WO2016023229A1 - Setting method and terminal of terminal working mode - Google Patents

Abstract

Provided in an embodiment of the present invention are a setting method and terminal of a terminal working mode, the method comprising: a terminal acquires a physiological characteristic parameter and movement acceleration speed of a user thereof; the terminal determines, according to the physiological characteristic parameter and movement acceleration speed of the user, a working mode corresponding to the physiological characteristic parameter and the movement acceleration speed; and the terminal sets the current working mode thereof according to the determined working mode corresponding to the physiological characteristic parameter and the movement acceleration speed. The determined working mode corresponds to the physiological characteristic parameter and thus can solve the problem in the prior art of a working mode error caused by the user of the terminal being asleep, thus improving the accuracy and flexibility of working mode setting, and further improving the accuracy of sleep detection.

Description

 Terminal working mode setting method and terminal

Technical field

 The embodiments of the present invention relate to the field of communications technologies, and in particular, to a terminal working mode setting method and a terminal. Background technique

 With the rise of the wearable craze, a variety of wearable devices have emerged on the market. The main product forms are bracelets and watches. Since the wearable device is directly worn on the human body, the exercise habits and physiological indexes of the person can be well monitored. The two most important functions of the current wearable device are exercise meter detection and sleep detection. In the prior art, the wearable device uses a gravity sensor (Gravity-sensor, G-sensor for short) to monitor the motion of the user. If the G-sensor does not detect motion within a certain period, the wearable device is set to In the non-wearing mode, if the G-sensor detects that the motion is weak within a certain period, the wearable device is set to the sleep detection mode. If the G-sensor detects that the motion is strong within a certain period, the wearable device is set to The motion meter mode enables the switching of the working state mode of the wearable device.

 However, if the user is in deep sleep, the G-se or will not detect the movement, and the wearable device will cause misjudgment. Summary of the invention

 The embodiment of the present invention provides a terminal working mode setting method and a terminal, which are used to solve the problem of misjudging the working mode caused by the user of the terminal being in deep sleep in the prior art, thereby improving the setting accuracy of the working mode and Set flexibility.

 In a first aspect, an embodiment of the present invention provides a method for setting a working mode of a terminal, including: acquiring, by a terminal, a physiological characteristic parameter and a motion acceleration of a user of the terminal; and determining, by the terminal, a physiological characteristic parameter and a motion acceleration of the user Determining an operating mode corresponding to the physiological characteristic parameter and the motion acceleration; the terminal setting a current working mode of the terminal according to the determined working mode corresponding to the physiological characteristic parameter and the motion acceleration.

In a first possible implementation manner of the first aspect, the terminal is configured according to the user Determining the working mode corresponding to the physiological characteristic parameter and the motion acceleration, and determining, by the terminal, the condition range to which the physiological characteristic parameter and the motion acceleration belong according to the physiological characteristic parameter and the motion acceleration And determining, by the terminal, the working mode corresponding to the condition range according to the determined physiological characteristic parameter and a condition range to which the motion acceleration belongs.

 With reference to the first aspect or the first possible implementation manner of the first aspect, in a second possible implementation manner of the first aspect, the terminal acquires a physiological characteristic parameter and a motion acceleration of a user of the terminal, including The terminal acquires the motion acceleration of the user of the terminal; if the motion acceleration is less than the first preset value in the first preset time period, the terminal acquires the physiological characteristic parameter of the user of the terminal .

 In conjunction with the second possible implementation of the first aspect, in a third possible implementation manner of the first aspect, the terminal determines, according to the physiological characteristic parameter and the motion acceleration of the user, the physiological characteristic parameter And the working mode corresponding to the motion acceleration, the method includes: if the physiological feature parameter belongs to the preset parameter range in the second preset time, the terminal determines that the working mode corresponding to the physiological feature parameter and the motion acceleration is a sleep mode And if the physiological characteristic parameter does not belong to the preset parameter range in the second preset time, the terminal determines that the working mode corresponding to the physiological feature parameter and the motion acceleration is a non-wearing mode; The sleep mode indicates that the terminal detects sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state.

 With the second possible implementation of the first aspect or the third possible implementation of the first aspect, in a fourth possible implementation manner of the first aspect, If the motion acceleration is greater than or equal to the first preset value, the terminal determines that the working mode of the terminal is a counting mode, and the counting mode indicates that the terminal detects motion state information of the user.

 In conjunction with the second possible implementation of the first aspect, or the third possible implementation of the first aspect, in a fifth possible implementation manner of the first aspect, the current working mode of the terminal is a non-wearing mode. If the motion acceleration is less than the first preset value in the first preset time, the acquiring, by the terminal, the physiological characteristic parameter of the user of the terminal includes: The terminal acquires the physiological characteristic parameter of the user of the terminal, when the motion acceleration is greater than the second preset value and is less than the first preset value.

Combining the second possible implementation of the first aspect or the third possible implementation of the first aspect In a sixth possible implementation manner of the foregoing aspect, the current working mode of the terminal is a sleep mode, and the motion acceleration is less than the first preset in the first preset time And the obtaining, by the terminal, the physiological characteristic parameter of the user of the terminal, if the motion acceleration is less than or equal to a second preset value in the first preset time, the terminal acquiring the The physiological characteristic parameter of the user of the terminal, where the second preset value is smaller than the first preset value.

 With reference to the first aspect, or any one of the first to the sixth possible implementation manners of the first aspect, in the seventh possible implementation manner of the first aspect, the physiological characteristic parameter includes the following information At least one: heart rate value, body temperature value, respiratory intensity.

 In conjunction with the seventh possible implementation of the first aspect, in an eighth possible implementation manner of the first aspect, the terminal further includes Photo Plethysmo Graphy (PPG), the terminal acquiring the location The physiological characteristic parameter of the user of the terminal includes: the terminal acquiring the heart rate value of the user of the terminal by using the PPG.

 With reference to the first aspect, or any one of the first to the eighth possible implementation manners of the first aspect, in the ninth possible implementation manner of the first aspect, the terminal further includes a gravity sensor, The acquiring, by the terminal, the motion acceleration of the user of the terminal includes: acquiring, by the terminal, the motion acceleration of the user of the terminal by using the acceleration sensor.

 In a second aspect, the embodiment of the present invention provides a terminal, including: an acquiring unit, configured to acquire a physiological characteristic parameter and a motion acceleration of a user of the terminal; and a determining unit, configured to use the acquiring according to the acquiring unit a physiological characteristic parameter and a motion acceleration, determining an operating mode corresponding to the physiological characteristic parameter and the motion acceleration; a setting unit, configured to determine, according to the determining unit, a working mode corresponding to the physiological characteristic parameter and the motion acceleration, Set the current working mode of the terminal.

 In a first possible implementation manner of the second aspect, the determining unit is configured to determine, according to the physiological characteristic parameter and the motion acceleration, a condition range to which the physiological characteristic parameter and the motion acceleration belong; The physiological characteristic parameter and the condition range to which the motion acceleration belongs determine an operating mode corresponding to the condition range.

With reference to the second aspect or the first possible implementation manner of the second aspect, in a second possible implementation manner of the second aspect, the acquiring unit is specifically configured to acquire a motion acceleration of a user of the terminal, and And if the motion acceleration is less than the first preset value in the first preset time period, acquiring a physiological characteristic parameter of the user of the terminal. With reference to the second possible implementation of the second aspect, in a third possible implementation manner of the second aspect, the determining unit is specifically configured to: if the physiological characteristic parameter belongs to the pre-predetermined time Setting a parameter range, determining that the working mode corresponding to the physiological characteristic parameter and the motion acceleration is a sleep mode; if the physiological feature parameter does not belong to the preset parameter range in the second preset time, determining and The working mode corresponding to the physiological characteristic parameter and the motion acceleration is a non-wearing mode; wherein the sleep mode indicates that the terminal detects sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state .

 With the second possible implementation of the second aspect or the third possible implementation of the second aspect, in a fourth possible implementation manner of the second aspect, the determining unit is specifically configured to be used in Determining, in the first preset time period, that the motion acceleration is greater than or equal to the first preset value, determining that the working mode of the terminal is a counting mode, where the counting mode indicates that the terminal detects the user Motion status information.

 With the second possible implementation of the second aspect or the third possible implementation of the second aspect, in a fifth possible implementation manner of the second aspect, the current working mode of the terminal is a non-wearing mode. And acquiring, by the acquiring unit, the physiological characteristic parameter of the user of the terminal, if the motion acceleration is less than the first preset value in the first preset time period, specifically: the acquiring The unit is configured to acquire a physiological characteristic parameter of a user of the terminal if the motion acceleration is greater than a second preset value and less than the first preset value in the first preset time.

 With the second possible implementation of the second aspect or the third possible implementation of the second aspect, in a sixth possible implementation manner of the second aspect, the current working mode of the terminal is a sleep mode, The acquiring unit is configured to acquire a physiological characteristic parameter of a user of the terminal, if the motion acceleration is less than the first preset value, in the first preset time period, specifically: the acquiring unit And acquiring, when the motion acceleration is less than or equal to a second preset value in the first preset time, acquiring a physiological characteristic parameter of a user of the terminal, where the second preset value is smaller than the first default value.

 With reference to the second aspect, or any one of the first to the sixth possible implementation manners of the second aspect, in the seventh possible implementation manner of the second aspect, The parameters include at least one of the following information: heart rate value, body temperature value, and respiratory intensity.

In a third aspect, an embodiment of the present invention provides a terminal, including: a memory and a processor, where the memory is used to store code for executing a terminal working mode setting method; a code, performing the following operations: acquiring a physiological characteristic parameter and a motion acceleration of a user of the terminal; and determining a working mode corresponding to the physiological characteristic parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user And setting a current working mode of the terminal according to the determined working mode corresponding to the physiological characteristic parameter and the motion acceleration.

 In a first possible implementation manner of the third aspect, the processor determines, according to the physiological characteristic parameter and the motion acceleration of the user, a working mode corresponding to the physiological characteristic parameter and the motion acceleration, specifically: Determining, by the processor, the condition range to which the physiological characteristic parameter and the motion acceleration belong according to the physiological characteristic parameter and the motion acceleration; and determining and the condition range according to the determined condition range to which the physiological characteristic parameter and the motion acceleration belong Corresponding working mode.

 With the third aspect or the first possible implementation manner of the third aspect, in a second possible implementation manner of the third aspect, the processor acquires a physiological characteristic parameter and a motion acceleration of a user of the terminal, Specifically, the processor acquires a motion acceleration of a user of the terminal; and if it is determined that the motion acceleration is less than a first preset value in a first preset time period, acquiring a physiology of the user of the terminal Characteristic Parameters.

 In conjunction with the second possible implementation of the third aspect, in a third possible implementation manner of the third aspect, the processor determines the physiological characteristic according to the physiological characteristic parameter and the motion acceleration of the user The working mode corresponding to the parameter and the motion acceleration is specifically: the processor, if it is determined that the physiological feature parameter belongs to the preset parameter range in the second preset time, determining, corresponding to the physiological feature parameter and the motion acceleration Working mode is a sleep mode; if it is determined that the physiological feature parameter does not belong to the preset parameter range in the second preset time, determining that the working mode corresponding to the physiological feature parameter and the motion acceleration is a non-wearing mode The sleep mode indicates that the terminal detects sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state.

 With reference to the second possible implementation of the third aspect or the third possible implementation of the third aspect, in a fourth possible implementation manner of the third aspect, the processor, if If the motion acceleration is greater than or equal to the first preset value in a preset time period, the terminal determines that the working mode of the terminal is a counting mode, and the counting mode indicates that the terminal detects the use Motion status information.

Combining the second possible implementation of the third aspect or the third possible implementation of the third aspect The fifth possible implementation manner of the third aspect, the current working mode of the terminal is a non-wearing mode, and the processor, if it is determined that the motion acceleration is less than the first preset time The first preset value is used to obtain the physiological characteristic parameter of the user of the terminal, specifically: the processor, if it is determined that the motion acceleration is greater than a second preset value in the first preset time If the first preset value is smaller, the physiological characteristic parameter of the user of the terminal is acquired.

 With the second possible implementation of the third aspect or the third possible implementation of the third aspect, in a sixth possible implementation manner of the third aspect, the current working mode of the terminal is a sleep mode, And the processor, if it is determined that the motion acceleration is less than the first preset value in the first preset time, acquiring a physiological characteristic parameter of a user of the terminal, specifically: the processor, If the motion acceleration is less than or equal to the second preset value in the first preset time, the physiological characteristic parameter of the user of the terminal is obtained, where the second preset value is smaller than the first preset Set the value.

 With reference to the third aspect, or any one of the first to the sixth possible implementation manners of the third aspect, in the seventh possible implementation manner of the third aspect, the physiological characteristic acquired by the processor The parameters include at least one of the following information: heart rate value, body temperature value, and respiratory intensity.

 In conjunction with the seventh possible implementation of the third aspect, in an eighth possible implementation manner of the third aspect, the terminal further includes a photoplethysmography PPG, where the processor acquires a physiology of a user of the terminal The characteristic parameter is specifically: the processor uses the PPG to acquire the heart rate value of a user of the terminal.

 With reference to the third aspect, or any one of the first to the eighth possible implementation manners of the third aspect, in the ninth possible implementation manner of the third aspect, the terminal further includes a gravity sensor, Obtaining, by the processor, the motion acceleration of the user of the terminal, the processor includes: acquiring, by the processor, the motion acceleration of the user of the terminal by using the gravity sensor.

The terminal working mode setting method and the terminal provided by the embodiment of the present invention, the terminal obtains the physiological characteristic parameter and the motion acceleration of the user of the terminal, and further determines the corresponding working mode according to the physiological characteristic parameter and the motion acceleration, so as to enable the Determining an operation mode corresponding to the physiological characteristic parameter and the motion acceleration, and setting a current working mode of the terminal. Since the determined working mode is corresponding to the physiological characteristic parameter, the problem of misunderstanding of the working mode caused by the user of the terminal being in deep sleep can be solved in the prior art, thereby improving the setting accuracy and setting flexibility of the working mode. Further improvements in the accuracy of sleep detection. DRAWINGS

 In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, a brief description of the drawings used in the embodiments or the prior art description will be briefly described below. Obviously, the drawings in the following description It is a certain embodiment of the present invention, and other drawings can be obtained from those skilled in the art without any creative work.

 1 is a flowchart of Embodiment 1 of a method for setting a working mode of a terminal according to the present invention;

 2 is a flowchart of Embodiment 2 of a method for setting a working mode of a terminal according to the present invention;

 FIG. 3 is a schematic diagram of a working mode switching of a terminal according to Embodiment 2 of the present invention; FIG. 4 is a schematic diagram of a working mode switching of a terminal according to Embodiment 3 of the present invention; FIG. 6 is a schematic structural diagram of a first embodiment of a terminal according to the present invention; FIG.

 FIG. 7 is a schematic structural diagram of Embodiment 2 of a terminal according to the present invention. The technical solutions in the embodiments of the present invention are clearly and completely described in the following with reference to the accompanying drawings in the embodiments of the present invention. The embodiments are a part of the embodiments of the invention, and not all of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative efforts are within the scope of the present invention.

 FIG. 1 is a flowchart of Embodiment 1 of a method for setting a working mode of a terminal according to the present invention. As shown in FIG. 1 , the terminal in this embodiment may be a wearable device, such as a smart wristband or a smart watch. The method of this embodiment may include:

 S101. The terminal acquires a physiological characteristic parameter and a motion acceleration of a user of the terminal.

 S102. The terminal determines an operation mode corresponding to the physiological feature parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user.

 S103. The terminal sets a current working mode of the terminal according to the determined working mode corresponding to the physiological feature parameter and the motion acceleration.

In this embodiment, the terminal can acquire the physiological characteristic parameters and the acceleration of the user of the terminal. The physiological characteristic parameter is that the living user and the inanimate object can be distinguished, wherein the physiological characteristic Parameters may include, but are not limited to, at least one of the following: heart rate value, body temperature value, respiratory intensity. The terminal then determines an operating mode corresponding to the physiological characteristic parameter and the motion acceleration according to the acquired physiological characteristic parameter and the motion acceleration. The working mode of the terminal may include: a counting mode, a sleeping mode, and a non-wearing mode, but the embodiment is not limited thereto. The above mode. The following is an example of the above three working modes. If the terminal determines that the physiological characteristic parameter is not a physiological characteristic parameter of the user according to the obtained physiological characteristic parameter, that is, the terminal is not worn on the user, it may be determined that the terminal should be The current working mode is set to the non-wearing mode, and the non-wearing mode indicates that the terminal is in the non-use state, that is, the terminal does not perform any indicator statistics; optionally, the terminal may include a display, a Bluetooth device, etc., and the terminal is in the non-wearing mode. The display of the terminal can be turned off, such as a liquid crystal display (LCD) display, or the terminal's Bluetooth connection can be turned off, and the terminal's processor is set to sleep to minimize the power consumption of the terminal. If the terminal determines that the physiological characteristic parameter is a physiological characteristic parameter of the user according to the acquired physiological characteristic parameter, that is, the terminal is worn on the user, and according to the motion acceleration, it is determined that the user is exercising and the exercise is strong, then the terminal may determine that the Setting the current working mode of the terminal to the counting mode, the counting mode indicates that the terminal detects the motion state information of the user, that is, the user is in an active state, the terminal can count the number of motions of the user, and calculate the user according to the number of sports parameters. Information such as distance moved, calories burned, etc. Optionally, in the meter mode, the terminal can turn on the LCD and maintain a Bluetooth connection to enhance the user experience. If the terminal determines that the physiological characteristic parameter is a physiological characteristic parameter of the user according to the acquired physiological characteristic parameter, that is, the terminal is worn on the user, and determines that the user's motion is weak or the user does not move according to the motion acceleration, It can be determined that the current working mode of the terminal should be set to the sleep mode, and the sleep mode indicates that the terminal detects the sleep state information of the user, that is, the terminal counts the time of the user's sleep, and calculates the deep sleep time of the user based on the motion acceleration of the user. , light sleep time and other indicators; and in sleep mode, the terminal can turn off the LCD, turn off the Bluetooth connection, etc., to reduce power consumption without affecting the user experience. It should be noted that how the terminal works in the meter mode, the sleep mode, and the non-wear mode is similar to the prior art, and details are not described herein again.

Optionally, the terminal determines, according to the physiological characteristic parameter and the motion acceleration of the user, an operation mode corresponding to the physiological feature parameter and the motion acceleration, including: the terminal according to the physiological feature parameter and the motion acceleration, Determining a range of conditions to which the physiological characteristic parameter and the motion acceleration belong; the terminal belongs to the determined physiological characteristic parameter and the motion acceleration The range of conditions determines the mode of operation corresponding to the range of conditions.

 Optionally, before the terminal determines the working mode corresponding to the condition range according to the condition range, the terminal may further set the corresponding relationship between the condition range and the working mode. First, the terminal may preset a threshold corresponding to the physiological characteristic parameter and a threshold corresponding to the motion acceleration. Then, the terminal may determine the physiological feature according to a threshold corresponding to the physiological characteristic parameter and a threshold corresponding to the motion acceleration. a condition range to which the parameter and the motion acceleration belong, and classifying the condition indicated by the condition range; therefore, the terminal may set an operation mode corresponding to the different level according to the different levels divided to obtain the condition The correspondence between the scope and the working mode.

 For example: Condition range 1 corresponds to operating mode 1 (eg metering mode), condition range 2 corresponds to operating mode 2 (eg sleep mode), condition range 3 corresponds to operating mode 3 (eg non-peel mode), and so on. The condition range 1 includes: the motion acceleration is greater than the first preset value; the condition range 2 includes: the motion acceleration is less than the first preset value, and the physiological feature parameter belongs to a range from the first physiological feature parameter threshold to the second physiological feature parameter threshold; The condition range 3 includes: the motion acceleration is less than the first preset value, and the physiological feature parameter does not fall within the range of the first physiological feature parameter threshold to the second physiological feature parameter threshold. If the physiological characteristic parameter and the motion acceleration acquired by the terminal belong to the condition range 1, it is determined that the working mode of the terminal is the working mode 1; if the physiological characteristic parameter and the motion acceleration acquired by the terminal belong to the condition range 2, it is determined that the working mode of the terminal is the working mode. 2·' If the physiological characteristic parameter and the motion acceleration acquired by the terminal belong to the condition range 3, it is determined that the working mode of the terminal is the working mode 3.

 Optionally, the acquiring, by the terminal, the physiological characteristic parameter and the motion acceleration of the user of the terminal, the method includes: acquiring, by the terminal, a motion acceleration of a user of the terminal; if the motion is in a first preset time period If the acceleration is less than the first preset value, the terminal acquires a physiological characteristic parameter of the user of the terminal. The terminal does not acquire the physiological characteristic parameters in real time, but acquires the physiological characteristic parameters when the motion acceleration satisfies certain conditions, so that the power consumption can be reduced, for example: the physiological characteristic parameter of the user is collected by the physiological characteristic parameter sensor, and the terminal is determined. When the motion acceleration is less than the first preset value in the first preset time period, the terminal activates the physiological characteristic parameter sensor.

The terminal working mode setting method provided by the first embodiment of the present invention determines the corresponding working mode according to the physiological characteristic parameter and the motion acceleration by acquiring the physiological characteristic parameter and the motion acceleration of the user of the terminal, so that the determining is determined according to the determining Physiological characteristic parameters The working mode corresponding to the motion acceleration, and setting the current working mode of the terminal. Since the determined working mode is corresponding to the physiological characteristic parameter, the problem of misjudging the working mode caused by the user being in deep sleep can be solved in the prior art, thereby improving the setting accuracy and setting flexibility of the working mode, and further improving Improve the accuracy of sleep detection.

 2 is a flowchart of Embodiment 2 of a method for setting a working mode of a terminal according to the present invention. As shown in FIG. 2, the terminal in this embodiment may be a wearable device, such as a smart wristband or a smart watch. The method of this embodiment may include:

 The S20 terminal acquires the motion acceleration of the user of the terminal.

 In this embodiment, the terminal can obtain the motion acceleration of the user of the terminal in real time, wherein the terminal can obtain the acceleration of the user of the terminal by using a gravity sensor (G-se or) to determine whether the user is in a motion state.

 S202. The terminal determines whether the motion acceleration is less than a first preset value in a first preset time period. If not, execute S203, and if yes, execute S204.

In this embodiment, after acquiring the motion acceleration of the user of the terminal, the terminal determines whether the motion acceleration in the first preset time period (for example, 10 minutes or 5 minutes, etc.) is less than the first preset value, and the first preset is For example, the time period is 10 minutes, that is, the terminal determines the motion acceleration every 10 minutes, and determines whether the motion acceleration in the 10 minutes is less than the first preset value; the size of the first preset value is, for example, 9.8 m/s ² ₀ if determined. If the motion acceleration is greater than or equal to the first preset value in the first preset time period, then S203 is performed; if it is determined that the motion acceleration is less than the first preset value in the first preset time period, then S204 is performed.

The terminal determines whether the motion acceleration is less than the first preset value in the first preset time period, and may have the following feasible implementation manners. In the first feasible implementation manner, determining the first preset Whether more than half of the motion accelerations acquired in the time period are less than the first preset value, for example: The terminal can acquire 10 motion accelerations every 10 minutes, and determine whether the 10 motion accelerations acquired within 10 minutes are If the motion acceleration of more than 5 times is less than the first preset value, if the motion acceleration of more than 5 times (including 5 times) in the 10 minutes is less than the first preset value, the first preset time period may be determined. The motion acceleration is less than the first preset value. If the motion acceleration below 5 times in the 10 minutes is less than the first preset value, it may be determined that the motion acceleration is greater than or equal to the first preset value in the first preset time period. In a second feasible implementation manner, determining whether an average value of all acquired motion accelerations in the first preset time period is less than A preset value, for example: The terminal can acquire 10 motion accelerations every 10 minutes, and determine whether the average motion acceleration of the 10 motion accelerations acquired within 10 minutes is less than the first preset value, if 10 is acquired within 10 minutes If the average motion acceleration of the secondary motion acceleration is less than the first preset value, it may be determined that the motion acceleration in the first preset time period is less than the first preset value, and if the average motion acceleration of the 10 motion accelerations acquired in the 10 minutes is not less than The first preset value may determine that the motion acceleration is greater than or equal to the first preset value in the first preset time period. It should be noted that the above 10 minutes, 10 times, and 5 times are for illustrative purposes and are not intended to limit the present invention.

 S203: The terminal determines that the working mode of the terminal is a metering mode.

 In this embodiment, if the terminal determines that the motion acceleration is greater than or equal to the first preset value within the first preset time, the user of the terminal is in motion, and the intensity of the motion is relatively large, indicating that the user is at this time. It is not in a sleep state, and it is not necessary to acquire the physiological characteristic parameter of the user at this time, and it can also be determined that the terminal is worn by the user, so that the working mode of the terminal can be determined to be the counting mode.

 S204: The terminal acquires a physiological characteristic parameter of a user of the terminal.

In this embodiment, if the terminal determines that the motion acceleration is less than the first preset value in the first preset time, it indicates that the user's exercise intensity is relatively small or not moving, for example, the terminal is not worn on the user. , the action of the user picking up the terminal and putting it back in place, this action also causes the motion acceleration to be less than the first preset value in the first preset time; or the terminal is worn on the user, and When the user is in a sleep state, the user is in a sleep state, and a slight motion is emitted, which may also cause the motion acceleration to be less than the first preset value in the first preset time; or, the terminal is not worn on the user, but Always resting on the table, this will also cause the motion acceleration to be less than the first preset value in the first preset time; or, the terminal is worn on the user, and the user is in a deep sleep state, the user will not have The action is issued, which also causes the motion acceleration to be less than the first preset value within the first preset time; etc., in the above various situations, only according to the operation Acceleration can not be determined whether the terminal worn on the user's body. Therefore, in order to distinguish whether the terminal is worn on the user, it is necessary to further acquire the physiological characteristic parameters of the user of the terminal. In this embodiment, the obtaining the physiological characteristic parameter of the user is performed after determining that the motion acceleration is less than the first preset value, so as to avoid the problem of increasing power consumption caused by acquiring the physiological characteristic parameter of the user in real time, and the work can be reduced. Consumption. Optionally, the terminal may include a physiological characteristic parameter sensor, and when the terminal determines that the motion acceleration is less than the first preset value within the first preset time, the terminal starts the physiological characteristic parameter sensor, The physiological characteristic parameter sensor can acquire physiological characteristic parameters of the user of the terminal, which can reduce power consumption.

 S205. The terminal determines whether the physiological feature parameter belongs to a preset parameter range in a second preset time. If yes, execute S206, if no, execute S207.

 S206. The terminal determines that the working mode of the terminal is a sleep mode.

 S207. The terminal determines that the working mode of the terminal is a non-wearing mode.

 In this embodiment, after acquiring the physiological characteristic parameter of the user of the terminal, the terminal determines whether the physiological characteristic parameter belongs to the preset parameter range in the second preset time (for example, any one of 1-2 minutes, etc.) The second preset time is 2 minutes as an example, that is, the terminal acquires the physiological characteristic parameter of the user within 2 minutes, and determines whether the physiological characteristic parameter within the 2 minute belongs to the preset parameter range; if the physiological characteristic parameter is the heart rate value, the preset The parameter range is, for example, 60-100 times/min, and the terminal can obtain the heart rate value of the user of the terminal by using Photo Plethysmo Graphy (abbreviation: PPG). If it is determined that the physiological characteristic parameter belongs to the preset parameter range in the second preset time, it indicates that the physiological characteristic parameter is a valid physiological characteristic parameter, indicating that the terminal is worn on the user, and executing S206, according to the motion acceleration is less than the first The preset value and the physiological characteristic parameter belong to the preset parameter range, and determine that the working mode of the terminal is the sleep mode. If it is determined that the physiological feature parameter does not belong to the preset parameter range within the second preset time, the physiological feature parameter is invalid. If the terminal is not worn on the user, the process proceeds to S207. According to the motion acceleration is less than the first preset value and the physiological feature parameter does not belong to the preset parameter range, determining that the working mode of the terminal is the non-wearing mode.

 S208. The terminal sets a current working mode of the terminal according to the determined working mode.

In this embodiment, after performing S203, the terminal may perform S208, and the terminal sets the current working mode to the accounting mode. Optionally, before the terminal sets the current working mode of the terminal according to the determined working mode, The terminal further includes: determining, by the terminal, that the current working mode of the terminal is a sleep mode or a non-wearing mode; and setting, by the terminal, the current working mode of the terminal according to the determined working mode, the terminal: The non-wearing mode is switched to the meter mode. Alternatively, after performing S206, the terminal may perform S208, and the terminal sets the current working mode to the sleep mode. Optionally, before the terminal sets the current working mode of the terminal according to the determined working mode, the method further includes: Determining that the current working mode of the terminal is a metering mode or a non-wearing mode; the terminal setting the terminal according to the determined working mode The pre-work mode includes: The terminal switches the current working mode of the terminal from the meter mode or the non-wear mode to the sleep mode. Alternatively, after performing S207, the terminal may perform the step S208, the terminal sets the current working mode to the non-wearing mode, and optionally, before the terminal sets the current working mode of the terminal according to the determined working mode, the method further includes: Determining, by the terminal, a current working mode of the terminal is a counting mode or a sleeping mode; and setting, by the terminal, the current working mode of the terminal according to the determined working mode, the terminal: the terminal operating mode of the terminal by the counting mode or the sleeping mode Switch to non-wearing mode.

 The terminal may further include a Bluetooth device. If the current working mode of the terminal is set to the meter mode or the sleep mode, the terminal may also use the Bluetooth device to calculate the data acquired by the terminal in the meter mode or the sleep monitoring result obtained in the sleep mode. The peers are given to other terminals, and other terminals are, for example, mobile phones.

 In this embodiment, the physiological characteristic parameter and the motion acceleration of the user of the terminal are obtained, and then the corresponding working mode is determined according to the physiological characteristic parameter and the motion acceleration, so that the physiological characteristic parameter and the motion can be determined according to the determined The working mode corresponding to the acceleration sets the current working mode of the terminal. Since the determined working mode is corresponding to the physiological characteristic parameter, the problem of misjudging the working mode caused by the user being in deep sleep can be solved in the prior art, thereby improving the setting accuracy and setting flexibility of the working mode, and further improving Improve the accuracy of sleep detection.

The technical solutions of the foregoing embodiments of the present invention are described in detail below by using specific implementation manners. The physiological characteristic parameter is exemplified as the heart rate value. The first preset time period is, for example, 10 minutes, the second preset time is, for example, 2 minutes, and the first preset value is, for example, g, where g is 9.8 m/s ² . The preset parameter range is, for example, 60-100 times/minute, and the embodiment of the present invention is not limited thereto. For the specific embodiment, please refer to FIG.

In the first specific implementation manner, the current working mode of the terminal is the counting mode, and the terminal obtains the motion acceleration in real time. Optionally, the terminal includes a G-sensor, and the terminal can obtain the motion acceleration in real time by using the G-sensor. The motion acceleration obtained in the 10 minutes is judged in 10 minutes. If the motion acceleration is greater than or equal to g, the terminal should continue to maintain the metering mode, and then the terminal continues to acquire the motion acceleration in the next 10 minutes. If the motion acceleration is less than g, the triggering terminal acquires the heart rate value. Optionally, the terminal includes the PPG, and the terminal may start the PPG, and use the PPG to obtain the heart rate value. Then, the terminal determines whether the heart rate value within 2 minutes belongs to 60-100 times/minute, if The heart rate value in the 2 minutes belongs to 60-100 times/minute, and the heart rate value is valid, indicating that the terminal is worn on the user, and the working mode of the terminal is determined to be the sleep mode, and then the current working mode of the terminal is switched from the meter mode. For sleep mode; if the heart rate value within 2 minutes does not belong to 60-100 beats/min, the heart rate value is invalid, then the terminal is not worn on the user, and the working mode of the terminal is determined to be non-wearing mode, and then the current state of the terminal is The working mode is switched from the meter mode to the non-wear mode.

 In the second specific implementation manner, the current working mode of the terminal is a sleep mode, and the terminal acquires motion acceleration in real time. Optionally, the terminal includes a G-sensor, and the terminal can obtain the motion acceleration in real time by using the G-sensor. The minute is used to judge the motion acceleration acquired in the 10 minutes. If the motion acceleration is greater than or equal to g, it can be determined that the working mode of the terminal is the metering mode, and then the current working mode of the terminal is switched from the sleep mode to the metering mode. If the motion acceleration is less than g, the trigger terminal acquires the heart rate value. Optionally, the terminal includes a PPG, and the terminal can start the PPG, and use the PPG to obtain the heart rate value. Then, the terminal determines whether the heart rate value within 2 minutes belongs to 60-100 times/minute. If the heart rate value within 2 minutes belongs to 60-100 times/minute, and the heart rate value is valid, the terminal is worn on the user, indicating that the terminal should Continue to maintain the sleep mode, and then the terminal continues to obtain the motion acceleration in the next 10 minutes; if the heart rate value within 2 minutes does not belong to 60-100 beats/minute, and the heart rate value is invalid, the terminal is not worn on the user, and is determined The working mode of the terminal is the non-wearing mode, and then the current working mode of the terminal is switched from the sleep mode to the non-wearing mode.

 In the third specific implementation manner, the current working mode of the terminal is a non-wearing mode, and the terminal acquires motion acceleration in real time. Optionally, the terminal includes a G-sensor, and the terminal can obtain the motion acceleration in real time by using the G-sensor. The motion acceleration obtained in the 10 minutes is judged in 10 minutes. If the motion acceleration is greater than or equal to g, it can be determined that the working mode of the terminal is the counting mode, and then the current working mode of the terminal is switched from the non-wearing mode to the counting mode. . If the motion acceleration is less than g, the trigger terminal acquires the heart rate value. Optionally, the terminal includes a PPG, and the terminal can start the PPG, and use the PPG to obtain the heart rate value. Then, the terminal determines whether the heart rate value within 2 minutes belongs to 60-100 times/minute. If the heart rate value within 2 minutes belongs to 60-100 times/minute, and the heart rate value is valid, the terminal is worn on the user, and the terminal is determined. The working mode is sleep mode, and then the current working mode of the terminal is switched from the non-wearing mode to the sleep mode; if the heart rate value within 2 minutes does not belong to 60-100 times/minute, and the heart rate value is invalid, the terminal is not worn. On the body, the terminal should continue to maintain sleep mode, and then the terminal continues to acquire the motion acceleration for the next 10 minutes.

In the above specific implementation manner, when it is determined that the motion acceleration is less than g, the PPG is activated to obtain Take the heart rate value, which can reduce the power consumption of the terminal.

 In the third embodiment of the method, the embodiment is based on the second embodiment of the method, when the current working mode of the terminal is the non-wearing mode, the If the motion acceleration is less than the first preset value, the terminal acquiring the physiological characteristic parameter of the user of the terminal, including: if the motion acceleration is greater than the second preset value in the first preset time And being less than the first preset value, the terminal acquires a physiological characteristic parameter of a user of the terminal.

 When the current working mode of the terminal is a sleep mode, if the motion acceleration is less than the first preset value in the first preset time, the terminal acquires a user of the terminal. The physiological characteristic parameter includes: if the motion acceleration is less than or equal to a second preset value in the first preset time, the terminal acquires a physiological characteristic parameter of a user of the terminal, and the second pre- The set value is smaller than the first preset value.

The technical solutions of the foregoing embodiments of the present invention are described in detail below by using specific implementation manners. The physiological characteristic parameter is exemplified as the heart rate value. The first preset time period is, for example, 10 minutes, the second preset time is, for example, 2 minutes, and the first preset value is, for example, g, where g is 9.8 m/s ² . The preset parameter range is, for example, 60-100 times/minute, the second preset value is lm/s ² , and the second preset value may also be 0. The embodiment of the present invention is not limited thereto. 4 is shown.

 In the first specific implementation manner, the current working mode of the terminal is the counting mode, and the terminal obtains the motion acceleration in real time. Optionally, the terminal includes a G-sensor, and the terminal can obtain the motion acceleration in real time by using the G-sensor. The motion acceleration obtained in the 10 minutes is judged in 10 minutes. If the motion acceleration is greater than or equal to g, the terminal should continue to maintain the metering mode, and then the terminal continues to acquire the motion acceleration in the next 10 minutes. If the motion acceleration is less than g, the terminal is triggered to obtain the heart rate value. Optionally, the terminal includes a PPG, and the terminal can start the PPG, and use the PPG to obtain the heart rate value. Then, the terminal determines whether the heart rate value within 2 minutes belongs to 60-100 times/minute. If the heart rate value within the 2 minutes belongs to 60-100 times/minute, and the heart rate value is valid, the terminal is worn on the user, and is determined. The working mode of the terminal is sleep mode, and then the current working mode of the terminal is switched from the counting mode to the sleep mode; if the heart rate value within 2 minutes does not belong to 60-100 times/minute, and the heart rate value is invalid, the terminal is not worn. On the user, and determining that the working mode of the terminal is the non-wearing mode, then switching the current working mode of the terminal from the counting mode to the non-wearing mode.

In the second specific implementation manner, the current working mode of the terminal is a sleep mode, and the terminal is implemented. The motion acceleration is obtained. Optionally, the terminal includes a G-sensor, and the terminal can obtain the motion acceleration in real time by using the G-sensor, and the terminal determines the motion acceleration acquired in the 10 minutes every 10 minutes, if the motion acceleration is greater than or equal to g Then, it can be determined that the working mode of the terminal is the meter mode, and then the current working mode of the terminal is switched from the sleep mode to the meter mode. If the motion acceleration is greater than lm/s ² and less than g, since the current working mode of the terminal is the sleep mode, it can be said that the terminal is still worn on the user, and it is not necessary to judge the heart rate value, and it can be determined that the terminal should continue to maintain the sleep mode. Then the terminal continues to acquire the acceleration of motion for the next 10 minutes. If the motion acceleration is less than or equal to lm/s ² , the trigger terminal acquires the heart rate value. Optionally, the terminal includes the PPG, and the terminal may start the PPG, and use the PPG to obtain the heart rate value. Then, the terminal determines whether the heart rate value within 2 minutes belongs to 60-100 times/minute. If the heart rate value within 2 minutes belongs to 60-100 times/minute, and the heart rate value is valid, the terminal is worn on the user, indicating that the terminal should Continue to maintain the sleep mode, and then the terminal continues to obtain the motion acceleration in the next 10 minutes; if the heart rate value within 2 minutes does not belong to 60-100 times/minute, and the heart rate value is invalid, the terminal is not worn on the user, and is determined The working mode of the terminal is the non-wearing mode, and then the current working mode of the terminal is switched from the sleep mode to the non-wearing mode.

In the third specific implementation manner, the current working mode of the terminal is a non-wearing mode, and the terminal acquires motion acceleration in real time. Optionally, the terminal includes a G-sensor, and the terminal can obtain the motion acceleration in real time by using the G-sensor. The motion acceleration obtained in the 10 minutes is judged in 10 minutes. If the motion acceleration is greater than or equal to g, it can be determined that the working mode of the terminal is the counting mode, and then the current working mode of the terminal is switched from the non-wearing mode to the counting mode. . If the motion acceleration is greater than lm/s ² and less than g, the triggering terminal acquires the heart rate value. Optionally, the terminal includes the PPG, and the terminal may start the PPG, and use the PPG to obtain the heart rate value. Then, the terminal determines whether the heart rate value within 2 minutes belongs to 60-100 times/minute. If the heart rate value within 2 minutes belongs to 60-100 times/minute, and the heart rate value is valid, the terminal is worn on the user, and the terminal is determined. The working mode is sleep mode, and then the current working mode of the terminal is switched from the non-wearing mode to the sleep mode; if the heart rate value within 2 minutes does not belong to 60-100 times/minute, and the heart rate value is invalid, the terminal is not worn. On the body, the terminal should continue to maintain sleep mode, and then the terminal continues to acquire the motion acceleration for the next 10 minutes. If the motion acceleration is less than or equal to lm/s ² , since the current working mode of the terminal is the non-wearing mode, it can be stated that the terminal is not worn on the user, and it is not necessary to judge the heart rate value, and it can be determined that the terminal should continue to be non-wearing. Mode, then the terminal continues to acquire the acceleration of motion for the next 10 minutes. In the above specific embodiment, when it is determined that the motion acceleration is less than g, the PPG is started to obtain the heart rate value, which can reduce the power consumption of the terminal.

 In the fourth embodiment of the method of the present invention, the difference between the method embodiment of the present invention and the third embodiment of the method of the present invention is that when the current working mode of the terminal is the counting mode, the motion acceleration is greater than the second pre-predetermined time in the first preset time. In the case where the value is set and is smaller than the first preset value, the terminal does not need to determine the heart rate value, but switches from the meter mode to the sleep mode. When the current working mode of the terminal is the counting mode, if it is determined that the motion acceleration is greater than the second preset value is less than the first preset value, the current working mode of the terminal is switched from the counting mode to the sleeping mode; if it is determined that the motion acceleration is less than or If the second preset value is equal to the second preset value, the physiological characteristic parameter of the terminal user is obtained. If it is determined that the physiological characteristic parameter belongs to the preset parameter range within the second preset time, the current working mode of the terminal is switched from the counting mode to the sleeping mode. If it is determined that the physiological feature parameter does not belong to the preset parameter range within the second preset time, the current working mode of the terminal is switched from the counting mode to the non-wearing mode.

The technical solutions of the foregoing embodiments of the present invention are described in detail below by using specific implementation manners. The physiological characteristic parameter is exemplified as the heart rate value. The first preset time period is, for example, 10 minutes, the second preset time is, for example, 2 minutes, and the first preset value is, for example, g, where g is 9.8 m/s ² . The preset parameter range is, for example, 60-100 times/minute, and the second preset value is lm/s ² . The embodiment of the present invention is not limited thereto, and the specific embodiment is shown in FIG. 5 .

In the first specific implementation manner, the current working mode of the terminal is the counting mode, and the terminal obtains the motion acceleration in real time. Optionally, the terminal includes a G-sensor, and the terminal can obtain the motion acceleration in real time by using the G-sensor. The motion acceleration obtained in the 10 minutes is judged in 10 minutes. If the motion acceleration is greater than or equal to g, the terminal should continue to maintain the metering mode, and then the terminal continues to acquire the motion acceleration in the next 10 minutes. If the motion acceleration is greater than lm/s ² and less than g, since in the meter mode, it can be said that the terminal is still worn on the user, and it is not necessary to judge the heart rate value, and then the working mode of the terminal can be determined to be the sleep mode, and then Switch the current working mode of the terminal from the meter mode to the sleep mode. If the motion acceleration is less than or equal to lm/s ² , the trigger terminal acquires the heart rate value. Optionally, the terminal includes the PPG, and the terminal may start the PPG, and use the PPG to obtain the heart rate value. Then, the terminal determines whether the heart rate value within 2 minutes belongs to 60-100 times/minute. If the heart rate value within the 2 minutes belongs to 60-100 times/minute, and the heart rate value is valid, the terminal is worn on the user, and is determined. The working mode of the terminal is a sleep mode, and then the current working mode of the terminal is switched from the counting mode to the sleep mode; if the heart rate value within 2 minutes does not belong to 60-100 times/minute, If the heart rate value is invalid, it indicates that the terminal is not worn on the user, and it is determined that the working mode of the terminal is the non-wearing mode, and then the current working mode of the terminal is switched from the counting mode to the non-wearing mode.

 In the second specific implementation manner, the current working mode of the terminal is the sleep mode. For the specific implementation process, refer to the related description in the second specific implementation manner of the third embodiment of the method, and details are not described herein again.

 In the third specific implementation manner, the current working mode of the terminal is a non-sleep mode. For the specific implementation process, refer to the related description in the third specific implementation manner of the third embodiment of the method, and details are not described herein again.

 On the basis of the foregoing embodiments of the present invention, after the terminal sets the current working mode of the terminal according to the working mode corresponding to the physiological characteristic parameter and the motion acceleration, the terminal may send the data acquired in the current working mode to the same. Other terminals; For example: If the current working mode of the terminal is set to the meter mode or the sleep mode, the terminal may also send the data collected by the terminal in the metering mode or the sleep monitoring result obtained in the sleep mode to other The terminal, other terminals are, for example, mobile phones.

 FIG. 6 is a schematic structural diagram of a first embodiment of a terminal according to the present invention. As shown in FIG. 6, the terminal in this embodiment may include: a processor 11 and a memory 12, where the memory 12 is configured to store code for executing a terminal working mode setting method; The memory 12 may include a non-volatile memory. The processor 11 may be a central processing unit (CPU), or an Application Specific Integrated Circuit (ASIC), or one or more configured to implement the embodiments of the present invention. integrated circuit. The processor 11 is configured to invoke the code, and perform the following operations: acquiring a physiological characteristic parameter and a motion acceleration of a user of the terminal; and determining, according to the physiological characteristic parameter and the motion acceleration of the user, the physiological characteristic parameter And an operation mode corresponding to the motion acceleration; and setting a current working mode of the terminal according to the determined operation mode corresponding to the physiological feature parameter and the motion acceleration.

Optionally, the processor 11 determines, according to the physiological characteristic parameter and the motion acceleration of the user, an operation mode corresponding to the physiological characteristic parameter and the motion acceleration, specifically: the processor 11 is configured according to the physiological characteristic parameter and the motion acceleration. Determining a range of conditions to which the physiological characteristic parameter and the motion acceleration belong; and determining a working mode corresponding to the condition range according to the determined condition range to which the physiological characteristic parameter and the motion acceleration belong. Optionally, the processor 11 acquires a physiological characteristic parameter and a motion acceleration of the user of the terminal, where specifically: the processor 11 acquires a motion acceleration of the user of the terminal; and if it is determined to be within the first preset time period If the motion acceleration is less than the first preset value, the physiological characteristic parameter of the user of the terminal is acquired. The processor 11 determines an operation mode corresponding to the physiological characteristic parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user, and specifically: the processor 11 if the physiological state is determined within the second preset time The characteristic parameter belongs to the preset parameter range, and determines that the working mode corresponding to the physiological feature parameter and the motion acceleration is a sleep mode; if it is determined that the physiological feature parameter does not belong to the preset parameter in the second preset time a range, determining that the working mode corresponding to the physiological characteristic parameter and the motion acceleration is a non-wearing mode;

 The sleep mode indicates that the terminal detects sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state.

 The processor 11, if it is determined that the motion acceleration is greater than or equal to the first preset value in the first preset time period, the terminal determines that the working mode of the terminal is a counting mode, where the metering mode indicates The terminal detects motion state information of the user.

 Optionally, the current working mode of the terminal is a non-wearing mode, and the processor 11 acquires, if the motion acceleration is less than the first preset value in the first preset time, acquiring the terminal The physiological characteristic parameter of the user is specifically: the processor 11, if it is determined that the motion acceleration is greater than the second preset value and less than the first preset value in the first preset time, acquiring the terminal Physiological characteristics of the user.

 Optionally, the current working mode of the terminal is a sleep mode, and the processor 11 obtains the use of the terminal if it is determined that the motion acceleration is less than the first preset value in the first preset time. The physiological characteristic parameter of the terminal is specifically: the processor 11, if it is determined that the motion acceleration is less than or equal to the second preset value in the first preset time, acquiring a physiological characteristic parameter of the user of the terminal, The second preset value is smaller than the first preset value.

 Optionally, the physiological characteristic parameter acquired by the processor 11 includes at least one of the following information: a heart rate value, a body temperature value, and a breathing intensity.

Optionally, the terminal may further include a PPG 13 , and the processor 11 acquires the physiological characteristic parameter of the user of the terminal, where the processor 11 obtains the heart rate value of the user of the terminal by using the PPG 13 . In a possible implementation manner, when the processor 11 determines that the motion acceleration is less than the first preset value during the first preset time period, the processor 11 turns on the PPG 13 by The PPG 13 acquires the heart rate value of the user of the terminal, and the PPG 13 transmits the heart rate value to the processor 11, which can reduce the power consumption of the terminal. Since the PPG 13 needs to obtain the heart rate value by the reflected light of the emitted light beam, the PPG 13 is disposed inside the terminal, and a light transmissive material such as glass, sapphire or the like can be disposed between the PPG 13 inside the terminal and the user.

 Optionally, the terminal may further include a gravity sensor 14, and the processor 11 acquires the motion acceleration of the user of the terminal, and the processor 11 uses the gravity sensor 14 to acquire the motion acceleration of the user of the terminal. The gravity sensor 14 can be disposed inside the terminal.

 Optionally, the terminal may further include a Bluetooth device 15, and if the current working mode of the terminal is set to the meter mode or the sleep mode, the processor 11 may also use the Bluetooth device 15 to calculate the data acquired by the terminal in the meter mode or The sleep monitoring results obtained by the sleep mode are the same for other terminals, and other terminals are, for example, mobile phones.

 Optionally, the terminal may further include a device such as a display.

 The terminal in this embodiment may be used to implement the technical solution of the foregoing method embodiment of the present invention, and the implementation principle and the technical effect are similar, and details are not described herein again.

 FIG. 7 is a schematic structural diagram of Embodiment 2 of the terminal of the present invention. As shown in FIG. 7, the terminal in this embodiment may include: an obtaining unit 21, a determining unit 22, and a setting unit 23, where the acquiring unit 21 is configured to acquire the The physiological characteristic parameter and the motion acceleration of the user of the terminal; the determining unit 22, configured to determine the working mode corresponding to the physiological characteristic parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user acquired by the acquiring unit 21 The setting unit 23 is configured to set the current working mode of the terminal according to the working mode corresponding to the physiological characteristic parameter and the motion acceleration determined by the determining unit 22.

 Optionally, the determining unit 22 is specifically configured to determine, according to the physiological characteristic parameter and the motion acceleration, a condition range to which the physiological characteristic parameter and the motion acceleration belong; and the condition according to the determined physiological characteristic parameter and the motion acceleration Range, determining the working mode corresponding to the condition range.

 Optionally, the acquiring unit 21 is configured to acquire a motion acceleration of the user of the terminal, and if the motion acceleration is less than the first preset value in the first preset time period, acquire the user of the terminal. Physiological characteristic parameters.

The determining unit 22 is specifically configured to: when the physiological characteristic parameter belongs to the preset parameter range in the second preset time, determine that the working mode corresponding to the physiological characteristic parameter and the motion acceleration is sleep a mode; if the physiological feature parameter does not belong to the preset parameter range in the second preset time, determining that the working mode corresponding to the physiological feature parameter and the motion acceleration is a non-wearing mode; The sleep mode indicates that the terminal detects the sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state; if the motion acceleration is greater than or equal to the first preset in the first preset time period The value determines that the working mode of the terminal is a counting mode, and the counting mode indicates that the terminal detects motion state information of the user.

 Optionally, the current working mode of the terminal is a non-wearing mode, and the acquiring unit 21 is configured to acquire the terminal if the motion acceleration is less than the first preset value in the first preset time period. The physiological characteristic parameter of the user is specifically: the acquiring unit 21 is configured to acquire the motion acceleration if the motion acceleration is greater than the second preset value and less than the first preset value in the first preset time The physiological characteristic parameters of the user of the terminal.

 Optionally, the current working mode of the terminal is a sleep mode, and the acquiring unit 21 is configured to acquire the terminal if the motion acceleration is less than the first preset value in the first preset time period. The physiological characteristic parameter of the user is specifically: the acquiring unit 21 is configured to acquire the physiological characteristic parameter of the user of the terminal if the motion acceleration is less than or equal to the second preset value in the first preset time The second preset value is smaller than the first preset value.

 Optionally, the physiological characteristic parameter acquired by the obtaining unit 21 includes at least one of the following information: a heart rate value, a body temperature value, and a breathing intensity.

 The terminal in this embodiment may be used to implement the technical solution of the foregoing method embodiment of the present invention, and the implementation principle and the technical effect are similar, and details are not described herein again.

 A person skilled in the art can understand that all or part of the steps of implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a computer readable storage medium, when executed, The foregoing steps include the steps of the foregoing method embodiments; and the foregoing storage medium includes: a medium that can store program codes, such as a ROM, a RAM, a magnetic disk, or an optical disk.

 Finally, it should be noted that the above embodiments are only for explaining the technical solutions of the present invention, and are not intended to be limiting thereof; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that The technical solutions described in the foregoing embodiments may be modified, or some or all of the technical features may be equivalently replaced; and the modifications or substitutions do not deviate from the technical solutions of the embodiments of the present invention. range.

Claims

Claim

A method for setting a working mode of a terminal, comprising:

 The terminal acquires physiological characteristic parameters and motion accelerations of the user of the terminal;

 Determining, by the terminal, an operating mode corresponding to the physiological characteristic parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user;

 And determining, by the terminal, a current working mode of the terminal according to the determined working mode corresponding to the physiological feature parameter and the motion acceleration.

 The method according to claim 1, wherein the terminal determines an operation mode corresponding to the physiological feature parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user, including:

 Determining, by the terminal, the physiological characteristic parameter and a condition range to which the motion acceleration belongs according to the physiological characteristic parameter and the motion acceleration;

 And determining, by the terminal, the working mode corresponding to the condition range according to the determined physiological characteristic parameter and a condition range to which the motion acceleration belongs.

 The method according to claim 1 or 2, wherein the acquiring the physiological characteristic parameter and the motion acceleration of the user of the terminal comprises:

 The terminal acquires a motion acceleration of a user of the terminal;

 If the motion acceleration is less than the first preset value in the first preset time period, the terminal acquires a physiological characteristic parameter of the user of the terminal.

 The method according to claim 3, wherein the terminal determines an operation mode corresponding to the physiological feature parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user, including:

 If the physiological characteristic parameter belongs to the preset parameter range in the second preset time, the terminal determines that the working mode corresponding to the physiological feature parameter and the motion acceleration is a sleep mode; Setting, in the set time, that the physiological characteristic parameter does not belong to the preset parameter range, the terminal determines that the working mode corresponding to the physiological feature parameter and the motion acceleration is a non-wearing mode;

 The sleep mode indicates that the terminal detects sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state.

5. The method according to claim 3 or 4, wherein, if at the first preset If the motion acceleration is greater than or equal to the first preset value, the terminal determines that the working mode of the terminal is a counting mode, and the counting mode indicates that the terminal detects the motion of the user status information.

 The method according to claim 3 or 4, wherein the current working mode of the terminal is a non-wearing mode, and if the motion acceleration is less than the first preset value in the first preset time, And the acquiring, by the terminal, the physiological characteristic parameters of the user of the terminal, including:

 If the motion acceleration is greater than the second preset value and less than the first preset value in the first preset time, the terminal acquires a physiological characteristic parameter of the user of the terminal.

 The method according to claim 3 or 4, wherein the current working mode of the terminal is a sleep mode, and if the motion acceleration is less than the first preset value within the first preset time, The acquiring, by the terminal, the physiological characteristic parameters of the user of the terminal includes:

 If the motion acceleration is less than or equal to the second preset value in the first preset time, the terminal acquires a physiological characteristic parameter of the user of the terminal, where the second preset value is smaller than the first A preset value.

 The method according to any one of claims 1 to 7, wherein the physiological characteristic parameter comprises at least one of the following information: a heart rate value, a body temperature value, and a respiratory intensity.

 The method according to claim 8, wherein the terminal further comprises a photoplethysmographic PPG, and the terminal acquiring the physiological characteristic parameters of the user of the terminal, including:

 The terminal acquires the heart rate value of a user of the terminal by using the PPG.

 The method according to any one of claims 1 to 9, wherein the terminal further comprises a gravity sensor, and the terminal acquiring the motion acceleration of the user of the terminal, the method comprising: the terminal using the The acceleration sensor acquires the motion acceleration of the user of the terminal.

11. A terminal, comprising:

 An acquiring unit, configured to acquire a physiological characteristic parameter and a motion acceleration of a user of the terminal; and a determining unit, configured to determine, according to the physiological characteristic parameter and the motion acceleration of the user acquired by the acquiring unit, the physiological characteristic And an operation mode corresponding to the motion acceleration; and a setting unit, configured to set a current working mode of the terminal according to the working mode corresponding to the physiological feature parameter and the motion acceleration determined by the determining unit.

The terminal according to claim 11, wherein the determining unit is specifically configured to: determine the physiological characteristic parameter and the motion plus according to the physiological characteristic parameter and the motion acceleration a condition range to which the speed belongs; and determining an operation mode corresponding to the condition range according to the determined physiological characteristic parameter and a condition range to which the motion acceleration belongs.

 The terminal according to claim 11 or 12, wherein the acquiring unit is specifically configured to acquire a motion acceleration of a user of the terminal, and if the motion acceleration is less than a first preset time period The first preset value acquires physiological characteristic parameters of the user of the terminal.

 14. The terminal of claim 13 wherein:

 The determining unit is specifically configured to: if the physiological feature parameter belongs to the preset parameter range in the second preset time, determine that the working mode corresponding to the physiological feature parameter and the motion acceleration is a sleep mode; Determining, in the second preset time, that the physiological characteristic parameter does not belong to the preset parameter range, determining that the working mode corresponding to the physiological feature parameter and the motion acceleration is a non-wearing mode;

 The sleep mode indicates that the terminal detects sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state.

 The terminal according to claim 13 or 14, wherein the determining unit is specifically configured to: if the motion acceleration is greater than or equal to the first preset value in the first preset time period, Then determining that the working mode of the terminal is a counting mode, where the counting mode indicates that the terminal detects motion state information of the user.

 The terminal according to claim 13 or 14, wherein the current working mode of the terminal is a non-wearing mode, and the acquiring unit is configured to: if the motion acceleration is less than the first time period And obtaining a physiological characteristic parameter of the user of the terminal, where the acquiring unit is configured to: if the motion acceleration is greater than a second preset value and less than the first preset time The first preset value is used to acquire the physiological characteristic parameter of the user of the terminal.

 The terminal according to claim 13 or 14, wherein the current working mode of the terminal is a sleep mode, and the acquiring unit is configured to: if the motion acceleration is smaller than the first time in the first preset time period The preset value is used to obtain the physiological characteristic parameter of the user of the terminal, where the acquiring unit is configured to: if the motion acceleration is less than or equal to the second preset value in the first preset time, Obtaining a physiological characteristic parameter of the user of the terminal, where the second preset value is smaller than the first preset value.

The terminal according to any one of claims 11-17, wherein the physiological characteristic parameter acquired by the acquiring unit includes at least one of the following information: a heart rate value, a body temperature value, Breathing intensity.

 A terminal, comprising: a memory and a processor, the memory is configured to store code for executing a terminal working mode setting method; the processor is configured to invoke the code, and perform the following operations: acquiring the terminal a physiological characteristic parameter and a motion acceleration of the user; and determining a working mode corresponding to the physiological characteristic parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user; and determining the The physiological characteristic parameter and the working mode corresponding to the motion acceleration are set, and the current working mode of the terminal is set.

 The terminal according to claim 19, wherein the processor determines an operation mode corresponding to the physiological feature parameter and the motion acceleration according to a physiological characteristic parameter and a motion acceleration of the user, specifically The processor determines, according to the physiological characteristic parameter and the motion acceleration, the physiological characteristic parameter and a condition range to which the motion acceleration belongs; and the determined physiological characteristic parameter and the motion acceleration according to the determined The range of conditions determines the mode of operation corresponding to the range of conditions.

 The terminal according to claim 19 or 20, wherein the processor acquires a physiological characteristic parameter and a motion acceleration of a user of the terminal, specifically: the processor acquires a user of the terminal a motion acceleration; and if it is determined that the motion acceleration is less than the first preset value in the first preset time period, acquiring a physiological characteristic parameter of the user of the terminal.

 The terminal according to claim 21, wherein the processor determines an operation mode corresponding to the physiological feature parameter and the motion acceleration according to the physiological characteristic parameter and the motion acceleration of the user, specifically: The processor determines, if the physiological characteristic parameter belongs to the preset parameter range in the second preset time, determining that the working mode corresponding to the physiological feature parameter and the motion acceleration is a sleep mode; Determining, in the second preset time, that the physiological characteristic parameter does not belong to the preset parameter range, determining that the working mode corresponding to the physiological feature parameter and the motion acceleration is a non-wearing mode;

 The sleep mode indicates that the terminal detects sleep state information of the user, and the non-wearing mode indicates that the terminal is in a non-use state.

The terminal according to claim 21 or 22, wherein the processor, if it is determined that the motion acceleration is greater than or equal to the first preset value in the first preset time period, The terminal determines that the working mode of the terminal is a counting mode, and the counting mode indicates that the terminal detects motion state information of the user.

The terminal according to claim 21 or 22, wherein the current working mode of the terminal is a non-wearing mode, and the processor determines that the motion acceleration is less than the first preset time. And acquiring, by the first preset value, a physiological characteristic parameter of the user of the terminal, where the processor is configured to: if the motion acceleration is greater than the second preset value in the first preset time And less than the first preset value, acquiring a physiological characteristic parameter of a user of the terminal.

 The terminal according to claim 21 or 22, wherein the current working mode of the terminal is a sleep mode, and the processor determines that the motion acceleration is less than the first preset time The first preset value is used to obtain the physiological characteristic parameter of the user of the terminal, specifically: the processor, if it is determined that the motion acceleration is less than or equal to the second preset in the first preset time And obtaining a physiological characteristic parameter of the user of the terminal, where the second preset value is smaller than the first preset value.

 The terminal according to any one of claims 19-25, wherein the physiological characteristic parameter acquired by the processor comprises at least one of the following information: a heart rate value, a body temperature value, and a breathing intensity.

 The terminal according to claim 26, wherein the terminal further includes a photoplethysmography PPG, and the processor acquires a physiological characteristic parameter of a user of the terminal, specifically: the processor utilization The PPG obtains the heart rate value of the user of the terminal.

 The terminal according to any one of claims 19 to 27, wherein the terminal further includes a gravity sensor, and the processor acquiring the motion acceleration of the user of the terminal, including: the processor utilizing The gravity sensor acquires a motion acceleration of a user of the terminal.