on the intelligence wrist watch, perhaps intelligent bracelet.

3. The method of claim 2, wherein the motion detection parameters comprise at least one of:

a gravitational acceleration detection parameter, a horizontal acceleration detection parameter, and an angular velocity detection parameter.

4. The method according to claim 1, before determining whether the motion detection parameter satisfies a valid bright-screen condition in combination with a current state of the smart wearable user, further comprising:

and acquiring the motion detection parameters of the intelligent wearable device in real time, and updating the current state of the intelligent wearable user in real time according to the motion detection parameters.

5. A screen control apparatus, comprising:

the motion detection parameter acquisition module is used for acquiring motion detection parameters of the intelligent wearable device in a set historical time interval when a bright screen control instruction sent by the intelligent wearable user is detected; the terminal point of the historical time interval is the acquisition time of the bright screen control instruction, and the starting point is the time point after the acquisition time is recurred forward by a set time period;

the effective screen lightening condition judging module is used for judging whether the motion detection parameters meet effective screen lightening conditions or not by combining the current state of the intelligent wearable user;

the screen display starting module is used for starting the screen display of the intelligent wearable device if the motion detection parameters meet the effective screen lightening condition;

the effective bright screen condition judgment module comprises:

the first detection template matching unit is used for matching the motion detection parameters with a first detection template if the current state of the intelligent wearable user is the arm drop state, and judging that the motion detection parameters meet the effective screen-lighting condition when the matching is successful;

the second detection template matching unit is used for matching the motion detection parameters with a second detection template if the current state of the intelligent wearable user is a state that an arm is placed on a horizontal support, and judging that the motion detection parameters meet effective screen-lighting conditions when the matching is successful;

the first detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user drops; the second detection template is used for identifying the state that the intelligent wearable device is lifted when the arm of the user is placed on the horizontal support.

6. The apparatus of claim 5, wherein the smart wearable device comprises: wear in intelligence dress user wrist on the intelligence wrist watch, perhaps intelligent bracelet.

7. The apparatus of claim 6, wherein the motion detection parameters comprise at least one of:

a gravitational acceleration detection parameter, a horizontal acceleration detection parameter, and an angular velocity detection parameter.

8. The apparatus of claim 5, further comprising a current state update module configured to:

and acquiring the motion detection parameters of the intelligent wearable equipment in real time before judging whether the motion detection parameters meet effective screen-lighting conditions or not by combining the current state of the intelligent wearable user, and updating the current state of the intelligent wearable user in real time according to the motion detection parameters.

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