CN105988560B - Application starting method and device - Google Patents

Abstract

The invention discloses an application starting method and device, wherein the method comprises the following steps: detecting an operation instruction, wherein the operation instruction at least comprises two operations; judging whether the operation instruction is consistent with a preset operation instruction for starting the application; the application is started under the condition that the judgment results are consistent, and the problem that the application is high in possibility of false triggering in the related technology is solved, so that the possibility of false triggering is reduced, and the user experience is improved.

Description

Application starting method and device

Technical Field

The invention relates to the field of communication, in particular to an application starting method and device.

Background

With the development and popularization of mobile terminals, more and more mobile terminals support the sense of intelligence. The false triggering of the motion sensing operation brings inconvenience to the user experience and the use and influences the use of the user.

The Sensor Hub is a microcontroller which can acquire, integrate and process data from different sensors, can work under the condition of low sleep or power consumption of the mobile phone, identifies and integrates original data of each Sensor, defines some specific body sensing actions, and wakes up a mobile phone system if necessary. At present, the mainstream somatosensory operation mobile phones in the market all adopt the chips. Such as IPHONE, Galaxy Note II and Galaxy S4 from Samsung, MX3 from charm, etc.

By combining user habits and specific use scenes, some action operations defined by the sensor have high false triggering probability.

For example, turning on the motion sensing photographing function, the actions are defined as follows: and the mobile phone is lifted up and stays for a little time after being horizontally displayed. And triggering the mobile phone to act, lightening the screen, and starting the camera to enter a photographing interface. If the operation is not touch-proof, the false triggering probability is high, for example, if a user lifts the mobile phone by accident, the triggering may occur, which results in poor user experience.

Aiming at the problem of high possibility of false triggering in the related technology, no effective solution is provided at present.

Disclosure of Invention

The invention provides an application starting method and device, which at least solve the problem of high possibility of false triggering of an application in the related art.

According to an aspect of the present invention, there is provided an application starting method, including: detecting an operation instruction, wherein the operation instruction at least comprises two operations; judging whether the operation instruction is consistent with a preset operation instruction for starting an application or not; and starting the application under the condition that the judgment result is consistent.

Further, the detected operation instruction includes: and the sensor operation instruction detected by the sensor and the black screen operation instruction detected by the screen in the black screen state.

Further, judging whether the detected sensor operation instruction is consistent with a sensor operation instruction included in the preset operation instruction, and whether the black screen operation instruction detected by the screen in the black screen state is consistent with a screen operation instruction included in the preset operation instruction; and if the judgment result is yes, determining that the operation instruction is consistent with a preset operation instruction for starting the application.

Further, judging whether the black screen operation instruction detected by the screen in the black screen state is consistent with the screen operation instruction included in the preset operation instruction or not includes one of the following steps: when the black screen operation instruction is a long-time pressing operation, judging whether the long-time pressing operation duration meets a preset duration; if the judgment result is yes, determining that the black screen operation instruction is consistent with a screen operation instruction included in the preset operation instruction; when the black screen operation instruction is a touch track, judging whether the detected touch track is consistent with a preset track, and if so, determining that the black screen operation instruction is consistent with a screen operation instruction included in the preset operation instruction; and when the black screen operation instruction is a double-click operation, judging whether the preset operation instruction carries out the double-click operation on the black screen, and if so, determining that the black screen operation instruction is consistent with the screen operation instruction included in the preset operation instruction.

Further, the sensor operation instructions include one of: the method comprises the following steps that the UE shakes left and right, the UE turns from the front to the back, the UE turns from the back to the front, the UE falls at a preset height, and the UE moves at a preset speed at a preset angle; the black screen operation instruction comprises one of the following: double clicking the screen, drawing the screen from a first preset position to a second preset position along a preset track, and pressing the screen with a single finger or double fingers.

According to another aspect of the present invention, there is provided an application starting apparatus including: the detection module is used for detecting an operation instruction, wherein the operation instruction at least comprises two operations; the judging module is used for judging whether the operation instruction is consistent with a preset operation instruction for starting the application; and the starting module is used for starting the application under the condition that the judgment result is consistent.

Further, the detected operation instruction includes: and the sensor operation instruction detected by the sensor and the black screen operation instruction detected by the screen in the black screen state.

Further, the judging module comprises: the judging unit is used for judging whether the detected sensor operation instruction is consistent with a sensor operation instruction included in the preset operation instruction, and whether the black screen operation instruction detected by the screen in the black screen state is consistent with a screen operation instruction included in the preset operation instruction; and the determining unit is used for determining that the operation instruction is consistent with a preset operation instruction for starting the application if the judgment result is yes.

Further, the judging unit includes one of: the first judging subunit is used for judging whether the long-time pressing operation duration meets a preset duration or not when the black screen operation instruction is long-time pressing operation; if the judgment result is yes, determining that the black screen operation instruction is consistent with a screen operation instruction included in the preset operation instruction; the second judging subunit is configured to, when the black screen operation instruction is a touch trajectory, judge whether the detected touch trajectory is consistent with a predetermined trajectory, and if the judgment result is yes, determine that the black screen operation instruction is consistent with a screen operation instruction included in the predetermined operation instruction; and the third judging subunit is configured to, when the black screen operation instruction is a double-click operation, judge whether the preset operation instruction performs a double-click operation on the black screen, and determine that the black screen operation instruction is consistent with a screen operation instruction included in the preset operation instruction if the judgment result is yes.

Further, the sensor operation instructions include one of: the method comprises the steps that the UE shakes left and right, the UE turns from the front side to the back side, the UE turns from the back side to the front side, the UE falls at a preset height, and the UE moves at a preset speed at a preset angle. The black screen operation instruction comprises one of the following: double clicking the screen, drawing the screen from a first preset position to a second preset position along a preset track, and pressing the screen with a single finger or double fingers.

According to the invention, the detected operation instruction is adopted, wherein the operation instruction at least comprises two operations; judging whether the operation instruction is consistent with a preset operation instruction for starting an application or not; and under the condition that the judgment results are consistent, the application is started, so that the problem that the application is high in false triggering possibility in the related technology is solved, the false triggering possibility is reduced, and the user experience is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:

FIG. 1 is a flow chart of an application launching method according to an embodiment of the present invention;

FIG. 2 is a block diagram of an application launching device according to an embodiment of the present invention;

FIG. 3 is a block diagram one of an application launching device in accordance with a preferred embodiment of the present invention;

FIG. 4 is a block diagram two of an application launching device in accordance with a preferred embodiment of the present invention;

FIG. 5 is a block diagram of a false trigger prevention device according to an embodiment of the present invention;

FIG. 6 is a block diagram of a false trigger prevention device according to a preferred embodiment of the present invention;

fig. 7 is a flowchart of a process of a motion sensing operation in combination with a black screen action according to an embodiment of the present invention.

Detailed Description

The invention will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

In this embodiment, an application starting method is provided, and fig. 1 is a flowchart of an application starting method according to an embodiment of the present invention, as shown in fig. 1, the flowchart includes the following steps:

step S102, detecting an operation instruction, wherein the operation instruction at least comprises two operations;

step S104, judging whether the operation instruction is consistent with a preset operation instruction for starting the application;

and step S106, starting the application under the condition that the judgment result is consistent.

Through the steps, an operation instruction is detected, wherein the operation instruction at least comprises two operations; judging whether the operation instruction is consistent with a preset operation instruction for starting the application; the application is started under the condition that the judgment results are consistent, and the problem that the application is high in possibility of false triggering in the related technology is solved, so that the possibility of false triggering is reduced, and the user experience is improved.

The operation instruction may be an operation instruction for operating under a bright screen or a black screen model, and in an alternative embodiment, the detected operation instruction includes: and the sensor operation instruction detected by the sensor and the black screen operation instruction detected by the screen in the black screen state.

There are various ways to determine whether the operation instruction is consistent with a predetermined operation instruction for starting the application, and in an optional embodiment, the determination is made in the following way: judging whether the detected sensor operation instruction is consistent with a sensor operation instruction included in the preset operation instruction, and whether the black screen operation instruction detected by the screen in the black screen state is consistent with a screen operation instruction included in the preset operation instruction; and if the judgment result is yes, determining that the operation instruction is consistent with a preset operation instruction for starting the application.

There are many ways to determine whether the black screen operation is consistent with the black screen operation included in the predetermined operation instruction, and only a typical example is described below, where when the black screen operation instruction is a long press operation, it is determined whether a duration of the long press operation satisfies a predetermined duration; if the judgment result is yes, determining that the black screen operation instruction is consistent with a screen operation instruction included in the preset operation instruction; when the black screen operation instruction is a touch track, judging whether the detected touch track is consistent with a preset track, and if so, determining that the black screen operation instruction is consistent with a screen operation instruction included in the preset operation instruction; and when the black screen operation instruction is a double-click operation, judging whether the preset operation instruction carries out the double-click operation on the black screen, and if so, determining that the black screen operation instruction is consistent with the screen operation instruction included in the preset operation instruction.

The sensor operation instruction comprises one of the following: the method comprises the following steps that the UE shakes left and right, the UE turns from the front to the back, the UE turns from the back to the front, the UE falls at a preset height, and the UE moves at a preset speed at a preset angle; the black screen operation instruction comprises one of the following: double clicking the screen, drawing the screen from a first preset position to a second preset position along a preset track, and pressing the screen with a single finger or double fingers. It should be noted that neither the sensor operation command nor the black screen operation command is limited to the above-mentioned cases, which are only preferred embodiments, and others are within the scope of the embodiments of the present invention.

The embodiment of the present invention further provides an application starting apparatus, which is used to implement the foregoing embodiment and preferred embodiments, and the description of the apparatus is omitted here. As used below, the term "module" may be a combination of software and/or hardware that implements a predetermined function. Although the means described in the embodiments below are preferably implemented in software, an implementation in hardware, or a combination of software and hardware is also possible and contemplated.

Fig. 2 is a block diagram of an application starting apparatus according to an embodiment of the present invention, as shown in fig. 2, including: a detection module 22, a determination module 24, and an activation module 26, each of which is briefly described below.

The detection module 22 is configured to detect an operation instruction, where the operation instruction includes at least two operations;

a judging module 24, configured to judge whether the operation instruction is consistent with a predetermined operation instruction for starting an application;

and the starting module 26 is used for starting the application under the condition that the judgment result is consistent.

The operation instruction may be an operation instruction for operating under a bright screen or a black screen model, and in an alternative embodiment, the detected operation instruction includes: and the sensor operation instruction detected by the sensor and the black screen operation instruction detected by the screen in the black screen state.

Fig. 3 is a first block diagram of the application starting apparatus according to the preferred embodiment of the present invention, and as shown in fig. 3, the determining module 24 includes:

a determining unit 32, configured to determine whether the detected sensor operation instruction is consistent with a sensor operation instruction included in the predetermined operation instruction, and whether the black screen operation instruction detected by the screen in the black screen state is consistent with a screen operation instruction included in the predetermined operation instruction;

and a determining unit 34, configured to determine that the operation instruction is consistent with a predetermined operation instruction for starting the application if the determination result is yes.

Fig. 4 is a block diagram ii of the application starting apparatus according to the preferred embodiment of the present invention, and as shown in fig. 4, the judging unit 32 includes one of the following:

a first judging subunit 42, configured to, when the black screen operation instruction is a long press operation, judge whether a duration of the long press operation satisfies a predetermined duration; if the judgment result is yes, determining that the black screen operation instruction is consistent with a screen operation instruction included in the preset operation instruction;

a second judging subunit 44, configured to, when the black screen operation instruction is a touch trajectory, judge whether the detected touch trajectory is consistent with a predetermined trajectory, and if the judgment result is yes, determine that the black screen operation instruction is consistent with a screen operation instruction included in the predetermined operation instruction;

and a third determining subunit 46, configured to determine, when the black screen operation instruction is a double-click operation, whether a double-click operation is performed on the black screen in the predetermined operation instruction, and if the determination result is yes, determine that the black screen operation instruction is consistent with the screen operation instruction included in the predetermined operation instruction.

Embodiments of the invention are further described below in conjunction with the alternative embodiments.

This alternative embodiment provides a new false trigger prevention mode of operation for adapting the sensor hub to bring a new user profile. The gesture action of the sensor hub is combined with the black screen gesture action supported by the terminal, and the related somatosensory action is triggered in a combined mode. The black screen gesture also belongs to a low-power-consumption somatosensory operation, and generally, when a mobile phone is in a black screen standby state, a screen does not work and is directly in a closed state, but if the black screen gesture is supported, a mobile phone touch screen is in a low-power-consumption mode, the operation of a user on the screen can be recognized, and the whole mobile phone is awakened if necessary. And detecting the action of the sensor and the action of a black screen, and jointly triggering a specific mobile phone action combination action. Therefore, reliability and correctness of the intelligent somatosensory operation are improved, false triggering operation of the somatosensory operation is reduced, user experience is improved, and the differentiated competitive advantage of products is improved. In order to achieve the above object, fig. 5 is a block diagram of a false trigger prevention apparatus according to an embodiment of the present invention, as shown in fig. 5, including the following modules: the motion detection module 52, the black screen motion detection module 54, and the comprehensive terminal motion processing module 56 are implemented by the detection module 22, the determination module 24, and the start module 26 in the embodiment of the present invention, and each module is briefly described below.

Fig. 6 is a block diagram of the false triggering prevention device according to the preferred embodiment of the present invention, and as shown in fig. 6, the smart body sensing module 52 includes: the sensor hub processor, the sensor1, the sensor2, … … and the sensor n are mainly sensor hubs or processing chips with the functions of the sensor hubs to acquire the original data of each sensor, identify specific actions through a pre-designed identification algorithm of the processor, convert the actions into instructions which can be identified by a terminal (application processor), and report the instructions to the terminal action comprehensive processing module. Common actions are, for example, shaking a mobile phone left and right for two times; the terminal is turned over from the front side to the back side, or the terminal is turned over from the back side to the front side; a mobile phone and the like can be quickly taken up at a specific angle; quick dropping of the mobile phone, etc.

The black screen action detection module 54 is mainly a function performed by the firmware of the screen. And (5) turning off the screen of the mobile phone and starting a black screen mode of the screen. Some motion gestures performed by the user on the screen can be perceived. For example, a user draws a horizontal line from top to bottom on the screen, the screen can recognize the user's action according to a processing algorithm built in the screen, and the user's action is converted into an instruction which can be recognized by a terminal (application processor) and reported to the terminal action comprehensive processing module. When the screen is blank, the actions that can be defined on the screen are many, such as: double-clicking the screen; scratching the screen from top to bottom or from bottom to top; swiping from left to right or right to left; a single finger or double fingers often press a screen, and the like; specific letter, number or character movements, etc.

The terminal action comprehensive processing module 56 is mainly used for processing a mixed event of the intelligent motion sensing action detection module and the black screen action detection module, and finally completing triggering of relevant mobile phone motion sensing actions according to different pre-designed application scenes. Such as: the terminal action comprehensive processing module receives the mobile phone photographing event reported by the intelligent motion sensing action detection module, the black screen action detection module detects that a user presses the screen with a single finger length (the action convenient for the user to operate is as simple as possible), and the two conditions are combined to meet the requirement of triggering the mobile phone photographing event; when the screen detects that the user slides the screen, the terminal is placed from a high position to a low position, and a shutdown event of the user is started.

The false triggering operation is mainly used for making up for false alarm of an intelligent motion sensing detection algorithm or cannot accurately judge a scene of a user intention even if motion recognition is very correct due to the fact that the motion sensing detection algorithm is only based on the intelligent motion sensing algorithm. The recognition algorithm combined with the black screen gesture is not limited to the application scene of the black screen, and is also suitable for the terminal even if a sensor hub chip is not adopted. For example, the terminal does not adopt the sensor hub, and the terminal can still collect data of each sensor in real time under the condition that the mobile phone is awakened and is not dormant, and the data are sent to the terminal processor for identification and are converted into corresponding actions. If the screen is bright, some screen combined actions can be still performed for protection and processing of false triggering.

Fig. 7 is a flowchart of a process of a smart sensory operation combining a black screen action according to an embodiment of the present invention, and as shown in fig. 7, the process includes the following steps:

step S702, the terminal starts a somatosensory function;

step S704, Senhub starts sensor data monitoring and monitors data reported by each sensor;

step S706, the screen starts a black screen monitoring mode to monitor various operations which may be triggered on the screen;

step S708, the user conducts somatosensory operation on the terminal, and the user conducts somatosensory operation by using the terminal or triggers somatosensory operation due to false triggering;

step S710, a user performs touch control prevention operation on a screen, and the user performs a black screen action on the terminal, or triggers the black screen action due to false triggering;

step S712, judging whether the Sensor hub correctly identifies the somatosensory motion, correctly identifying the somatosensory motion triggered by the terminal by the Sensor hub, executing step S714, and if the somatosensory motion is not correctly identified, not reporting to the user to continue executing step S708;

step S714, the screen system correctly identifies the touch control action of the user screen, the action triggered by the blank screen is correctly identified by the screen system, and the instruction that the terminal can identify is converted. Whether the black screen action is correctly identified or not, the next step is carried out, the black screen action is only assisted for the body sensing operation of the sensor hub, and if some body sensing operations have a very definite application scene, such as shaking a mobile phone and shaking left and right, the false triggering is basically very little, and the black screen is not needed to prevent the false triggering;

step S716, retrieving an action library file predefined by the terminal, and matching the recognized somatosensory instruction with the black screen action by using a rule library set by the terminal;

step S718, judging whether the motion sensing action and the black screen action accord with a predefined application triggering rule, if the motion sensing work of the black screen action and the body sensing work meet the rule defined by the action library, executing step S720, otherwise, executing step S708 to continue monitoring the terminal action;

step S720, triggering the application or service which should be triggered in the terminal system rule base.

In a scene needing black screen touch action and SENEOR hub action recognition, the terminal is horizontally placed, and a user picks up the terminal and horizontally and vertically takes a photographing gesture. After the motion of the terminal is identified by the intelligent motion sensing detection module Sensor hub, the motion of opening a rear camera by a terminal user is reported to the terminal motion comprehensive processing module. When the terminal is picked up and placed in the horizontal position, the user presses the screen with a single finger (the action can be customized, and is only illustrated and not limited to the action), and the time can be defined by the user, such as 5 seconds. And triggering a single-finger-length key event and reporting to a terminal action comprehensive processing module. And the terminal action comprehensive processing module triggers an instruction for opening the photographing function to the system according to the set rule of post-positioned photographing function, namely, long-time pressing of the screen event + SENSORHUB somatosensory photographing event, and lights the screen and starts the photographing function after the system receives the function for starting photographing.

Under the scene of bright screen touch and sensor hub action recognition, the motion sensing module SENEOMARhub detects that the terminal shakes twice from left to right (actions are not limited to the above and only the problem is illustrated), and detects that the screen is pressed for a long time. And reporting a terminal action comprehensive processing module, wherein a user performs shaking operation and long-time screen pressing operation, the terminal action comprehensive processing module starts a flashlight function (for example, but not limited to) according to a set rule base by shaking left and right and long-time screen pressing, a trigger system sends an action of opening the flashlight function, and the system starts the flashlight function.

Without the SENSOR hub chip, not under the scene of black screen mode, the motion detection module is felt to the intelligence does not have the SENSOR hub chip this moment, by terminal SENSOR during operation, gathers each SENSOR's data, and the terminal oneself accomplishes the discernment of action, for example the cell-phone alarm clock sounds, detects the user and turns over the back with the cell-phone from openly this moment to the long key screen of finger, the automatic alarm clock that closes.

It will be apparent to those skilled in the art that the modules or steps of the present invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. An application startup method, comprising:

starting a somatosensory function and a screen monitoring mode;

after a somatosensory operation instruction is detected by a sensor, whether a touch control prevention operation instruction of a user on a screen exists is detected;

if the fact that a touch control preventing operation instruction of a user on a screen exists is detected, the touch control preventing operation instruction and the touch control preventing operation instruction are respectively matched with a preset sensor operation instruction and a preset screen operation instruction used for starting an application;

and under the condition that matching results of the somatosensory operation instruction and the touch prevention operation instruction which are respectively matched with a preset sensor operation instruction and a preset screen operation instruction for starting the application are consistent, starting the application.

2. The method of claim 1, wherein the touch operation prevention instruction is a black screen operation instruction, and matching the touch operation prevention instruction with a preset screen operation instruction comprises one of:

when the black screen operation instruction is a long-time pressing operation, judging whether the long-time pressing operation duration meets a preset duration; if the judgment result is yes, determining that the black screen operation instruction is consistent with the preset screen operation instruction;

when the black screen operation instruction is a touch track, judging whether the detected touch track is consistent with a preset track, and if so, determining that the black screen operation instruction is consistent with the preset screen operation instruction;

and when the black screen operation instruction is a double-click operation, judging whether the preset screen operation instruction is the double-click operation on the black screen, and under the condition that the judgment result is yes, determining that the black screen operation instruction is consistent with the preset screen operation instruction.

3. The method of claim 2,

the somatosensory operation instruction comprises one of the following steps: the method comprises the following steps that the UE shakes left and right, the UE turns from the front to the back, the UE turns from the back to the front, the UE falls at a preset height, and the UE moves at a preset speed at a preset angle;

the black screen operation instruction comprises one of the following: double clicking the screen, drawing the screen from a first preset position to a second preset position along a preset track, and pressing the screen with a single finger or double fingers.

4. An application startup device, characterized by comprising:

the detection module is used for detecting whether a touch control operation instruction of a user on a screen exists or not after the motion sensing function and the screen monitoring mode are started and the motion sensing operation instruction is detected by the sensor;

the judging module is used for respectively matching the somatosensory operation instruction and the touch-prevention operation instruction with a preset sensor operation instruction and a preset screen operation instruction for starting an application if the touch-prevention operation instruction of the user on the screen is detected;

and the starting module is used for starting the application under the condition that matching results of the somatosensory operation instruction and the touch prevention operation instruction are respectively consistent with matching results of a preset sensor operation instruction and a preset screen operation instruction which are used for starting the application.

5. The apparatus according to claim 4, wherein the touch-prevention operation instruction is a black screen operation instruction, and the determining module comprises one of:

the first judging subunit is used for judging whether the long-time pressing operation duration meets a preset duration or not when the black screen operation instruction is long-time pressing operation; if the judgment result is yes, determining that the black screen operation instruction is consistent with the preset screen operation instruction;

the second judging subunit is configured to, when the black screen operation instruction is a touch trajectory, judge whether the detected touch trajectory is consistent with a predetermined trajectory, and determine that the black screen operation instruction is consistent with the preset screen operation instruction if the judgment result is yes;

and the third judging subunit is configured to, when the black screen operation instruction is a double-click operation, judge whether the preset screen operation instruction is a double-click operation on the black screen, and determine that the black screen operation instruction is consistent with the preset screen operation instruction if the judgment result is yes.

6. The apparatus of claim 5,

the somatosensory operation instruction comprises one of the following steps: the method comprises the following steps that the UE shakes left and right, the UE turns from the front to the back, the UE turns from the back to the front, the UE falls at a preset height, and the UE moves at a preset speed at a preset angle;

the black screen operation instruction comprises one of the following: double clicking the screen, drawing the screen from a first preset position to a second preset position along a preset track, and pressing the screen with a single finger or double fingers.

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