CN106648576B - Method for realizing quick application starting and mobile terminal - Google Patents

Abstract

The invention discloses a method for realizing quick start of application and a mobile terminal, wherein the method detects whether an instruction is input or not in the screen-off state of the mobile terminal, judges whether the input instruction is matched with a preset quick application start instruction or not, and starts the application corresponding to the quick application start instruction when the instruction is matched, and the steps of screen lightening, unlocking, searching and the like are not needed in the whole operation process, so that the time for starting the application is greatly shortened, and the application is quickly started in the screen-off state of the mobile terminal.

Description

Method for realizing quick application starting and mobile terminal

Technical Field

The present invention relates to the field of electronics, and in particular, to a method and a mobile terminal for implementing quick application startup.

Background

With the rapid development of mobile communication technology and computer programming technology, mobile devices such as smart phones, tablet computers, smart watches and the like are greatly improved in hardware performance and software experience. Abundant application on the mobile equipment brings great convenience to daily life of people.

At present, when a user needs to start an application in a screen-off state of a mobile terminal, the user usually needs to first light up a screen, then enter a screen-locking interface for unlocking, find a corresponding application from a plurality of applications after the unlocking is successful, and finally click to start the application. The whole process of starting the application comprises a plurality of steps of screen lightening, unlocking, searching, clicking and the like, the operation is complex, the efficiency is low, and the user experience is reduced.

Disclosure of Invention

The invention mainly solves the technical problem of providing a method for realizing quick application starting and a mobile terminal, and can solve the problem of complicated application starting process in a screen-off state.

In order to solve the technical problems, the invention adopts a technical scheme that: a method for realizing quick start application is provided, which comprises the following steps: detecting whether an instruction is input or not in a screen extinguishing state of the mobile terminal; if the instruction input is detected, judging whether the input instruction is matched with a preset shortcut application starting instruction or not; and if the input instruction is matched with a preset shortcut application starting instruction, starting an application corresponding to the shortcut application starting instruction.

After the screen is turned off, a fingerprint sensor in the mobile terminal is in an on state; if the instruction input is detected, judging whether the input instruction is matched with a preset shortcut application starting instruction or not comprises the following steps: judging whether fingerprint information input from the fingerprint sensor is detected; if the fingerprint information input from the fingerprint sensor is detected, judging whether the fingerprint information is matched with preset user fingerprint information; and if the fingerprint information is matched with the preset user fingerprint information, determining that the input instruction is matched with a preset shortcut application starting instruction.

Wherein, after judging that the fingerprint information is matched with the preset user fingerprint information, the method comprises the following steps: judging whether the input duration of the fingerprint information is longer than the fingerprint unlocking time or not; if the input duration of the fingerprint information is longer than the fingerprint unlocking time, determining that the fingerprint information is matched with a preset shortcut application starting instruction; otherwise, the application corresponding to the shortcut application starting instruction is not started.

After the screen is turned off, a distance sensor in the mobile terminal is in an on state; if the instruction input is detected, judging whether the input instruction is matched with a preset shortcut application starting instruction or not comprises the following steps: judging whether the distance change information input from the distance sensor is detected; if the distance change information input from the distance sensor is detected, judging whether the distance change information is matched with preset distance change information or not; if the distance change information is matched with the preset distance change information, continuously returning to the step of judging whether the distance change information input from the distance sensor is detected; and if the next distance change information is judged to be matched with the preset distance change information and the detection time interval between the two pieces of monitored distance change information meets the preset time interval, determining that the input instruction is matched with a preset shortcut application starting instruction.

The preset distance change information is an acceleration threshold value of the knocking action; the judging whether the distance change information is matched with preset distance change information includes: calculating the acceleration of the action according to the distance change information; judging whether the acceleration of the motion exceeds an acceleration threshold of the knocking motion; if the acceleration of the action does not exceed the acceleration threshold of the knocking action, determining that the distance change information is matched with preset distance change information;

wherein, if it is determined that the next distance change information matches the preset distance change information and the two monitored detection time intervals between the distance change information satisfy the preset time intervals, determining that the input instruction matches the preset shortcut application start instruction comprises: and if the next distance change information is matched with the preset distance change information, the detection time interval between the two monitored distance change information meets the preset time interval, and the knocking positions corresponding to the two monitored distance change information respectively belong to a preset area, determining that the input instruction is matched with a preset shortcut application starting instruction.

In order to solve the technical problem, the invention adopts another technical scheme that: there is provided a mobile terminal including: the detection module is used for detecting whether an instruction is input or not in the screen extinguishing state of the mobile terminal; the matching module is used for judging whether the input instruction is matched with a preset shortcut application starting instruction or not when the instruction input is detected; and the starting module is used for starting the application corresponding to the shortcut application starting instruction when the input instruction is matched with a preset shortcut application starting instruction.

After the screen is turned off, a fingerprint sensor in the mobile terminal is in an on state; the matching module includes: a judging unit for judging whether input of fingerprint information from the fingerprint sensor is detected; and the matching unit is used for judging whether the fingerprint information is matched with preset user fingerprint information or not when the fingerprint information from the fingerprint sensor is detected to be input, and determining that the input instruction is matched with a preset shortcut application starting instruction when the fingerprint information is matched with the preset user fingerprint information.

Wherein the matching module further comprises: the comparison unit is used for judging whether the input duration time of the fingerprint information is longer than the fingerprint unlocking time or not after the fingerprint information is matched with the preset user fingerprint information; the matching unit is further used for determining that the fingerprint information is matched with a preset shortcut application starting instruction when the input duration of the fingerprint information is longer than the fingerprint unlocking time; otherwise, the application corresponding to the shortcut application starting instruction is not started.

After the screen is turned off, a distance sensor in the mobile terminal is in an on state; the matching module includes: a judging unit for judging whether a distance change information input from the distance sensor is detected; the matching unit is used for judging whether the distance change information is matched with preset distance change information or not when the distance change information from the distance sensor is input, continuously judging whether the next distance change information is matched with the preset distance change information or not when the distance change information is matched with the preset distance change information, and determining that the input instruction is matched with a preset quick application starting instruction when the next distance change information is matched with the preset distance change information and the two detected detection time intervals between the distance change information meet the preset time intervals.

The preset distance change information is an acceleration threshold value of the knocking action; the matching unit further includes: the acceleration subunit is used for calculating the acceleration of the action according to the distance change information; the comparison subunit is used for judging whether the acceleration of the action exceeds the acceleration threshold of the knocking action; the matching subunit is used for determining that the distance change information is matched with preset distance change information when the acceleration of the action does not exceed the acceleration threshold of the knocking action;

the matching unit is further used for determining that the input instruction is matched with a preset shortcut application starting instruction when the next distance change information is judged to be matched with the preset distance change information, the detection time interval between the two monitored distance change information meets the preset time interval, and the two monitored knocking positions respectively corresponding to the distance change information belong to a preset area.

The invention has the beneficial effects that: different from the situation of the prior art, the method and the device provided by the invention have the advantages that whether an instruction is input or not is detected in the screen-off state of the mobile terminal, whether the input instruction is matched with the preset quick application starting instruction or not is judged, the application corresponding to the quick application starting instruction is started in the matching process, the steps of screen lightening, unlocking, searching and the like are not needed in the whole operation process, the corresponding application can be quickly started only by matching the input instruction with the preset quick application starting instruction, the application starting time is greatly shortened, and the application can be quickly started in the screen-off state of the mobile terminal.

Drawings

FIG. 1 is a flow chart of a first embodiment of a method for implementing a quick launch application of the present invention;

FIG. 2 is a flow chart of a second embodiment of a method for implementing a quick launch application of the present invention;

FIG. 3 is a flow chart of a third embodiment of a method for implementing a quick launch application of the present invention;

FIG. 4 is a flow chart of a fourth embodiment of a method for implementing a quick launch application of the present invention;

FIG. 5 is a flow chart of a fifth embodiment of the method for implementing quick launch of an application of the present invention;

fig. 6 is a schematic structural diagram of a mobile terminal according to a first embodiment of the present invention;

fig. 7 is a schematic structural diagram of a second embodiment of the mobile terminal of the present invention;

fig. 8 is a schematic structural diagram of a mobile terminal according to a third embodiment of the present invention;

fig. 9 is a schematic structural diagram of a fourth embodiment of the mobile terminal of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Generally, when the mobile terminal is in a screen-off state, most or even all sensors are turned off to save power consumption. However, after the mobile terminal is turned off, the designated Sensor or all sensors can be kept in the on state through a Sensor Hub chip in the mobile terminal. The Sensor Hub is an application of a Microcontroller (MCU), and has a main function of processing information from various sensors, and waking up a Central Processing Unit (CPU) from a sleep mode when necessary, so as to reduce system power consumption and enable a user to operate a mobile terminal in a state where the mobile terminal is turned off. Meanwhile, the power consumption of the SensorHub chip is only 1-2% of that of the CPU, the technology can ensure that sensor components such as a GPS (global positioning system), a pressure sensor and the like of the mobile terminal and specified hardware are kept in an on state in a low power consumption state, correct response is made when necessary, the problem that a user cannot operate quickly in a screen-off state of the mobile terminal is solved, and the cruising ability of the mobile terminal is ensured.

Referring to fig. 1, fig. 1 is a flowchart illustrating a method for implementing a quick start application according to a first embodiment of the present invention. As shown in fig. 1, the method for implementing quick start of an application of the present invention includes:

step S101: detecting whether an instruction is input or not in a screen extinguishing state of the mobile terminal;

the instruction is information received by each sensor in the mobile terminal in the screen-off state, for example, distance change information received by the distance sensor when the finger joint strikes the screen, fingerprint information received by the fingerprint sensor when the finger presses the fingerprint input position, and the like.

Wherein, step S101 includes:

step S100: after the screen is turned off, a sensor controller in the mobile terminal closes part of sensors, and the rest sensors are reduced from standard power to power-saving power; or reducing part of or all of the sensor power from the standard power to the power saving power and enabling the sensor to sense a predetermined action.

Specifically, the Sensor controller may be a Sensor Hub chip, and after the mobile terminal is turned off, some or all of the sensors may be kept in an on state by the Sensor Hub chip, and the power of the on Sensor may be reduced from the standard power to the power saving power. The standard power is the power of the sensor working when the mobile terminal is normally on, the power saving power is the power of the sensor working when the mobile terminal is off, the power saving power can be 2%, 5% or 10% of the standard power, and the like, and the power saving power can be determined according to different sensors, and is not limited specifically here. However, the power saving must be such that the sensor can sense a predetermined motion, wherein the predetermined motion may be a joint tapping on the screen, a finger pressing on a fingerprint input site, or a finger swiping across the screen.

Step S102: if the instruction input is detected, judging whether the input instruction is matched with a preset shortcut application starting instruction or not;

the preset shortcut application starting instruction can be preset fingerprint information input by pressing a finger at a fingerprint input position, and when the instruction input is detected, whether the input instruction is matched with the preset fingerprint information or not can be judged. Of course, the preset shortcut application start instruction may also be track information generated by a finger sliding across the screen, and the like, which is not specifically limited herein.

Step S103: and if the input instruction is matched with the preset shortcut application starting instruction, starting the application corresponding to the shortcut application starting instruction.

The application starting method includes the steps that one or more preset shortcut application starting instructions are set, each preset shortcut application starting instruction is associated with at least one application, and when an input instruction is matched with the preset shortcut application starting instruction, the application associated with the preset shortcut application starting instruction is started. For example, the preset shortcut application start instruction is index finger fingerprint information of a user and a 'V' -shaped track generated by a finger sliding across a screen, wherein the index finger fingerprint information is associated with starting a recording application, the 'V' -shaped track generated by the finger sliding across the screen is associated with starting an alarm clock application, and when the input instruction is matched with the preset index finger fingerprint information, the recording application is started instead of starting the alarm clock application; and when the input command is matched with the preset V-shaped track, starting the alarm clock application.

Before step S103, the method further includes:

step S1031: judging whether the acceleration of the mobile terminal exceeds a preset acceleration threshold value or not;

when the mobile terminal is in a screen-off state, the acceleration sensor can be started with power saving through the sensor controller, and at the moment, the acceleration sensor can sense the motion state of the mobile terminal and generate acceleration.

Step S1032: and if the acceleration of the mobile terminal exceeds a preset acceleration threshold, not starting the application corresponding to the shortcut application starting instruction.

When the mobile terminal is turned off, if certain sensors are kept in the on state, when a user places the mobile terminal in a pocket or a bag, the situation of mistaken touch is easy to occur, at the moment, whether the mobile terminal is in the moving state can be judged by judging whether the acceleration of the mobile terminal exceeds a preset acceleration threshold value, when the acceleration of the mobile terminal is greater than the preset acceleration threshold value, the mobile terminal can be considered to be in the moving state, and the user does not use the mobile terminal, so that the instruction can be ignored, the corresponding application is not started, and the application is prevented from being started due to the mistaken touch.

In the embodiment, the mobile terminal enables part or all of the sensors to be powered on when the mobile terminal is off the screen through the internal sensor controller, detects whether an instruction is input and judges whether the input instruction is matched with a preset shortcut application starting instruction, and starts the application corresponding to the shortcut application starting instruction when the input instruction is matched, the steps of screen lightening, unlocking, searching and the like are not needed in the whole operation process, the application starting time is greatly shortened, and the application is quickly started in the screen off state of the mobile terminal.

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for implementing a quick start application according to a second embodiment of the present invention. As shown in fig. 2, a second embodiment of the method for implementing quick start of an application according to the present invention is based on the first embodiment of the method for implementing quick start of an application according to the present invention, and further includes:

step S201: judging whether fingerprint information input from a fingerprint sensor is detected;

wherein, step S201 includes:

step S200: after the screen is extinguished, the fingerprint sensor in the mobile terminal is in an open state.

Specifically, after the mobile terminal is turned off, the power saving power of the fingerprint sensor can be turned on through the sensor controller inside the mobile terminal, and the fingerprint sensor can sense that the finger presses the fingerprint sensor and can generate fingerprint information.

Step S202: if the input of fingerprint information from a fingerprint sensor is detected, judging whether the input fingerprint information is matched with preset user fingerprint information;

the preset fingerprint information of the user can be complete fingerprint information of the user, or fingerprint information of a part of a finger of the user, or line information of a finger joint of the user.

In an application example, when it is detected that fingerprint information from a fingerprint sensor is input, the input fingerprint information is compared with preset user fingerprint information, and when the coincidence rate of the input fingerprint information and the preset user fingerprint information reaches a preset threshold value (e.g., 80%), it is determined that the input fingerprint information matches with the preset user fingerprint information, otherwise, it is determined that the input fingerprint information does not match with the preset user fingerprint information.

Step S203: and if the input fingerprint information is matched with the preset user fingerprint information, determining that the input instruction is matched with the preset shortcut application starting instruction.

The preset user fingerprint information may be one or multiple, each preset user fingerprint information is associated with and opens one application, different preset user fingerprint information is associated with and opens different applications, or multiple different preset user fingerprint information is associated with and opens the same application. For example, the preset user fingerprint information is fingerprint information of an index finger and a thumb of a certain user, the two preset user fingerprint information are related to start the recording application, and when the input fingerprint information is matched with one preset user fingerprint information, it is determined that the input instruction is matched with the preset shortcut application start instruction.

After the step S202 determines that the input fingerprint information matches the preset user fingerprint information, the method further includes:

step S2021: judging whether the input duration of the input fingerprint information is longer than the fingerprint unlocking time or not;

step S2022: if the input duration time of the input fingerprint information is longer than the fingerprint unlocking time, determining that the input fingerprint information is matched with a preset shortcut application starting instruction; otherwise, the application corresponding to the shortcut application starting instruction is not started.

Because the mobile terminal provided with the fingerprint sensor generally has a fingerprint unlocking function, in order to avoid the conflict between the fingerprint unlocking function and the function of quickly starting the application, a fingerprint unlocking time is preset in the mobile terminal. The fingerprint unlocking time is used for judging whether the input fingerprint information is used for unlocking the screen or quickly starting the application, when the input duration time of the input fingerprint information is not more than the preset fingerprint unlocking time, the input fingerprint information is used for unlocking the screen, and when a user releases his hand, the fingerprint unlocking is triggered to unlock the screen; otherwise, the input fingerprint information is used for quickly starting the application, and the target application is quickly started when the user releases his hand.

Step S201 of this embodiment is performed after step S101, and this embodiment may be combined with the first embodiment of the method for implementing a quick start application according to the present invention.

Referring to fig. 3, fig. 3 is a flowchart illustrating a method for implementing a quick start application according to a third embodiment of the present invention. As shown in fig. 3, a third embodiment of the method for implementing quick start of an application according to the present invention is based on the first embodiment of the method for implementing quick start of an application according to the present invention, and further includes:

step S301: judging whether the distance change information input from the distance sensor is detected;

before step S301, the method further includes:

step S300: after the screen is turned off, a distance sensor in the mobile terminal is in an on state;

specifically, after the mobile terminal is turned off, the power saving power of the distance sensor can be turned on through the sensor controller in the mobile terminal, and the distance sensor can sense the human body proximity sensor and can generate distance change information.

Step S302: if the distance change information from the distance sensor is detected to be input, judging whether the input distance change information is matched with preset distance change information or not;

in one application example, the preset distance change information is an acceleration threshold of the tapping motion, and is used for judging whether the input distance change information is generated by the tapping motion.

Specifically, step S302 further includes:

step S3021: calculating the acceleration of the action according to the input distance change information;

specifically, in the above application example, when the finger joint of the user taps the screen, the distance sensor may sense the distance change information according to the approach of the finger joint to the screen and the time at which the distance change information is generated, and the acceleration of the tapping motion may be calculated by a general calculation method of the acceleration.

Step S3022: judging whether the calculated acceleration of the motion exceeds an acceleration threshold of the knocking motion;

step S3023: if the calculated acceleration of the action does not exceed the acceleration threshold of the knocking action, determining that the input distance change information is matched with the preset distance change information;

specifically, when the calculated acceleration of the motion does not exceed the acceleration threshold of the tapping motion, indicating that the calculated acceleration of the motion is valid information, it may be determined that the input distance change information matches preset distance change information, and otherwise, it does not match.

Step S303: if the input distance change information is matched with the preset distance change information, continuously returning to the step of judging whether the distance change information input from the distance sensor is detected;

step S304: and if the next distance change information is matched with the preset distance change information, the detection time interval between the two pieces of monitored distance change information meets the preset time interval, and the knocking positions corresponding to the two pieces of monitored distance change information respectively belong to the preset area, determining that the input instruction is matched with the preset shortcut application starting instruction.

The preset area may be the entire screen of the mobile device or a part of the screen, and is not specifically limited herein.

In an application example, when a finger joint of a user taps a screen twice, distance change information generated by a distance sensor is matched with preset distance change information, and a detection time interval between the two pieces of monitored distance change information is not greater than a preset time interval, it is determined that an input instruction is matched with a preset shortcut application start instruction.

In this embodiment, it is determined whether the distance change information is matched with the preset distance change information twice, and it is determined that the input command is matched with the preset shortcut application start command, otherwise, the input command is not matched. Of course, in other embodiments, it may be determined whether the distance change information matches the preset distance change information only once, or three or more times.

Step S301 of this embodiment is executed after step S101, and this embodiment may be combined with the first embodiment of the method for implementing a quick start application according to the present invention.

Referring to fig. 4, fig. 4 is a flowchart illustrating a fourth embodiment of a method for implementing a quick start application according to the present invention. As shown in fig. 4, a fourth embodiment of the method for implementing quick start of an application according to the present invention may be based on the first embodiment of the method for implementing quick start of an application, and further includes:

step S401: judging whether touch information input from a touch screen sensor is detected;

before step S401, the method further includes:

step S400: after the screen is turned off, a touch screen sensor in the mobile terminal is in an open state;

specifically, after the mobile terminal is turned off, the touch screen sensor can be turned on by the sensor controller inside the mobile terminal in a power-saving manner, and at this time, the touch screen sensor can sense a touch action and can generate touch information (such as a touch position, time, a track, and the like).

Step S402: if the touch information input from the touch screen sensor is detected, judging whether the input touch information is matched with a preset touch track;

step S403: and if the input touch information is matched with the preset touch track, determining that the input instruction is matched with the preset shortcut application starting instruction.

The preset touch track can be one or a plurality of touch tracks; the shape of the track can be one of a V shape, an L shape or a three-finger stroke 〣, and different track shapes can be set to be associated to open different applications. For example, the preset touch trajectory is a "V" type trajectory and an "L" type trajectory, wherein the "V" type trajectory is associated with and starts an alarm clock application, and the "L" type trajectory is associated with and starts a calculator application, when it is detected that touch information is input from the touch screen sensor, it is determined whether the input touch information is the "V" trajectory or the "L" type trajectory, and if the input touch information is one of the "V" trajectory and the "L" trajectory, it is determined that the input instruction matches a preset shortcut alarm clock/computer application start instruction.

Step S401 of this embodiment is executed after step S101, and this embodiment may be combined with the first embodiment of the method for implementing a quick start application of the present invention.

Referring to fig. 5, fig. 5 is a flowchart illustrating a fifth embodiment of a method for implementing a quick start application according to the present invention. As shown in fig. 5, a fifth embodiment of the method for implementing quick start of an application according to the present invention may be that, on the basis of any one of the first, second, or third embodiments of the method for implementing quick start of an application according to the present invention, an application corresponding to a quick application enable instruction is a recording application, and further includes:

step S501: starting a recording application corresponding to the shortcut application starting instruction, starting recording and not lighting a screen of the mobile terminal;

when the recording application is successfully started, the user can be prompted to start recording in a mode of sound, vibration or an indicator lamp (flashing or lighting). Since the actual application scene of the screen-off recording may be more recorded without being known by others, the default prompting mode is a mode in which the indicator light is turned on or flickers, and other prompting modes may also be preset.

After step S501, the method includes:

step S5011: judging whether the voice-free content in the recording exceeds the preset recording time or not;

step S5012: and if no voice content in the recording exceeds the preset recording time, prompting whether to close the recording.

If no voice content exists for a long time (such as 2 minutes) during recording, false starting is probably caused or the content needing recording is finished, and at the moment, if the recording application is kept started all the time, no practical significance is achieved, and the power consumption of the mobile terminal is increased. In addition, the predetermined recording time may also be set according to the user requirement, and is not specifically limited herein.

Step S502: judging whether a preset recording condition displaying instruction is detected or not;

the predetermined recording condition displaying instruction may be one of fingerprint information from a fingerprint sensor, distance change information from a distance sensor, or touch information from a touch screen sensor, and may be set according to a user requirement, which is not specifically limited herein.

Step S503: and if a preset recording condition displaying instruction is detected, lightening a screen of the mobile terminal and displaying the recording condition.

The displayed recording condition may be information such as total recording duration, recording start time, recording end time, and recording name.

Step S504: judging whether a preset recording stopping instruction input is detected;

the predetermined recording stop instruction may also be one of fingerprint information from a fingerprint sensor, distance change information from a distance sensor, or touch information from a touch screen sensor, and is set according to a user requirement, which is not specifically limited herein.

Step S505: if a preset recording stopping instruction is detected, stopping recording and prompting that recording is stopped;

wherein, the execution of the operation can be prompted by sound, vibration or indicator light (flashing or turning off) and the recording is stopped.

Step S506: and (5) lighting the screen, and popping a frame to prompt to modify the recording name and storing the recording name.

Specifically, after the recording is finished, the screen is lightened and a box is popped to prompt the user to modify the recording name so that the user can search the recording file subsequently; the user may or may not modify the recording name, but leave the default recording name, after which the recording file will be saved in the mobile terminal. If the mobile terminal is a dual-system or multi-system mobile terminal, for example, the mobile terminal includes a privacy system and an intelligent system, the privacy system and the intelligent system are both allocated with corresponding storage spaces, and the content stored in the storage space of the privacy system is invisible in the intelligent system, then after the recording is completed, the recording file can be stored in the storage space corresponding to the privacy system.

Step S501 of the present embodiment is executed after step S103, S203, S304, or S403. This embodiment can be combined with any of the first, second, or third embodiments of the method for implementing a quick start application of the present invention.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a mobile terminal according to a first embodiment of the present invention. As shown in fig. 6, the mobile terminal 60 of the present invention includes: a detection module 601, a matching module 602 and an activation module 603.

The detection module 601 is configured to detect whether an instruction is input in a screen-off state of the mobile terminal;

the matching module 602 is configured to, when it is detected that an instruction is input, determine whether the input instruction matches a preset shortcut application start instruction;

the starting module 603 is configured to start an application corresponding to the shortcut application starting instruction when the input instruction matches a preset shortcut application starting instruction.

Specifically, the detection module 601 is connected to the matching module 602, the matching module 602 is connected to the starting module 603, and if the detection module 601 detects that an instruction is input (for example, fingerprint information is input from a fingerprint sensor) in the screen-off state of the mobile terminal, the detected instruction is transmitted to the matching module 602; the matching module 602 determines whether the input command matches a preset shortcut application start command, and if so, transmits a matching result to the start module 603; the starting module 603 receives the matching result, and starts the application corresponding to the shortcut application starting instruction.

In the above embodiment, the mobile terminal detects whether an instruction is input in the screen-off state through the detection module, and then judges whether the input instruction is matched with a preset shortcut application starting instruction through the matching module, and if the input instruction is matched with the preset shortcut application starting instruction, the corresponding application is started through the starting module, so that the tedious processes of unlocking, screen lightening and searching are not needed, the time for starting the application is saved, and the purpose of quickly starting the application is achieved.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a mobile terminal according to a second embodiment of the present invention. Fig. 7 is similar to fig. 6 in structure, and is not repeated here, except that the matching module 702 further includes a determining unit 7021, a matching unit 7022, and a comparing unit 7023.

The judging unit 7021 is configured to judge whether input of fingerprint information from a fingerprint sensor is detected;

the matching unit 7022 is configured to, when it is detected that fingerprint information from the fingerprint sensor is input, determine whether the input fingerprint information matches preset user fingerprint information, determine whether a duration of the input fingerprint information is longer than a fingerprint unlocking time when the input fingerprint information matches the preset user fingerprint information, and determine that the input instruction matches a preset shortcut application start instruction when the duration of the input fingerprint information is longer than the fingerprint unlocking time;

the comparing unit 7023 is configured to determine whether a duration of the fingerprint information input is longer than a fingerprint unlocking time after the fingerprint information is matched with preset user fingerprint information;

specifically, the determining unit 7021 is connected to the matching unit 7022, and the matching unit 7022 is connected to the comparing unit 7023; after receiving the input instruction, matching module 702 determines whether the input instruction is from a fingerprint sensor, and if so, transmits the fingerprint information to matching unit 7022; matching unit 7022 determines whether the input fingerprint information matches preset user fingerprint information, and if so, transmits a matching result to comparing unit 7023; comparing unit 7023 determines whether the duration of the fingerprint information input is longer than the fingerprint unlocking time, and transmits the determination result to matching unit 7022; matching unit 7022 receives the determination result, and if the determination result is greater than the predetermined threshold, determines that the input command matches the predetermined shortcut application start command, otherwise, determines that the input command does not match the predetermined shortcut application start command.

In the above embodiment, the matching module is configured to detect whether the input instruction is from the fingerprint sensor and determine whether the input fingerprint information matches the preset user fingerprint information, and in other embodiments, the matching module may also be configured to detect the distance variation information from the distance sensor and determine whether the input distance variation information matches the preset distance variation information.

Referring to fig. 8, fig. 8 is a schematic structural diagram of a mobile terminal according to a third embodiment of the present invention. Fig. 8 is similar to fig. 7 in structure, and is not repeated here, except that the matching module 802 includes a determining unit 8021 and a matching unit 8022, where the matching unit 8022 further includes an acceleration subunit 80221, a comparison subunit 80222, and a matching subunit 80223.

Specifically, the determination unit 8021 is configured to determine whether a distance change information input from the distance sensor is detected;

the matching unit 8022 is configured to, when it is detected that distance change information from the distance sensor is input, determine whether the distance change information matches preset distance change information, and when the distance change information matches the preset distance change information, continue to determine whether next distance change information matches the preset distance change information, and when the next distance change information matches the preset distance change information, a detection time interval between two monitored distance change information satisfies a preset time interval, and tap positions corresponding to the two monitored distance change information respectively belong to a preset region, determine that the input instruction matches a preset shortcut application start instruction.

The acceleration subunit 80221 is configured to calculate an acceleration of the motion according to the distance change information;

the comparison subunit 80222 is configured to determine whether the calculated acceleration of the motion exceeds an acceleration threshold of the tapping motion;

the matching subunit 80223 is configured to determine that the distance change information matches the preset distance change information when the calculated acceleration of the motion does not exceed the acceleration threshold of the tapping motion;

specifically, the judging unit 8021 is connected to the acceleration subunit 80221 in the matching unit 8022, and transmits the distance change information from the distance sensor to the acceleration subunit 80221 for calculation; the acceleration subunit 80221 is connected to the comparison subunit 80222, and transmits the calculated acceleration of the motion to the comparison subunit 80222 to compare with a preset acceleration threshold of the tapping motion; the comparing subunit 80222 is connected to the matching subunit 80223, and transmits the comparison result to the matching subunit 80223, and the matching subunit 80223 determines the matching result according to the comparison result, and determines that the distance change information matches the preset distance change information if the calculated acceleration of the motion does not exceed the acceleration threshold of the tapping motion, or otherwise does not match. In addition, the matching unit 8022 needs to determine that the input instruction matches the preset shortcut application start instruction only when the two consecutive distance change information are both matched with the preset distance change information, the detection time interval between the two consecutive distance change information satisfies the preset time interval, and the tapping positions corresponding to the two consecutive distance change information respectively belong to the preset area.

In the above embodiment, the matching module is configured to detect whether an input instruction is from a distance sensor and determine whether the input distance change information matches with preset distance change information, and in other embodiments, the matching module may also be configured to detect touch information from another sensor, for example, a touch screen sensor, and determine whether the input touch information matches with preset touch trajectory information, and a specific structure is similar to that in fig. 6, and is not described herein again.

Referring to fig. 9, fig. 9 is a schematic structural diagram of a mobile terminal according to a fourth embodiment of the present invention. As shown in fig. 9, the mobile terminal 90 of the present invention includes: the system comprises a processor 901, a memory 902, a sensor controller 903, a fingerprint sensor 904, a distance sensor 905 and a touch screen sensor 906, wherein all the components are connected through a bus.

The Sensor controller 903 may be an integrated circuit chip, such as a Sensor Hub chip, for turning on some or all of the sensors with power saving in the screen-off state of the mobile terminal.

The processor 901 may also be referred to as a Central Processing Unit (CPU), and is configured to control an operation of the mobile terminal, and specifically, when detecting that an instruction is input from the fingerprint sensor 904, the distance sensor 905, or the touch screen sensor 906, determine whether the input instruction matches a preset shortcut application start instruction, and if so, start a corresponding application.

The processor 901 may be an integrated circuit chip having signal processing capability. The processor 901 may also be a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The memory 902 is configured to store instructions and data necessary for the processor 901 to operate, specifically, a preset shortcut application start instruction and associated data between the preset shortcut application start instruction and a corresponding application.

The fingerprint sensor 904 is used for sensing the pressing action of the finger or the finger joint and generating fingerprint information; the distance sensor 905 is used for sensing that a human body approaches the distance sensor and generating distance change information; the touch screen sensor 906 is used for sensing a touch action and generating touch information (e.g., a touch trajectory, etc.).

In the above embodiment, the mobile terminal turns on some or all of the sensors, for example, turns on one or all of the fingerprint sensor, the distance sensor and the touch screen sensor, by using the sensor controller to save power in the screen-off state, and wakes up the processor from the sleep state when detecting that an instruction is input from the turned-on sensor; when detecting that an instruction is input, the processor judges whether the input instruction is matched with a preset shortcut application starting instruction (stored in the memory), and if the input instruction is matched with the preset shortcut application starting instruction, the processor starts a corresponding application (the corresponding relation is stored in the memory).

In addition, in the above embodiments, the mobile terminal includes a fingerprint sensor, a distance sensor, and a touch screen sensor, but in other embodiments, the mobile terminal may include other sensors such as a pressure sensor.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (4)

1. A method for realizing quick start application is characterized by comprising the following steps:

detecting whether an instruction is input or not in a screen extinguishing state of the mobile terminal;

if the instruction input is detected, judging whether the input instruction is matched with a preset shortcut application starting instruction or not;

if the input instruction is matched with a preset shortcut application starting instruction, starting an application corresponding to the shortcut application starting instruction;

after the screen is turned off, a distance sensor in the mobile terminal is in an on state;

if the instruction input is detected, judging whether the input instruction is matched with a preset shortcut application starting instruction or not comprises the following steps:

judging whether the distance change information input from the distance sensor is detected;

if the distance change information input from the distance sensor is detected, judging whether the distance change information is matched with preset distance change information or not;

if the distance change information is matched with the preset distance change information, continuously returning to the step of judging whether the distance change information input from the distance sensor is detected;

if the next distance change information is judged to be matched with the preset distance change information and the detection time interval between the two pieces of monitored distance change information meets the preset time interval, determining that the input instruction is matched with a preset shortcut application starting instruction;

the preset distance change information is an acceleration threshold value of the knocking action;

the judging whether the distance change information is matched with preset distance change information includes:

calculating the acceleration of the action according to the distance change information;

judging whether the acceleration of the motion exceeds an acceleration threshold of the knocking motion;

if the acceleration of the action does not exceed the acceleration threshold of the knocking action, determining that the distance change information is matched with preset distance change information;

after the mobile terminal is turned off, keeping part of or all sensors in an on state, and reducing the power of the on sensors from a standard power to a power saving power, wherein the power saving power is smaller than the standard power.

2. The method of claim 1,

if it is determined that the next distance change information matches the preset distance change information and the two monitored detection time intervals between the distance change information satisfy the preset time intervals, determining that the input instruction matches the preset shortcut application start instruction comprises:

and if the next distance change information is matched with the preset distance change information, the detection time interval between the two monitored distance change information meets the preset time interval, and the knocking positions corresponding to the two monitored distance change information respectively belong to a preset area, determining that the input instruction is matched with a preset shortcut application starting instruction.

3. A mobile terminal, comprising:

the detection module is used for detecting whether an instruction is input or not in the screen extinguishing state of the mobile terminal;

the matching module is used for judging whether the input instruction is matched with a preset shortcut application starting instruction or not when the instruction input is detected;

the starting module is used for starting the application corresponding to the shortcut application starting instruction when the input instruction is matched with a preset shortcut application starting instruction;

the matching module includes:

the judging unit is used for judging whether distance change information input from a distance sensor is detected or not, wherein the distance sensor in the mobile terminal is in an on state after the screen is turned off;

the matching unit is used for judging whether the distance change information is matched with preset distance change information or not when the distance change information from the distance sensor is input, continuously judging whether the next distance change information is matched with the preset distance change information or not when the distance change information is matched with the preset distance change information, and determining that the input instruction is matched with a preset quick application starting instruction when the next distance change information is matched with the preset distance change information and the detection time interval between the two monitored distance change information meets a preset time interval;

the preset distance change information is an acceleration threshold value of the knocking action;

the matching unit further includes:

the acceleration subunit is used for calculating the acceleration of the action according to the distance change information;

the comparison subunit is used for judging whether the acceleration of the action exceeds the acceleration threshold of the knocking action;

the matching subunit is used for determining that the distance change information is matched with preset distance change information when the acceleration of the action does not exceed the acceleration threshold of the knocking action;

after the mobile terminal is turned off, keeping part of or all sensors in an on state, and reducing the power of the on sensors from a standard power to a power saving power, wherein the power saving power is smaller than the standard power.

4. The mobile terminal of claim 3,

the matching unit is further used for determining that the input instruction is matched with a preset shortcut application starting instruction when the next distance change information is judged to be matched with the preset distance change information, the detection time interval between the two monitored distance change information meets the preset time interval, and the two monitored knocking positions respectively corresponding to the distance change information belong to a preset area.

Images