CN107528979B

CN107528979B - Control device and method of mobile equipment

Info

Publication number: CN107528979B
Application number: CN201710784577.XA
Authority: CN
Inventors: 缪定凡
Original assignee: Baidu International Technology Shenzhen Co ltd
Current assignee: Baidu International Technology Shenzhen Co ltd
Priority date: 2013-03-11
Filing date: 2013-03-11
Publication date: 2020-08-11
Anticipated expiration: 2033-03-11
Also published as: CN104052857A; CN107528979A

Abstract

Provided are a control apparatus and method of a mobile device, the apparatus including: a detection unit configured to detect an operation state of the mobile device; a wake-up unit configured to control a sensor of the mobile device to measure a motion of the mobile device at predetermined time intervals when the detection unit detects that the mobile device enters a predetermined operation state, and determine whether to wake up a screen of the mobile device based on a result of the measured motion.

Description

Control device and method of mobile equipment

Technical Field

The present invention relates to a control apparatus and method of a mobile device, and more particularly, to an apparatus and method of controlling a mobile device in a specific operation state of the mobile device.

Background

Generally, a user may hold a mobile phone aside while busy or charging the mobile phone, and cannot view new incoming calls, short messages, mails, etc. in time. In this case, if the mobile phone does not receive the user's operation for a long time, it enters a sleep state to reduce power consumption. If after a period of time the user wishes to see if a new message has been received during that period of time, the user must first press the power key or otherwise wake up the handset after picking up it, and then enter the corresponding application interface to view the specific message content. In addition, users sometimes set a lock screen, which makes it necessary to unlock the phone after waking up the phone before viewing the message content when the user picks up the phone to view a new message. Therefore, after the user picks up the mobile phone in the dormant state, a plurality of operations are required to view a new message that cannot be viewed in time during the dormant state of the mobile phone, which causes inconvenience to the user.

In addition, with the rapid development of smart phones, users usually install a plurality of mobile phone applications on the mobile phones, and the mobile phone applications may also push various notifications (e.g., private messages pushed by microblogs, advertisements, notifications or reminders pushed by some applications, etc.) at any time, so that when a user does not check the mobile phone for a period of time, the user may receive various messages or notifications other than the conventional short message and the missed call. It takes a long time if the user sequentially enters the corresponding application to view the messages or notifications. Furthermore, given the likely difference in the importance and urgency of these messages or notifications, the above-described manner of viewing may prevent the user from replying to the most urgent or important messages in a timely manner. There is therefore a need for a method that enables a user to conveniently and quickly view messages received during hibernation of a mobile device when the user picks up the mobile device.

Disclosure of Invention

The present invention has been made to solve at least the above problems and/or disadvantages and to provide at least the advantages described below, and the technical problems that the present invention can solve are not limited to the technical problems described in the specification.

According to an aspect of the present invention, there is provided a control apparatus of a mobile device, the apparatus including: a detection unit configured to detect an operation state of the mobile device; a wake-up unit configured to control a sensor of the mobile device to measure a motion of the mobile device at predetermined time intervals when the detection unit detects that the mobile device enters a predetermined operation state, and determine whether to wake up a screen of the mobile device based on a result of the measured motion.

The predetermined operating states may be a quiescent state and a sleep state.

The sensor may be an acceleration sensor for measuring acceleration values of the movement of the mobile device. The wake-up unit may wake up a screen of the mobile device when an acceleration value measured by the acceleration sensor is in a predetermined acceleration range.

The apparatus may also include a timer that may be configured to time a time at which the acceleration of the mobile device motion is within the preset acceleration range. When the time counted by the timer exceeds a preset time threshold, the awakening unit can awaken the screen of the mobile equipment.

Before the time counted by the timer reaches a preset time threshold, if the acceleration value measured by the acceleration sensor is lower than or higher than the preset acceleration range, the counting of the timer can be cleared.

The preset time threshold may be set by counting user habits of using the mobile device.

The preset acceleration range may be set by counting habits of a user using the mobile device.

The sensor may be a gyroscope for measuring angular velocity values of the mobile device motion,

the wake-up unit may wake up a screen of the mobile device when the angular velocity value measured by the gyroscope is in a predetermined angular velocity range.

When the wake-up unit wakes up the screen of the mobile device, the wake-up unit may further display a message notification interface on the screen of the mobile device if the mobile device receives a message in the predetermined operating state, wherein the message notification interface displays a message that the mobile device receives in the predetermined operating state and that is not viewed by the user.

When it is detected through the input unit of the mobile device that a specific message displayed on the message notification interface is selected by the user, the interface displayed on the screen may be converted into a processing interface of an application that processes the specific message through the processor of the mobile device, or one or more application options for processing the specific message may be displayed on the screen.

The message may include at least one of incoming messages, short messages, instant chat conversations, notifications pushed by an application in the mobile device.

According to another aspect of the present invention, there is provided a control method of a mobile device, the method including: detecting an operational state of the mobile device; when it is detected that the mobile device enters a predetermined operation state, controlling a sensor of the mobile device to measure a motion of the mobile device at predetermined time intervals, and determining whether to wake up a screen of the mobile device based on a result of the measured motion.

The predetermined operating states may be a quiescent state and a sleep state.

The sensor may be an acceleration sensor for measuring acceleration values of the movement of the mobile device. The screen of the mobile device may be woken up when the acceleration value measured by the acceleration sensor is within a predetermined acceleration range.

The step of waking up the screen of the mobile device may further include: and timing the time when the acceleration of the motion of the mobile equipment is in the preset acceleration range, wherein when the timed time exceeds a preset time threshold value, the screen of the mobile equipment is awakened.

Before the timed time reaches a preset time threshold, if the acceleration value measured by the acceleration sensor is lower than or higher than the preset acceleration range, the timing can be cleared.

The sensor may be a gyroscope for measuring an angular velocity value of the movement of the mobile device, wherein the screen of the mobile device is woken up when the angular velocity value measured by the gyroscope is in a predetermined angular velocity range.

When waking up the screen of the mobile device, a message notification interface may also be displayed on the screen of the mobile device if the mobile device receives a message in the predetermined operational state, wherein the message notification interface displays a message that the mobile device received in the predetermined operational state that was not viewed by the user.

When it is detected that a user selects a specific message displayed on the message notification interface, the interface displayed on the screen may be converted into a processing interface of an application that processes the specific message, or one or more application options for processing the specific message may be displayed on the screen.

Advantageous effects

By using the scheme of the invention, after the mobile equipment enters the sleep state, the screen of the mobile equipment can be automatically awakened in the process of picking up the mobile equipment by the user and the user is informed of the messages received in the sleep period, so that the user can conveniently and quickly check the messages or notifications which cannot be checked in time in the sleep period of the mobile equipment and perform subsequent processing.

Drawings

The above and other objects and features of the present invention will become more apparent from the following detailed description of exemplary embodiments thereof, taken in conjunction with the accompanying drawings, in which:

fig. 1 is a block diagram illustrating a control apparatus of a mobile device according to an exemplary embodiment of the present invention;

FIG. 2 is an example illustrating a message notification interface in accordance with an illustrative embodiment of the present invention;

fig. 3 is a flowchart illustrating a control method of a mobile device according to an exemplary embodiment of the present invention.

Detailed Description

The following description with reference to the accompanying drawings is provided to assist in a comprehensive understanding of exemplary embodiments of the invention as defined by the claims and their equivalents. The description includes various specific details to aid understanding, but these details are to be regarded as illustrative only. Thus, one of ordinary skill in the art will recognize that: various changes and modifications may be made to the embodiments described herein without departing from the scope and spirit of the present invention. Moreover, descriptions of well-known functions and constructions may be omitted for clarity and conciseness.

Fig. 1 is a block diagram illustrating a control apparatus 100 of a mobile device according to an exemplary embodiment of the present invention.

As shown in fig. 1, the apparatus 100 comprises a detection unit 101 and a wake-up unit 102.

According to an exemplary embodiment of the present invention, the detection unit 101 may detect an operational state of the mobile device. The wake-up unit 102 may control a sensor of the mobile device to measure a motion of the mobile device at predetermined time intervals when the detection unit 101 detects that the mobile device enters a predetermined operation state, and determine whether to wake up a screen of the mobile device based on a result of the measured motion. In the present invention, the predetermined operating state may be, for example, a stationary state and a sleep state. The mobile device may be a portable mobile apparatus such as a mobile phone, a tablet computer, etc.

The operation of the control device 100 according to an exemplary embodiment of the present invention will be explained in detail with reference to examples below. For convenience of explanation, an acceleration sensor for measuring the magnitude of acceleration of the movement of the mobile device will be explained as an example of the sensor in the following examples.

For example, when a user does not use a mobile phone, the mobile phone is mostly in a relatively stationary state and is also in a dormant state. In this case, the detection unit 101 may detect whether the mobile device is in a sleep state through a broadcast signal transmitted by a processor of the mobile device, and may detect whether the mobile device is in a stationary state through various sensors (e.g., a gravity sensor, an acceleration sensor, a gyroscope, etc.) in the mobile device.

When the detection unit 101 detects that the mobile device is in a stationary state and in a sleep state, the wake-up unit 102 may control an acceleration sensor of the mobile device to measure an acceleration magnitude of a motion of the mobile device at predetermined time intervals (e.g., periodically). For example only, the wake-up unit 102 may wake up a screen of the mobile device when an acceleration value measured by an acceleration sensor is in a predetermined acceleration range.

Alternatively, in the embodiment of the present invention, in order to prevent the wake-up unit 102 from frequently waking up the screen of the mobile device due to, for example, sudden micro-movement or dropping, the control apparatus 100 may further include a timer (not shown) to time the time when the acceleration of the motion of the mobile device is in the preset acceleration range, considering that the acceleration of the mobile device is usually within a specific range and lasts for a while during the process of the user picking up the mobile device. In this case, the wake-up unit 102 wakes up the screen of the mobile device when the time counted by the timer exceeds a preset time threshold. In the present invention, the preset acceleration range may be preset by a user or a designer. Furthermore, according to another exemplary embodiment, the preset acceleration range may be set by counting habits of the user of the mobile device in using the mobile device (for example, acceleration magnitude of the mobile device moving when the user picks up the mobile device from, for example, a desktop in a general case), or by counting the habits of a large number of users of the mobile device in using the mobile device in advance.

In addition, in the process of timing by the timer, if the acceleration value measured by the acceleration sensor at a certain time is outside the preset acceleration range (i.e. the acceleration value is lower than the lowest value of the preset acceleration range or higher than the highest value of the preset acceleration range), and the time timed by the timer has not reached the preset time threshold, it indicates that the movement of the mobile device at this time may not be caused by the action of the user picking up the mobile device, so the timing of the timer may be cleared. That is, before the time counted by the timer reaches the preset time threshold, if the acceleration value measured by the acceleration sensor is lower than or higher than the preset acceleration range, the counting of the timer is cleared. In the present invention, the preset time threshold may be preset by a designer or a user, or may be set by counting a user's habit of using the mobile device (e.g., a time taken for the user to pick up the mobile device).

Preferably, in the above example, when the wake-up unit 102 wakes up the screen of the mobile device, if the mobile device receives messages in the still and sleep states, the wake-up unit 102 may further display a message notification interface on the screen of the mobile device, wherein the message notification interface displays various messages that the mobile device receives in the above states and that are not viewed by the user. In the present invention, the message may comprise at least one of incoming messages, short messages, instant chat conversations, notifications pushed by an application in the mobile device. The type of messages to be displayed on the message notification interface may be customized by the user, considering that a portion of the messages is not very important to the user, e.g., the user may simply select to display incoming messages on the message display interface, various instant conversation messages sent through an instant chat application, etc.

In addition, the timer may be cleared when the acceleration value measured by the acceleration sensor is lower than the lowest value in the preset acceleration range after the screen is awakened or after the time continuously counted by the timer exceeds a preset time threshold.

The operation of the control apparatus 100 according to the exemplary embodiment of the present invention is explained above by taking an acceleration sensor as an example, however, it should be understood that the sensor that may be employed in the present invention is not limited to the acceleration sensor, and the sensor may be a gyroscope or any other sensor capable of measuring the motion of a mobile device. For example, when the sensor is a gyroscope for measuring an angular velocity value of the motion of the mobile device, the screen of the mobile device may be woken up by the wake-up unit 102 when the angular velocity value measured by the gyroscope is in a predetermined angular velocity range.

Fig. 2 is an example illustrating a message notification interface 200 according to an exemplary embodiment of the present invention.

As illustrated in fig. 2, by way of example only, in the message notification interface 200, new messages received by the mobile device (e.g., short messages, incoming calls, emails, microblog messages, etc.) may be displayed in a sorted manner and information related to the received new messages (e.g., contacts of the messages, etc.) may be displayed in order to facilitate the user to view the new messages received by the mobile device during hibernation. It should be understood that the method of obtaining the content of the new message and the above-mentioned related information is known to those skilled in the art and therefore will not be described in detail herein for the sake of brevity.

In the present invention, the message notification interface 200 is not only used to display new messages received by the mobile device during sleep, and in case that a user selects a specific message displayed on the message notification interface 200 through an input unit (e.g., a touch screen or key buttons) of the mobile device, the interface displayed on the screen may be converted into a processing interface of an application that can process the specific message through a processor or other processing unit of the mobile device, or one or more application options that can process the specific message may be displayed on the screen. For example, in the case of displaying the message notification interface as described in fig. 2, the user may select a message (e.g., short message 201) desired to be viewed, and after the user selects (e.g., selects by touching or direction key) short message 201, the short message viewing interface for processing short message 201 may be entered to view the specific content of short message 201, and perform subsequent operations (e.g., delete short message 201 or reply to short message 201). Or alternatively, after the user selects the short message 201, all application options available for processing the short message, such as replying to the short message, dialing a contact phone of the short message, deleting the short message, etc., may be displayed on the message notification interface 200 to perform various processing on the short message more quickly.

Furthermore, if the user sets the mobile device to lock after hibernation, the unlock interface may be displayed first after the user selects the short message 201 and re-enter the application for processing the short message 201 after the user unlocks. After the user finishes processing the short message 201, it may return to the message notification interface 200 shown in fig. 2 or to the main interface according to the user's operation. For example, if the user selects the "back" key, returning to the message notification interface 200 shown in fig. 2 continues to process other unviewed messages, and returning to the home screen if the user selects the "home" key. In this manner, a user may selectively select portions of messages for processing among a plurality of messages received by the mobile device, thereby facilitating the user's viewing and processing important or urgent messages received during the sleep period of the mobile device that may not be processed in a timely manner.

Optionally, in the message notification interface 200 of fig. 2, the specific content of the message may also be displayed as needed, so that the user can easily see the message content without selecting the specific message, thereby determining whether to perform a next operation on the message (e.g., reply to the message).

The above example of automatically waking up a mobile device during a user's picking up the mobile device using a sensor while the mobile device is in a stationary and dormant state is described in detail with reference to the examples. However, the present invention is not limited thereto, and for example, in consideration of a large power consumption of the acceleration sensor, the screen of the dormant mobile device may be automatically woken up by the sensor in the process of the user picking up the mobile device when the mobile device is in a charged state and in a stationary state, as needed. In this case, when the user powers on the mobile device to start charging the mobile device, the processor may generate a charging signal according to a preset by a designer of the mobile device or the user, and then the detection unit 101 may detect whether the mobile device is in a charging state by receiving the charging signal. Since the acceleration sensor is used in the case of charging the mobile device, the use of the acceleration sensor does not consume the battery power of the mobile device. After the charging is completed and the user pulls the power off, the acceleration sensor can be deactivated to reduce power consumption.

In addition, according to the preset of the user, when the time for the mobile device to enter the sleep state exceeds the preset time and is in the static state, the sensor can be used for realizing the process of automatically waking up the screen when the user subsequently picks up the mobile device. Alternatively, as another example, when the mobile device enters a sleep mode and is in a stationary state, a process of automatically waking up a screen during a user's subsequent pick-up of the mobile device may also be implemented using a sensor in a state where the mobile device receives a new message and the user does not view the new message for a predetermined time.

An operation method of the control device 100 according to an exemplary embodiment of the present invention will be explained in detail below.

As shown in fig. 3, in step 301, the operational state of the mobile device may be detected by the detection unit 101. In the present invention, the predetermined operating state may be a static state and a sleep state.

Then, in step 303, when the detection unit 101 detects that the mobile device enters into a predetermined operation state, the sensor of the mobile device may be controlled by the wake-up unit 102 to measure the motion of the mobile device at predetermined time intervals, and determine whether to wake up the screen of the mobile device based on the measured motion result.

In particular, the sensor may be an acceleration sensor for measuring an acceleration value of the movement of the mobile device in step 303, in which case the wake-up unit 102 may wake up the screen of the mobile device when the acceleration value measured by the acceleration sensor is in a predetermined acceleration range.

Optionally, the control apparatus 100 may further include a timer, in which case, in step 303, the time when the acceleration of the motion of the mobile device is in the preset acceleration range may be counted by the timer, and when the counted time exceeds a preset time threshold, the wake-up unit 102 wakes up the screen of the mobile device. Preferably, when the wake-up unit 102 wakes up the screen of the mobile device, a message notification interface may also be displayed on the screen of the mobile device if the mobile device receives a message in the predetermined operation state in step 303. The message notification interface may display messages received by the mobile device in the predetermined operating state that are not viewed by the user, and may be customizable by the user as to the type of messages to be displayed on the message notification interface. Alternatively, when it is detected through an input unit (e.g., a touch screen or a key) of the mobile device that a specific message displayed on the message notification interface is selected by the user, the interface displayed on the screen may be converted into a processing interface of an application that can process the specific message through a processor or other processing unit of the mobile device, or one or more application options that can process the specific message may be displayed on the screen.

In addition, in step 303, before the counted time of the timer reaches the preset time threshold, if the acceleration value measured by the acceleration sensor is lower than or higher than the preset acceleration range, the counted time of the timer may be cleared.

It should be understood that the sensor used in step 303 may also be a gyroscope, in which case, in step 303, the gyroscope may be controlled by the wake-up unit 102 to measure an angular velocity value of the motion of the mobile device, and the wake-up unit 102 wakes up the screen of the mobile device when the angular velocity value measured by the gyroscope is within a predetermined angular velocity range.

By using the above-described apparatus and method according to the present invention, when the mobile device is in the dormant state, the screen of the mobile device can be automatically woken up in the process of the user picking up the mobile device, so that the user can more quickly view the messages or notifications that cannot be timely viewed during the mobile device dormancy and perform subsequent processing.

The exemplary embodiments of the present invention can also be embodied as computer readable codes on a computer readable recording medium. The computer readable recording medium is any data storage device that can store data which can be thereafter read by a computer system. Examples of the computer-readable recording medium include: read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tapes, floppy disks, optical data storage devices, and carrier waves (such as data transmission through the internet via a wired or wireless transmission path). The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion. In addition, functional programs, codes, and code segments for accomplishing the present invention can be easily construed by programmers of ordinary skill in the art to which the present invention pertains within the scope of the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims.

Claims

1. An apparatus for controlling a mobile device, the apparatus comprising:

a detection unit configured to detect an operation state of the mobile device;

a wake-up unit configured to control an acceleration sensor of a mobile device to measure an acceleration value of a movement of the mobile device at predetermined time intervals when the detection unit detects that the mobile device enters a predetermined operation state, wherein the predetermined operation state is a stationary state and a sleep state;

a timer configured to time a time when an acceleration value of the mobile device movement is in a preset acceleration range when the acceleration value measured by the acceleration sensor is in the preset acceleration range,

wherein, the awakening unit awakens the screen of the mobile equipment when the time counted by the timer exceeds a preset time threshold value so as to automatically awaken the screen of the mobile equipment in the process that a user picks up the mobile equipment in a static state and a dormant state,

the preset acceleration range is set by counting the acceleration of the mobile device when the user picks up the mobile device in a static state, and the preset time threshold is set by counting the time taken by the user to pick up the mobile device in a static state.

2. The apparatus of claim 1, wherein the timer is cleared if an acceleration value measured by the acceleration sensor is lower or higher than the preset acceleration range before the time counted by the timer reaches a preset time threshold.

3. The apparatus of claim 1, wherein when the wake-up unit wakes up the screen of the mobile device, the wake-up unit further displays a message notification interface on the screen of the mobile device if the mobile device receives a message in the predetermined operating state, wherein the message notification interface displays a message that the mobile device receives in the predetermined operating state that is not viewed by the user.

4. The apparatus of claim 3, wherein when it is detected through the input unit of the mobile device that a specific message displayed on the message notification interface is selected by the user, the interface displayed on the screen is converted into a processing interface of an application processing the specific message through a processor of the mobile device or one or more application options for processing the specific message are displayed on the screen.

5. The apparatus of claim 3, wherein the message comprises at least one of an incoming call message, a short message, an instant chat conversation, a notification pushed by an application in a mobile device.

6. A method of controlling a mobile device, the method comprising:

detecting an operational state of the mobile device;

controlling an acceleration sensor of a mobile device to measure an acceleration value of a movement of the mobile device at predetermined time intervals when it is detected that the mobile device enters a predetermined operation state, wherein the predetermined operation state is a stationary state and a sleep state;

when the acceleration value measured by the acceleration sensor is in a preset acceleration range, timing the time when the acceleration value of the movement of the mobile equipment is in the preset acceleration range;

waking up a screen of the mobile device when the timed time exceeds a preset time threshold value so as to automatically wake up the screen of the mobile device in a process that a user picks up the mobile device in a static state and a dormant state,

7. The method of claim 6, wherein the timing is cleared if an acceleration value measured by an acceleration sensor is below or above the preset acceleration range before the timed time reaches a preset time threshold.

8. The method of claim 6, wherein when waking up the screen of the mobile device, if the mobile device receives a message in the predetermined operational state, further displaying a message notification interface on the screen of the mobile device, wherein the message notification interface displays a message that the mobile device received in the predetermined operational state that was not viewed by the user.

9. The method of claim 8, wherein when it is detected that a user selects a specific message displayed on the message notification interface, converting the interface displayed on the screen into a processing interface of an application processing the specific message or displaying one or more application options for processing the specific message on the screen.

10. The method of claim 8, wherein the message comprises at least one of an incoming call message, a short message, an instant chat conversation, a notification pushed by an application in a mobile device.