CN115202461A - Wearable device control method and control device thereof, and wearable device - Google Patents

Abstract

The application discloses a control method and a control device of wearable equipment, the wearable equipment and a storage medium, the wearable equipment comprises a body and a detection component connected with the body, the body comprises a detection unit, and the control method comprises the following steps: detecting an operating mode of the wearable device; under the condition that the operation mode is a first mode, determining the detection component as a detection main body for acquiring human body characteristic data; and under the condition that the operation mode is the second mode, determining the detection unit as the detection subject for acquiring the human characteristic data. According to the control method of the wearable device, different components are determined to be used for acquiring the human body characteristic data by detecting the operation mode of the wearable device, the operation power consumption of the wearable device can be integrally reduced, the electric quantity resource is reasonably configured, and the endurance time of the wearable device is prolonged.

Description

Translated fromChinese

可穿戴设备的控制方法及其控制装置和可穿戴设备Wearable device control method and control device and wearable device

技术领域technical field

本申请涉及电子技术领域，特别涉及一种可穿戴设备的控制方法及其控制装置、可穿戴设备和存储介质。The present application relates to the field of electronic technology, and in particular, to a control method of a wearable device and a control device thereof, a wearable device and a storage medium.

背景技术Background technique

可穿戴设备如智能手环、智能手表、智能眼镜等越来越广泛的影响着人们的生活，尤其在健康管理方面，可穿戴设备通过对人体各项特征数据的检测，使人们更方便的掌握自身的身体状况。相关技术中，由于可穿戴设备需保持较小的体积，因此其电池容量通常较小。然而，较小的电池容量限制了可穿戴设备的续航时间，导致可穿戴设备的续航能力较差，用户使用体验较差。Wearable devices such as smart bracelets, smart watches, and smart glasses are increasingly affecting people's lives, especially in terms of health management. Wearable devices detect various characteristic data of the human body to make it easier for people to grasp. own physical condition. In the related art, since the wearable device needs to keep a small volume, its battery capacity is usually small. However, the small battery capacity limits the battery life of the wearable device, resulting in poor battery life of the wearable device and poor user experience.

发明内容SUMMARY OF THE INVENTION

本申请实施方式提供了一种可穿戴设备的控制方法、可穿戴设备的控制装置、可穿戴设备和存储介质。Embodiments of the present application provide a wearable device control method, a wearable device control device, a wearable device, and a storage medium.

本申请实施方式的可穿戴设备的控制方法，所述可穿戴设备包括本体和与所述本体连接的检测部件，所述本体包括检测单元，所述控制方法包括以下步骤：In the control method of a wearable device according to an embodiment of the present application, the wearable device includes a body and a detection component connected to the body, the body includes a detection unit, and the control method includes the following steps:

检测所述可穿戴设备的运行模式；detecting the operating mode of the wearable device;

在所述运行模式为第一模式的情况下，确定所述检测部件为检测主体以用于获取人体特征数据；和In the case that the operation mode is the first mode, determining that the detection component is a detection subject for acquiring human body characteristic data; and

在所述运行模式为第二模式的情况下，确定所述检测单元为所述检测主体以用于获取所述人体特征数据。When the operation mode is the second mode, it is determined that the detection unit is the detection subject for acquiring the human body feature data.

本申请实施方式的可穿戴设备的控制装置，所述控制装置包括：A control device for a wearable device according to an embodiment of the present application, the control device includes:

检测模块，所述检测模块用于检测所述可穿戴设备的运行模式；a detection module, the detection module is used to detect the operation mode of the wearable device;

数据获取模块，所述数据获取模块用于在所述运行模式为第一模式的情况下，确定所述检测部件为检测主体以用于获取人体特征数据；a data acquisition module, configured to determine that the detection component is a detection subject for acquiring human body feature data when the operating mode is the first mode;

所述数据获取模块还用于在所述运行模式为第二模式的情况下，确定所述检测单元为所述检测主体以用于获取所述人体特征数据。The data acquisition module is further configured to determine that the detection unit is the detection subject for acquiring the human body feature data when the operating mode is the second mode.

本申请实施方式的可穿戴设备，包括一个或多个处理器、存储器以及一个或多个计算机程序，其中，所述一个或多个计算机程序被存储在所述存储器中，所述计算机程序被所述一个或多个处理器执行时，实现上述任意实施方式所述的可穿戴设备的控制方法的指令。The wearable device according to the embodiment of the present application includes one or more processors, a memory, and one or more computer programs, wherein the one or more computer programs are stored in the memory, and the computer programs are stored in the memory. When executed by the one or more processors, the instructions for implementing the control method for the wearable device described in any of the foregoing embodiments are implemented.

本申请实施方式的非易失性计算机可读存储介质存储有计算机程序，当所述计算机程序被一个或多个处理器执行时，实现上述任意实施方式所述的可穿戴设备的控制方法的指令。The non-volatile computer-readable storage medium of the embodiments of the present application stores a computer program, and when the computer program is executed by one or more processors, instructions for implementing the control method for a wearable device described in any of the foregoing embodiments .

本申请实施方式的可穿戴设备的控制方法、控制装置、可穿戴设备和存储介质中，通过检测可穿戴设备的运行模式确定不同的部件用于获取人体特征数据，能够整体上降低可穿戴设备的运行功耗，合理配置电量资源，延长可穿戴设备的续航时间。In the control method, control device, wearable device, and storage medium of a wearable device according to the embodiments of the present application, by detecting the operation mode of the wearable device and determining different components for acquiring human body feature data, the wearable device can be reduced as a whole. Operating power consumption, reasonably allocate power resources, and prolong the battery life of wearable devices.

本申请的附加方面和优点将在下面的描述中部分给出，部分将从下面的描述中变得明显，或通过本申请的实践了解到。Additional aspects and advantages of the present application will be set forth, in part, from the following description, and in part will become apparent from the following description, or may be learned by practice of the present application.

附图说明Description of drawings

本申请的上述和/或附加的方面和优点从结合下面附图对实施方式的描述中将变得明显和容易理解，其中：The above and/or additional aspects and advantages of the present application will become apparent and readily understood from the following description of embodiments taken in conjunction with the accompanying drawings, wherein:

图1是本申请实施方式的可穿戴设备的控制方法的流程示意图。FIG. 1 is a schematic flowchart of a control method for a wearable device according to an embodiment of the present application.

图2是本申请实施方式的可穿戴设备的本体与检测部件的示意图。FIG. 2 is a schematic diagram of a body and a detection component of a wearable device according to an embodiment of the present application.

图3是本申请实施方式的可穿戴设备的结构示意图。FIG. 3 is a schematic structural diagram of a wearable device according to an embodiment of the present application.

图4是本申请实施方式的可穿戴设备的控制装置的模块示意图。FIG. 4 is a schematic block diagram of a control device of a wearable device according to an embodiment of the present application.

图5是本申请实施方式的可穿戴设备的控制方法的又一流程示意图。FIG. 5 is another schematic flowchart of a control method for a wearable device according to an embodiment of the present application.

图6是本申请实施方式的可穿戴设备的控制方法的又一流程示意图。FIG. 6 is another schematic flowchart of a control method for a wearable device according to an embodiment of the present application.

图7是本申请实施方式的可穿戴设备的控制方法的又一流程示意图。FIG. 7 is another schematic flowchart of a method for controlling a wearable device according to an embodiment of the present application.

图8是本申请实施方式的可穿戴设备的控制方法的又一流程示意图。FIG. 8 is another schematic flowchart of a method for controlling a wearable device according to an embodiment of the present application.

图9是本申请实施方式的可穿戴设备的控制方法的又一流程示意图。FIG. 9 is another schematic flowchart of a method for controlling a wearable device according to an embodiment of the present application.

图10是本申请实施方式的可穿戴设备的控制方法的又一流程示意图。FIG. 10 is another schematic flowchart of a method for controlling a wearable device according to an embodiment of the present application.

具体实施方式Detailed ways

下面详细描述本申请的实施方式，所述实施方式的示例在附图中示出，其中自始至终相同或类似的标号表示相同或类似的元件或具有相同或类似功能的元件。下面通过参考附图描述的实施方式是示例性的，仅用于解释本申请，而不能理解为对本申请的限制。Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary, only used to explain the present application, and should not be construed as a limitation on the present application.

请参阅图1和图2，本申请实施方式的可穿戴设备10的控制方法中，可穿戴设备10包括本体12和与本体12连接的检测部件14，本体12包括检测单元121，控制方法包括以下步骤：Referring to FIGS. 1 and 2 , in the control method of thewearable device 10 according to the embodiment of the present application, thewearable device 10 includes amain body 12 and adetection component 14 connected to themain body 12 , themain body 12 includes adetection unit 121 , and the control method includes the following step:

S10：检测可穿戴设备10的运行模式；S10: Detect the operating mode of thewearable device 10;

S20：在运行模式为第一模式的情况下，确定检测部件14为检测主体以用于获取人体特征数据；和S20: in the case that the operation mode is the first mode, determine that thedetection component 14 is the detection subject for acquiring human body feature data; and

S30：在运行模式为第二模式的情况下，确定检测单元121为检测主体以用于获取人体特征数据。S30: When the operating mode is the second mode, determine that thedetection unit 121 is the detection subject for acquiring human body feature data.

请参阅图3，本申请实施方式还提供了一种可穿戴设备10。可穿戴设备10包括处理器102和存储器104，存储器104存储有计算机程序106，计算机程序106被处理器102执行时实现本申请实施方式的可穿戴设备10的控制方法，也即是说，处理器102可用于检测可穿戴设备10的运行模式，用于在运行模式为第一模式的情况下，确定检测部件14为检测主体以用于获取人体特征数据，以及用于在运行模式为第二模式的情况下，确定检测单元121为检测主体以用于获取人体特征数据。Referring to FIG. 3 , an embodiment of the present application further provides awearable device 10 . Thewearable device 10 includes aprocessor 102 and amemory 104. Thememory 104 stores acomputer program 106. When thecomputer program 106 is executed by theprocessor 102, the control method of thewearable device 10 according to the embodiment of the present application is implemented, that is, theprocessor 102 can be used to detect the operation mode of thewearable device 10, to determine that thedetection component 14 is the detection subject when the operation mode is the first mode, and to be used to obtain the human body feature data when the operation mode is the second mode. In the case of , it is determined that thedetection unit 121 is a detection subject for acquiring human body feature data.

请参阅图4，本申请实施方式还提供了一种可穿戴设备10的控制装置110。本申请实施方式的可穿戴设备10的控制方法可以由控制装置110实现。控制装置110包括检测模块112和数据获取模块114。S10可以由检测模块112实现，S20和S30可以由数据获取模块114实现。也即是说，检测模块112可用于检测可穿戴设备10的运行模式，数据获取模块114可用于在运行模式为第一模式的情况下，确定检测部件14为检测主体以用于获取人体特征数据，以及用于在运行模式为第二模式的情况下，确定检测单元121为检测主体以用于获取人体特征数据以减小可穿戴设备10的功耗。Referring to FIG. 4 , an embodiment of the present application further provides acontrol device 110 of thewearable device 10 . The control method of thewearable device 10 according to the embodiment of the present application may be implemented by thecontrol apparatus 110 . Thecontrol device 110 includes adetection module 112 and adata acquisition module 114 . S10 may be implemented by thedetection module 112 , and S20 and S30 may be implemented by thedata acquisition module 114 . That is to say, thedetection module 112 can be used to detect the operation mode of thewearable device 10, and thedata acquisition module 114 can be used to determine that thedetection component 14 is the detection subject when the operation mode is the first mode, so as to obtain the human body characteristic data. , and is used to determine that thedetection unit 121 is a detection subject for acquiring human body feature data to reduce the power consumption of thewearable device 10 when the operating mode is the second mode.

具体地，可穿戴设备10可以是智能手环、智能手表、智能项链、智能戒指等等，具体不做限定。下文以智能手表为例进行说明。Specifically, thewearable device 10 may be a smart bracelet, a smart watch, a smart necklace, a smart ring, etc., which is not specifically limited. The following uses a smart watch as an example.

可穿戴设备10包括本体12和与本体12连接的检测部件14，其中，本体12还包括检测单元121。相较于检测单元121，检测部件14的运行功耗较高，但检测部件14检测的数据更精确。检测单元121的运行功耗较低。因此，在可穿戴设备10使用检测单元121获取人体特征数据的情况下，能够降低可穿戴设备10的功耗。在可穿戴设备10使用检测部件14获取人体特征数据的情况下，能够提高人体特征数据的检测精度。Thewearable device 10 includes abody 12 and adetection component 14 connected to thebody 12 , wherein thebody 12 further includes adetection unit 121 . Compared with thedetection unit 121, the operation power consumption of thedetection component 14 is higher, but the data detected by thedetection component 14 is more accurate. The operating power consumption of thedetection unit 121 is low. Therefore, in the case where thewearable device 10 uses thedetection unit 121 to acquire human body characteristic data, the power consumption of thewearable device 10 can be reduced. In the case where thewearable device 10 uses thedetection part 14 to acquire the human body characteristic data, the detection accuracy of the human body characteristic data can be improved.

进一步地，可穿戴设备10可以是双系统架构，也即是基于两个处理器芯片的硬件架构，其中每一个处理器都运行一个独立的操作系统，例如大核系统和小核系统。两个操作系统之间互相交互，实现可穿戴设备10的功能。可穿戴设备10的运行模式可以包括第一模式和第二模式，其中，第一模式可以运行小核系统，在小核系统运行的情况下，可穿戴设备10的运行功耗可以较低。第二模式可以运行大核系统，在大核系统运行的情况下，可穿戴设备10的运行功耗可以较高。Further, thewearable device 10 may be a dual-system architecture, that is, a hardware architecture based on two processor chips, wherein each processor runs an independent operating system, such as a large-core system and a small-core system. The two operating systems interact with each other to implement the functions of thewearable device 10 . The operating modes of thewearable device 10 may include a first mode and a second mode, wherein the first mode may run the small core system, and in the case of running the small core system, the running power consumption of thewearable device 10 may be lower. The second mode can run the large-core system, and in the case of running the large-core system, the operating power consumption of thewearable device 10 can be relatively high.

检测可穿戴设备10的运行模式，在第一模式运行的情况下，确定检测部件14为检测主体以用于获取人体特征数据可提高检测精度。在运行模式为第二模式的情况下，确定检测单元121为检测主体以用于获取人体特征数据可减小可穿戴设备10的功耗。如此，通过检测可穿戴设备10的运行模式确定不同的部件用于获取人体特征数据，能够整体上降低可穿戴设备10的运行功耗，合理配置可穿戴设备10的电量资源，延长续航时间，优化用户体验。The operation mode of thewearable device 10 is detected, and in the case of operation in the first mode, the detection accuracy can be improved by determining thedetection component 14 as the detection subject for acquiring the human body feature data. When the operating mode is the second mode, determining that thedetection unit 121 is the detection subject for acquiring the human body feature data can reduce the power consumption of thewearable device 10 . In this way, by detecting the operating mode of thewearable device 10 and determining different components for acquiring human body characteristic data, the operating power consumption of thewearable device 10 can be reduced as a whole, the power resources of thewearable device 10 can be reasonably configured, the battery life can be extended, and the optimization can be achieved. user experience.

在某些实施方式中，检测部件14与本体12通过无线通信连接。In some embodiments, thedetection component 14 is connected to thebody 12 by wireless communication.

具体地，可穿戴设备10的控制装置110包括无线通信模块116，也即是说，无线通信模块116用于连接可穿戴设备10的检测部件10和本体12。如此，检测部件14与本体12通过无线通信连接以传输人体特征数据以及传输用于控制检测部件14开启或关闭等相应的控制指令，例如可以通过蓝牙、蜂窝网络、Wi-Fi等方式连接，具体不做限定。Specifically, thecontrol device 110 of thewearable device 10 includes awireless communication module 116 , that is, thewireless communication module 116 is used to connect thedetection component 10 of thewearable device 10 and thebody 12 . In this way, thedetection part 14 and themain body 12 are connected by wireless communication to transmit human body feature data and transmit corresponding control instructions for controlling thedetection part 14 to be turned on or off. For example, it can be connected through Bluetooth, cellular network, Wi-Fi, etc. Not limited.

在一些实施例中，检测部件14与本体12通过蓝牙进行连接。蓝牙可以是低功耗蓝牙(Bluetooth Low Energy，BLE)，相较于经典蓝牙，通过BLE可以在保持同等通信范围内进一步降低本体12和检测部件14的电量消耗情况。同时，蓝牙模块的成本较低，通过蓝牙互连也可以降低生产成本。In some embodiments, thedetection component 14 and thebody 12 are connected via Bluetooth. The Bluetooth may be Bluetooth Low Energy (Bluetooth Low Energy, BLE). Compared with classic Bluetooth, the power consumption of themain body 12 and thedetection component 14 can be further reduced through BLE while maintaining the same communication range. At the same time, the cost of the Bluetooth module is low, and the production cost can also be reduced through the Bluetooth interconnection.

在另一些实施例中，检测部件14与本体12通过蜂窝网络进行连接。蜂窝网络的数据传输量较大，可靠性更佳，通过蜂窝网络互连能够确保人体特征数据传输的准确与快捷。In other embodiments, thedetection component 14 and thebody 12 are connected through a cellular network. The data transmission volume of the cellular network is larger and the reliability is better, and the interconnection through the cellular network can ensure the accuracy and speed of the transmission of the human body characteristic data.

当然，检测部件14和本体12不限于无线通信连接，还可以根据实际情况采用有线通信的方式连接，在此不做具体限定。Of course, thedetection component 14 and themain body 12 are not limited to the wireless communication connection, and may also be connected by wired communication according to the actual situation, which is not specifically limited here.

在某些实施方式中，人体特征数据至少包括血压、血氧、心率的其中一个或多个。In some embodiments, the body characteristic data includes at least one or more of blood pressure, blood oxygen, and heart rate.

具体地，人体特征数据可以包括血压、血氧、心率、人体活动量、人体行进轨迹、人体活动距离等其中一个或多个。Specifically, the human body feature data may include one or more of blood pressure, blood oxygen, heart rate, amount of human activity, human travel trajectory, and human activity distance.

进一步地，检测部件14和检测单元121中可以设置集成的传感器统一检测人体特征数据，也可以设置多个传感器，多个传感器分别对应检测相应的人体特征数据。Further, thedetection component 14 and thedetection unit 121 may be provided with integrated sensors to uniformly detect the human body feature data, or multiple sensors may be provided, and the multiple sensors may respectively detect corresponding human body feature data.

在一些实施例中，检测部件14和检测单元121中设置了多个传感器，包括血压传感器、血氧传感器、心率传感器、运动传感器、加速度传感器、陀螺仪等。等在人体特征数据为血压的情况下，检测部件14或检测单元121中使用的传感器为血压传感器。在人体特征数据为血氧的情况下，检测部件14或检测单元121中使用的传感器为血氧传感器。在人体特征数据为心率的情况下，检测部件14或检测单元121中使用的传感器为心率传感器。在人体特征数据为人体行进轨迹、人体活动距离的情况下，检测部件14或检测单元121中使用的传感器为运动传感器。In some embodiments, thedetection component 14 and thedetection unit 121 are provided with multiple sensors, including a blood pressure sensor, a blood oxygen sensor, a heart rate sensor, a motion sensor, an acceleration sensor, a gyroscope, and the like. In the case where the human body characteristic data is blood pressure, the sensor used in thedetection part 14 or thedetection unit 121 is a blood pressure sensor. When the human body characteristic data is blood oxygen, the sensor used in thedetection part 14 or thedetection unit 121 is a blood oxygen sensor. When the human characteristic data is the heart rate, the sensor used in thedetection part 14 or thedetection unit 121 is a heart rate sensor. In the case where the human body feature data is the human body travel trajectory and the human body movement distance, the sensor used in thedetection component 14 or thedetection unit 121 is a motion sensor.

需要说明地，当需要检测的人体特征数据为单项时，可通过对应的传感器进行检测，并关闭其他未使用的传感器。当需要检测人体的多项特征数据时，通过多个特征数据对应的传感器进行检测，关闭其他未使用的传感器。It should be noted that when the human body feature data to be detected is a single item, the corresponding sensor can be used for detection, and other unused sensors can be turned off. When multiple feature data of the human body needs to be detected, the sensor corresponding to the multiple feature data is used for detection, and other unused sensors are turned off.

如此，能够尽可能地降低可穿戴设备10的功耗，保障可穿戴设备10的续航能力，优化用户体验。In this way, the power consumption of thewearable device 10 can be reduced as much as possible, the battery life of thewearable device 10 can be guaranteed, and the user experience can be optimized.

请参阅图5，在某些实施方式中，S10包括：Referring to FIG. 5, in some embodiments, S10 includes:

S11：实时检测可穿戴设备10的运行模式以用于确定检测主体；S11: Detect the running mode of thewearable device 10 in real time to determine the detection subject;

控制方法包括：Control methods include:

S40：根据用户输入确定是否进行数据检测；S40: Determine whether to perform data detection according to user input;

S50：在进行数据检测的情况下，通过确定的检测主体获取人体特征数据。S50: In the case of performing data detection, obtain human body feature data through the determined detection subject.

相应地，对于可穿戴设备10，处理器102可用于实时检测可穿戴设备10的运行模式以用于确定检测主体。处理器102还可用于根据用户输入确定是否进行数据检测，以及用于在进行数据检测的情况下，通过确定的检测主体获取人体特征数据。Correspondingly, for thewearable device 10, theprocessor 102 can be used to detect the operation mode of thewearable device 10 in real time for determining the detection subject. Theprocessor 102 is further configured to determine whether to perform data detection according to user input, and to obtain human body feature data through the determined detection subject in the case of data detection.

对于可穿戴设备10的控制装置110，S11可以由检测模块112实现，S40和S50可以由数据获取模块114实现，也即是说，检测模块112可用于实时检测可穿戴设备10的运行模式以用于确定检测主体。数据获取模块114可用于根据用户输入确定是否进行数据检测，以及用于在进行数据检测的情况下，通过确定的检测主体获取人体特征数据。For thecontrol device 110 of thewearable device 10, S11 can be implemented by thedetection module 112, S40 and S50 can be implemented by thedata acquisition module 114, that is to say, thedetection module 112 can be used to detect the running mode of thewearable device 10 in real time to use to determine the detection subject. Thedata acquisition module 114 may be configured to determine whether to perform data detection according to user input, and to acquire human body feature data through the determined detection subject when data detection is performed.

可以理解，用户可通过输入控制指令来确定是否进行数据检测以获取人体特征数据，例如，通过输入控制指令来确定获取哪一项人体特征数据，进而控制可穿戴设备10开启相应的传感器以采集人体特征数据。而可穿戴设备10可以实时自身的运行模式以确定当前运行状态下应该采用哪个部件作为检测主体用于获取人体特征数据，即实时确定检测主体。在确定检测主体后，若接收到用户输入，则可直接通过确定的检测主体获取人体特征数据。即在可穿戴设备10的运行模式为第一模式的情况下，通过检测部件14获取人体特征数据，以及在可穿戴设备10的运行模式为第二模式的情况下，通过检测单元121获取人体特征数据。It can be understood that the user can determine whether to perform data detection to obtain human body feature data by inputting a control command, for example, by inputting a control command to determine which human body feature data to obtain, and then control thewearable device 10 to turn on the corresponding sensor to collect human body feature data. characteristic data. On the other hand, thewearable device 10 can determine which component should be used as the detection subject to acquire the human body feature data in real time by its own running mode in real time, that is, determine the detection subject in real time. After the detection subject is determined, if a user input is received, the human body feature data can be directly obtained through the determined detection subject. That is, when the operation mode of thewearable device 10 is the first mode, the human body characteristic data is obtained through thedetection component 14, and when the operation mode of thewearable device 10 is the second mode, the human body characteristic data is obtained through thedetection unit 121. data.

请参阅图6，在某些实施方式中，S10包括：Referring to FIG. 6, in some embodiments, S10 includes:

S12：根据用户输入确定是否进行数据检测；S12: Determine whether to perform data detection according to user input;

S13：在进行数据检测的情况下，检测可穿戴设备10的运行模式以用于确定检测主体；S13: In the case of performing data detection, the operation mode of thewearable device 10 is detected to determine the detection subject;

控制方法包括：Control methods include:

S60：通过确定的检测主体获取人体特征数据。S60: Obtain human body feature data through the determined detection subject.

相应地，对于可穿戴设备10，处理器102可用于根据用户输入确定是否进行数据检测，以及用于在进行数据检测的情况下，检测可穿戴设备10的运行模式以用于确定检测主体。处理器102还可用于通过确定的检测主体获取人体特征数据。Correspondingly, for thewearable device 10, theprocessor 102 can be used to determine whether to perform data detection according to the user input, and to detect the operation mode of thewearable device 10 to determine the detection subject when the data detection is performed. Theprocessor 102 can also be used to obtain human body feature data through the determined detection subject.

对于可穿戴设备10的控制装置110，S12和S13可以由检测模块112实现，S60可以由数据获取模块114实现，也即是说，检测模块112可用于根据用户输入确定是否进行数据检测，以及用于在进行数据检测的情况下，检测可穿戴设备10的运行模式以用于确定检测主体。数据获取模块114可用于通过确定的检测主体获取人体特征数据。For thecontrol device 110 of thewearable device 10, S12 and S13 can be implemented by thedetection module 112, and S60 can be implemented by thedata acquisition module 114, that is, thedetection module 112 can be used to determine whether to perform data detection according to user input, and use In the case of data detection, the operation mode of thewearable device 10 is detected to determine the detection subject. Thedata acquisition module 114 can be used to acquire human body feature data through the determined detection subject.

可以理解，可穿戴设备10可以不需要实时检测本体12的运行功耗，而根据用户输入确定进入数据检测后，再检测可穿戴设备10的运行模式以确定检测主体，进而在确定检测主体之后，根据确定的检测主体获取人体特征数据。即在可穿戴设备10的运行模式为第一模式的情况下，通过检测部件14获取人体特征数据，以及在可穿戴设备10的运行模式为第二模式的情况下，通过检测单元121获取人体特征数据。如此，可以减少电量检测的频率。It can be understood that thewearable device 10 does not need to detect the running power consumption of thebody 12 in real time, and after determining the data detection according to the user input, the running mode of thewearable device 10 is detected to determine the detection subject, and then after the detection subject is determined, The human body feature data is acquired according to the determined detection subject. That is, when the operation mode of thewearable device 10 is the first mode, the human body characteristic data is obtained through thedetection component 14, and when the operation mode of thewearable device 10 is the second mode, the human body characteristic data is obtained through thedetection unit 121. data. In this way, the frequency of battery detection can be reduced.

请参阅图7，在某些实施方式中，控制方法可包括：Referring to FIG. 7, in some embodiments, the control method may include:

S70：在通过检测单元121获取人体特征数据的情况下检测到可穿戴设备10启动第一模式，则将检测主体切换为检测部件14并通过检测部件14获取人体特征数据；S70: when it is detected that thewearable device 10 starts the first mode when the human body feature data is acquired by thedetection unit 121, the detection subject is switched to thedetection component 14 and the human body feature data is acquired through thedetection component 14;

S80：在通过检测部件14获取人体特征数据的情况下检测到可穿戴设备10启动第二模式，则将检测主体切换为检测单元121并通过检测单元121获取人体特征数据。S80 : When it is detected that thewearable device 10 starts the second mode when the human body feature data is acquired by thedetection component 14 , the detection subject is switched to thedetection unit 121 and the human body feature data is acquired through thedetection unit 121 .

相应地，对于可穿戴设备10，处理器102可用于在通过检测单元121获取人体特征数据的情况下检测到可穿戴设备10启动第一模式，则将检测主体切换为检测部件14并通过检测部件14获取人体特征数据，以及用于在通过检测部件14获取人体特征数据的情况下检测到可穿戴设备10启动第二模式，则将检测主体切换为检测单元121并通过检测单元121获取人体特征数据。Correspondingly, for thewearable device 10, theprocessor 102 can be configured to detect that thewearable device 10 starts the first mode when the human body feature data is acquired through thedetection unit 121, then switch the detection subject to thedetection component 14 and pass thedetection component 14. Obtaining the human body feature data, and for detecting that thewearable device 10 starts the second mode under the condition that the human body feature data is acquired by thedetection part 14, then the detection subject is switched to thedetection unit 121 and the human body feature data is obtained through thedetection unit 121. .

对于可穿戴设备10的控制装置110，S70和S80可以由数据获取模块114实现，也即是说，数据获取模块114可用于在通过检测单元121获取人体特征数据的情况下检测到可穿戴设备10启动第一模式，则将检测主体切换为检测部件14并通过检测部件14获取人体特征数据，以及用于在通过检测部件14获取人体特征数据的情况下检测到可穿戴设备10启动第一模式，则将检测主体切换为检测单元121并通过检测单元121获取人体特征数据。For thecontrol device 110 of thewearable device 10, S70 and S80 can be implemented by thedata acquisition module 114, that is, thedata acquisition module 114 can be used to detect thewearable device 10 when the human body feature data is acquired by thedetection unit 121. When the first mode is activated, the detection subject is switched to thedetection part 14 and the human body feature data is obtained through thedetection part 14, and the first mode is activated when thewearable device 10 is detected when the human body feature data is obtained through thedetection part 14, Then, the detection subject is switched to thedetection unit 121 and the human body feature data is acquired through thedetection unit 121 .

如此，在人体特征数据获取的过程中，可穿戴设备10可以实时检测可穿戴设备10是否启动新的运行模式，并根据可穿戴设备10启动的运行模式确定是否切换检测主体，有利于降低可穿戴设备10的运行功耗，合理配置电量资源，延长可穿戴设备10的续航时间，优化用户体验。In this way, in the process of acquiring the human body characteristic data, thewearable device 10 can detect in real time whether thewearable device 10 starts a new operation mode, and determine whether to switch the detection subject according to the operation mode started by thewearable device 10, which is beneficial to reduce the wearability of thewearable device 10. The operating power consumption of thedevice 10, the power resources are reasonably allocated, the battery life of thewearable device 10 is prolonged, and the user experience is optimized.

请参阅图8，在某些实施方式中，控制方法可包括：Referring to FIG. 8, in some embodiments, the control method may include:

S72：在可穿戴设备10启动第一模式时，广播第一控制指令以控制检测单元121关闭及控制检测部件14开启以将检测主体切换为检测部件14；S72: When thewearable device 10 starts the first mode, broadcast a first control instruction to control thedetection unit 121 to be turned off and thedetection unit 14 to be turned on to switch the detection body to thedetection unit 14;

S82：在可穿戴设备10启动第二模式时，广播第二控制指令以控制检测部件14关闭及控制检测单元121开启以将检测主体切换为检测单元121。S82 : When thewearable device 10 starts the second mode, broadcast a second control instruction to control thedetection component 14 to be turned off and thedetection unit 121 to be turned on to switch the detection subject to thedetection unit 121 .

相应地，对于可穿戴设备10，处理器102可用于在可穿戴设备10启动第一模式时，广播第一控制指令以控制检测单元121关闭及控制检测部件14开启以将检测主体切换为检测部件14，以及用于在可穿戴设备10启动第二模式时，广播第二控制指令以控制检测部件14关闭及控制检测单元121开启以将检测主体切换为检测单元121。Correspondingly, for thewearable device 10, theprocessor 102 can be configured to broadcast a first control instruction to control thedetection unit 121 to turn off and to control thedetection component 14 to turn on to switch the detection subject to the detection component when thewearable device 10 starts thefirst mode 14, and for broadcasting a second control instruction to control thedetection component 14 to be turned off and to control thedetection unit 121 to be turned on to switch the detection body to thedetection unit 121 when thewearable device 10 starts the second mode.

对于可穿戴设备10的控制装置110，S72和S82可以由数据获取模块114实现，也即是说，数据获取模块114可用于在可穿戴设备10启动第一模式时，广播第一控制指令以控制检测单元121关闭及控制检测部件14开启以将检测主体切换为检测部件14，以及用于在可穿戴设备10启动第二模式时，广播第二控制指令以控制检测部件14关闭及控制检测单元121开启以将检测主体切换为检测单元121。For thecontrol device 110 of thewearable device 10, S72 and S82 can be implemented by thedata acquisition module 114, that is to say, thedata acquisition module 114 can be used to broadcast the first control instruction to control thewearable device 10 when the first mode is activated. Thedetection unit 121 is turned off and thedetection unit 14 is turned on to switch the detection body to thedetection unit 14, and when thewearable device 10 starts the second mode, the second control command is broadcast to control thedetection unit 14 to be turned off and to control thedetection unit 121 Turn on to switch the detection subject to thedetection unit 121 .

如此，可穿戴设备10在切换运行模式时，可以通过系统广播消息发送控制指令从而控制检测单元121和检测部件14的开启或关闭，实现检测主体的转换，降低可穿戴设备10的运行功耗，合理配置电量资源，延长可穿戴设备10的续航时间。In this way, when thewearable device 10 switches the operating mode, it can send a control command through the system broadcast message to control the opening or closing of thedetection unit 121 and thedetection component 14, realize the conversion of the detection subject, and reduce the running power consumption of thewearable device 10. Reasonable allocation of power resources extends the battery life of thewearable device 10 .

请参阅图9，在某些实施方式中，S2可包括：Referring to Figure 9, in some embodiments, S2 may include:

S22：在运行模式为第一模式的情况下，通过检测部件14获取人体特征数据，并根据检测部件14的当前电量确定获取人体特征数据的获取频率和/或获取数据量。S22 : When the operation mode is the first mode, obtain the human body feature data through thedetection component 14 , and determine the acquisition frequency and/or the amount of the acquired data according to the current power of thedetection component 14 .

在某些实施方式中，S22可以由数据获取模块实现114。也即是说，数据获取模块114可用于在运行模式为第一模式的情况下，通过检测部件14获取人体特征数据，并根据检测部件14的当前电量确定获取人体特征数据的获取频率和/或获取数据量。In some embodiments, S22 may be implemented 114 by a data acquisition module. That is to say, thedata acquisition module 114 can be used to acquire the human body feature data through thedetection component 14 when the operating mode is the first mode, and determine the acquisition frequency and/or the acquisition frequency of the human body feature data according to the current power of thedetection component 14. Get the amount of data.

在某些实施方式中，处理器102可用于在运行模式为第一模式的情况下，通过检测部件14获取人体特征数据，并根据检测部件14的当前电量确定获取人体特征数据的获取频率和/或获取数据量。In some embodiments, theprocessor 102 may be configured to acquire the human body feature data through thedetection component 14 when the operating mode is the first mode, and determine the acquisition frequency and/or the acquisition frequency of the human body feature data according to the current battery level of thedetection component 14 or get the amount of data.

具体地，检测部件14与本体12均设置有独立的电池。在运行模式为第一模式的情况下，通过检测部件14获取人体特征数据后，还可以根据检测部件14的当前电量确定检测部件14的获取频率和/或获取数据量。在检测部件14的当前电量低于预定电量阈值的情况下，控制检测部件14检测人体特征数据的频率较低，获取数据量较少。Specifically, thedetection component 14 and themain body 12 are both provided with independent batteries. When the operation mode is the first mode, after acquiring the human body feature data through thedetection component 14 , the acquisition frequency and/or the acquired data amount of thedetection component 14 may also be determined according to the current power of thedetection component 14 . When the current power level of thedetection unit 14 is lower than the predetermined power level threshold, thedetection unit 14 is controlled to detect the human body feature data less frequently and acquire less data.

如此，能够根据电量使用情况调整检测部件14和检测单元121的工作状态，进一步降低可穿戴设备10的运行功耗，合理配置电量资源，延长可穿戴设备10的续航时间。In this way, the working states of thedetection component 14 and thedetection unit 121 can be adjusted according to the power usage, further reducing the running power consumption of thewearable device 10 , rationally configuring power resources, and prolonging the battery life of thewearable device 10 .

需要说明地，预定电量阈值可以根据用户设定、可穿戴设备的类型、使用场景、处理器性能等参数设定，具体不做限定，例如可以是30％、50％、60％等。也可以设定多个预定电量阈值，在对应的电量区间分阶段地降低获取频率和减少获取数据量。It should be noted that the predetermined power threshold can be set according to parameters such as user settings, wearable device type, usage scenarios, processor performance, etc., which are not specifically limited. For example, it can be 30%, 50%, 60%, and the like. Multiple predetermined power thresholds may also be set, and the acquisition frequency and the amount of acquired data may be reduced in stages in the corresponding power interval.

在一些实施例中，运行模式为第一模式，通过检测部件14获取人体特征数据。此时检测部件14的当前电量为30％，则确定检测部件14的获取频率下降20％。In some embodiments, the operation mode is the first mode, and the human body characteristic data is acquired by thedetection component 14 . At this time, the current power of thedetection part 14 is 30%, and it is determined that the acquisition frequency of thedetection part 14 is decreased by 20%.

如此，能够根据电量使用情况调整检测部件14的工作状态，进一步降低可穿戴设备10的运行功耗，合理配置电量资源，延长可穿戴设备10的续航时间。In this way, the working state of thedetection component 14 can be adjusted according to the power usage, the running power consumption of thewearable device 10 can be further reduced, the power resources can be reasonably allocated, and the battery life of thewearable device 10 can be prolonged.

在某些实施方式中，对于多个预定电量阈值，在检测部件14的电量小于最小预定电量阈值的情况下，将检测主体切换为检测单元121以通过检测单元121获取人体特征数据。In some embodiments, for multiple predetermined power thresholds, when the power of thedetection component 14 is less than the minimum predetermined power threshold, the detection subject is switched to thedetection unit 121 to obtain the human body feature data through thedetection unit 121 .

如此，通过检测检测部件14的电量是否小于最小预设电量阈值来判断检测部件14是否能够正常执行获取人体特征数据的任务，其中，检测部件14的电量小于最小预设电量阈值，表示检测部件114的电量不足以支撑检测部件114继续获取人体特征数据，从而即使在可穿戴设备10运行第一模式的情况下也将检测主体切换为检测单元121，仍然通过检测单元121获取人体特征数据，保证人体特征数据的正常获取。In this way, it is determined whether thedetection unit 14 can normally perform the task of acquiring the human body feature data by detecting whether the power of thedetection unit 14 is less than the minimum preset power threshold. The amount of electricity is not enough to support thedetection part 114 to continue to acquire the human body feature data, so even if thewearable device 10 is running the first mode, the detection main body is switched to thedetection unit 121, and the human body feature data is still obtained through thedetection unit 121 to ensure that the human body is Normal acquisition of characteristic data.

在某些实施方式中，S3可包括：In certain embodiments, S3 may include:

S32：在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据，并根据本体12的当前电量确定获取人体特征数据的获取频率和/或获取数据量。S32 : When the operating mode is the second mode, obtain the human body feature data through thedetection unit 121 , and determine the acquisition frequency and/or the amount of data obtained according to the current power level of themain body 12 .

在某些实施方式中，S32可以由数据获取模块实现114。也即是说，数据获取模块114可用于在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据，并根据本体12的当前电量确定获取人体特征数据的获取频率和/或获取数据量。In some embodiments, S32 may be implemented 114 by a data acquisition module. That is to say, thedata acquisition module 114 can be used to acquire the human body feature data through thedetection unit 121 when the operating mode is the second mode, and determine the acquisition frequency and/or acquisition frequency of the human body feature data according to the current power of themain body 12. The amount of data.

在某些实施方式中，处理器102可用于在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据，并根据本体12的当前电量确定获取人体特征数据的获取频率和/或获取数据量。In some embodiments, theprocessor 102 may be configured to acquire the human body feature data through thedetection unit 121 when the operating mode is the second mode, and determine the acquisition frequency and/or the acquisition frequency of acquiring the human body feature data according to the current battery level of themain body 12 Get the amount of data.

具体地，与前述实施方式相类似，在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据，可以根据本体12的当前电量确定获取人体特征数据的获取频率和/或获取数据量，此处不再赘述。Specifically, similar to the foregoing embodiment, when the operating mode is the second mode, thedetection unit 121 acquires the human body feature data, and the acquisition frequency and/or the acquisition data of the human body feature data can be determined according to the current battery level of themain body 12 quantity, which will not be repeated here.

如此，能够根据电量使用情况调整检测单元121的工作状态，进一步降低可穿戴设备10的运行功耗，合理配置电量资源，延长可穿戴设备10的续航时间。In this way, the working state of thedetection unit 121 can be adjusted according to the power usage, the running power consumption of thewearable device 10 can be further reduced, the power resources can be reasonably allocated, and the battery life of thewearable device 10 can be prolonged.

在某些实施方式中，S3可包括：In certain embodiments, S3 may include:

S34：在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据，并根据可穿戴设备10是否正在运行高功耗模块确定获取频率和/或获取数据量。S34: When the operation mode is the second mode, acquire human body feature data through thedetection unit 121, and determine the acquisition frequency and/or the acquired data amount according to whether thewearable device 10 is running the high power consumption module.

在某些实施方式中，S34可以由数据获取模块实现114。也即是说，数据获取模块114可用于在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据，并根据可穿戴设备10是否正在运行高功耗模块确定获取频率和/或获取数据量。In some embodiments, S34 may be implemented 114 by a data acquisition module. That is to say, thedata acquisition module 114 can be used to acquire the human body feature data through thedetection unit 121 when the operation mode is the second mode, and determine the acquisition frequency and/or the acquisition frequency according to whether thewearable device 10 is running the high power consumption module. Get the amount of data.

在某些实施方式中，处理器102可用于在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据，并根据可穿戴设备10是否正在运行高功耗模块确定获取频率和/或获取数据量。In some embodiments, theprocessor 102 may be configured to acquire the human body feature data through thedetection unit 121 when the operation mode is the second mode, and determine the acquisition frequency and/or the acquisition frequency according to whether thewearable device 10 is running the high power consumption module. or get the amount of data.

具体地，在运行模式为第二模式的情况下，通过检测单元121获取人体特征数据后，还可以根据可穿戴设备10是否正在运行高功耗模块，例如WiFi模块、嵌入式SIM模块、屏幕模块等，来确定获取频率和/或获取数据量。Specifically, when the operating mode is the second mode, after acquiring the human body feature data through thedetection unit 121, it is also possible to determine whether thewearable device 10 is running a high power consumption module, such as a WiFi module, an embedded SIM module, or a screen module. etc., to determine the acquisition frequency and/or the amount of acquired data.

在一些实施例中，在运行模式为第二模式的情况下，可穿戴设备10正在运行屏幕模块，由于屏幕模块的运行功耗较高，因此，此时检测单元121检测人体特征数据的频率相对未运行高功耗模块时较低，获取数据量较少。In some embodiments, when the running mode is the second mode, thewearable device 10 is running the screen module. Since the running power consumption of the screen module is relatively high, the frequency at which thedetection unit 121 detects the human body feature data is relatively high. Lower when no high-power modules are running, and less data is acquired.

如此，能够根据可穿戴设备10的模块运行情况调整检测单元121的工作状态，进一步降低可穿戴设备10的运行功耗，合理配置电量资源，延长可穿戴设备10的续航时间。In this way, the working state of thedetection unit 121 can be adjusted according to the operating conditions of the modules of thewearable device 10 , further reducing the running power consumption of thewearable device 10 , reasonably configuring power resources, and prolonging the battery life of thewearable device 10 .

请参阅图10，在某些实施方式中，控制方法包括：Referring to FIG. 10, in some embodiments, the control method includes:

S01：根据用户输入控制可穿戴设备10的运行模式。S01: Control the operation mode of thewearable device 10 according to user input.

在某些实施方式中，S01可以由数据获取模块实现114。也即是说，数据获取模块114可用于根据用户输入控制可穿戴设备10的运行模式。In some embodiments, S01 may be implemented 114 by a data acquisition module. That is, thedata acquisition module 114 may be used to control the operating mode of thewearable device 10 according to the user input.

在某些实施方式中，处理器102可用于根据用户输入控制可穿戴设备10的运行模式。In some embodiments, theprocessor 102 may be used to control the operating mode of thewearable device 10 based on user input.

具体地，可以根据用户输入控制可穿戴设备10的运行模式，进而根据可穿戴设备10的运行模式选择通过检测部件14或检测单元121获取人体特征数据。也即是说，在用户手动选择运行模式为第二模式的情况下，通过检测单元121获取人体特征数据。在用户手动选择运行模式为第一模式的情况下，通过检测部件14获取人体特征数据。Specifically, the operation mode of thewearable device 10 may be controlled according to the user input, and then thedetection component 14 or thedetection unit 121 may select to acquire the human body feature data according to the operation mode of thewearable device 10 . That is to say, when the user manually selects the operation mode as the second mode, the human body feature data is acquired through thedetection unit 121 . When the user manually selects the operation mode as the first mode, the human body feature data is acquired by thedetection unit 14 .

如此，能够进一步优化用户体验。In this way, the user experience can be further optimized.

在某些实施方式中，可穿戴设备10为双系统架构，双系统架构包括大核系统和小核系统，第一模式运行小核系统，第二模式运行大核系统。In some embodiments, thewearable device 10 has a dual-system architecture, the dual-system architecture includes a large-core system and a small-core system, the first mode runs the small-core system, and the second mode runs the large-core system.

具体地，本实施方式的具体实施例在前文已有先关描述，此处不再赘述。Specifically, the specific examples of this implementation manner have been described above, and will not be repeated here.

在某些实施方式中，检测部件14与人体的接触面积大于本体12与人体的接触面积。In some embodiments, the contact area of thedetection component 14 with the human body is larger than the contact area of thebody 12 with the human body.

具体地，请再次参阅图2，可穿戴设备10可以是智能手表，可穿戴设备10的本体12可设置于手表本体12的内部，检测部件14外形与表带类似，可以设置于表带内部。检测部件14与人体的接触面积大于本体12与人体的接触面积，因此，检测部件14检测到的人体特征数据相对更精确。Specifically, please refer to FIG. 2 again, thewearable device 10 can be a smart watch, thebody 12 of thewearable device 10 can be arranged inside thewatch body 12 , and thedetection part 14 is similar in shape to a watchband and can be arranged inside the watchband. The contact area between thedetection component 14 and the human body is larger than the contact area between themain body 12 and the human body. Therefore, the human body feature data detected by thedetection component 14 is relatively more accurate.

本申请实施方式还提供了一种存储有计算机程序的非易失性计算机可读存储介质。当计算机程序被一个或多个处理器执行时，实现上述任一实施方式所述的可穿戴设备的控制方法。The embodiments of the present application also provide a non-volatile computer-readable storage medium storing a computer program. When the computer program is executed by one or more processors, the control method of the wearable device described in any one of the above embodiments is implemented.

在本说明书的描述中，参考术语“一个实施方式”、“一些实施方式”、“示意性实施方式”、“示例”、“具体示例”、或“一些示例”等的描述意指结合实施方式或示例描述的具体特征、结构、材料或者特点包含于本申请的至少一个实施方式或示例中。在本说明书中，对上述术语的示意性表述不一定指的是相同的实施方式或示例。而且，描述的具体特征、结构、材料或者特点可以在任何的一个或多个实施方式或示例中以合适的方式结合。In the description of this specification, reference to the terms "one embodiment," "some embodiments," "exemplary embodiment," "example," "specific example," or "some examples", etc., is meant to incorporate the embodiments A particular feature, structure, material, or characteristic described or exemplified is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

本技术领域的普通技术人员可以理解实现上述实施例方法携带的全部或部分步骤是可以通过程序来指令相关的硬件完成，所述的程序可以存储于一种计算机可读存储介质中，该程序在执行时，包括方法实施例的步骤之一或其组合。Those of ordinary skill in the art can understand that all or part of the steps carried by the methods of the above embodiments can be completed by instructing the relevant hardware through a program, and the program can be stored in a computer-readable storage medium, and the program is stored in a computer-readable storage medium. When executed, one or a combination of the steps of the method embodiment is included.

此外，在本申请的各个实施例中的各功能单元可以集成在一个处理模块中，也可以是各个单元单独物理存在，也可以两个或两个以上单元集成在一个模块中。上述集成的模块既可以采用硬件的形式实现，也可以采用软件功能模块的形式实现。所述集成的模块如果以软件功能模块的形式实现并作为独立的产品销售或使用时，也可以存储在一个计算机可读取存储介质中。In addition, each functional unit in each embodiment of the present application may be integrated into one processing module, or each unit may exist physically alone, or two or more units may be integrated into one module. The above-mentioned integrated modules can be implemented in the form of hardware, and can also be implemented in the form of software function modules. If the integrated modules are implemented in the form of software functional modules and sold or used as independent products, they may also be stored in a computer-readable storage medium.

上述提到的存储介质可以是只读存储器，磁盘或光盘等。The above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, and the like.

尽管已经示出和描述了本申请的实施方式，本领域的普通技术人员可以理解：在不脱离本申请的原理和宗旨的情况下可以对这些实施方式进行多种变化、修改、替换和变形，本申请的范围由权利要求及其等同物限定。Although the embodiments of the present application have been shown and described, those of ordinary skill in the art will appreciate that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present application, The scope of the application is defined by the claims and their equivalents.

Claims (10)

Translated fromChinese

1.一种可穿戴设备的控制方法，其特征在于，所述可穿戴设备包括本体和与所述本体连接的检测部件，所述本体包括检测单元，所述控制方法包括以下步骤：1. A control method for a wearable device, wherein the wearable device comprises a body and a detection component connected to the body, the body includes a detection unit, and the control method comprises the following steps:检测所述可穿戴设备的运行模式；detecting the operating mode of the wearable device;在所述运行模式为第一模式的情况下，确定所述检测部件为检测主体以用于获取人体特征数据；和In the case that the operation mode is the first mode, determining that the detection component is a detection subject for acquiring human body characteristic data; and在所述运行模式为第二模式的情况下，确定所述检测单元为所述检测主体以用于获取所述人体特征数据。When the operation mode is the second mode, it is determined that the detection unit is the detection subject for acquiring the human body feature data.2.根据权利要求1所述的控制方法，其特征在于，所述检测所述可穿戴设备的运行模式包括：2. The control method according to claim 1, wherein the detecting the operation mode of the wearable device comprises:实时检测所述可穿戴设备的运行模式以用于确定所述检测主体；Detecting the operating mode of the wearable device in real time for determining the detection subject;所述控制方法包括：The control method includes:根据用户输入确定是否进行健康检测；Determine whether to perform health detection based on user input;在进行健康检测的情况下，通过确定的所述检测主体获取所述人体特征数据。In the case of performing health detection, the human body feature data is acquired through the determined detection subject.3.根据权利要求1所述的控制方法，其特征在于，所述控制方法包括：3. The control method according to claim 1, wherein the control method comprises:根据用户输入确定是否进行健康检测；Determine whether to perform health detection based on user input;在进行健康检测的情况下，检测所述可穿戴设备的运行模式以用于确定所述检测主体；In the case of performing health detection, detecting the operation mode of the wearable device for determining the detection subject;所述控制方法包括：The control method includes:通过确定的所述检测主体获取所述人体特征数据。The human body feature data is acquired through the determined detection subject.4.根据权利要求1-3任一项所述的控制方法，其特征在于，所述控制方法包括：4. The control method according to any one of claims 1-3, wherein the control method comprises:在通过所述检测单元获取所述人体特征数据的情况下检测到所述可穿戴设备启动所述第一模式，则将所述检测主体切换为所述检测部件并通过所述检测部件获取所述人体特征数据；When it is detected that the wearable device activates the first mode when the human body feature data is acquired through the detection unit, the detection subject is switched to the detection component, and the detection component is used to acquire the first mode. Human characteristics data;在通过所述检测部件获取所述人体特征数据的情况下检测到所述可穿戴设备启动所述第二模式，则将所述检测主体切换为所述检测单元并通过所述检测单元获取所述人体特征数据。When it is detected that the wearable device activates the second mode when the human body feature data is acquired through the detection component, the detection subject is switched to the detection unit and the detection unit acquires the second mode. Human characteristics data.5.根据权利要求4所述的控制方法，其特征在于，所述控制方法包括：5. The control method according to claim 4, wherein the control method comprises:在所述可穿戴设备启动所述第一模式时，广播第一控制指令以控制所述检测单元关闭及控制所述检测部件开启以将所述检测主体切换为所述检测部件；When the wearable device starts the first mode, broadcast a first control instruction to control the detection unit to be turned off and the detection component to be turned on to switch the detection body to the detection component;在所述可穿戴设备启动所述第二模式时，广播第二控制指令以控制所述检测部件关闭及控制所述检测单元开启以将所述检测主体切换为所述检测单元。When the wearable device starts the second mode, a second control instruction is broadcast to control the detection component to be turned off and the detection unit to be turned on to switch the detection body to the detection unit.6.根据权利要求1所述的控制方法，其特征在于，所述可穿戴设备为双系统架构，所述双系统架构包括大核系统和小核系统，所述第一模式运行所述小核系统，所述第二模式运行所述大核系统。6 . The control method according to claim 1 , wherein the wearable device has a dual-system architecture, the dual-system architecture includes a large-core system and a small-core system, and the first mode runs the small-core system. 7 . system, the second mode operates the large core system.7.一种可穿戴设备的控制装置，其特征在于，所述可穿戴设备包括本体和与所述本体连接的检测部件，所述本体包括检测单元，所述控制装置包括：7. A control device for a wearable device, wherein the wearable device comprises a body and a detection component connected to the body, the body includes a detection unit, and the control device comprises:检测模块，所述检测模块用于检测所述可穿戴设备的运行模式；a detection module, the detection module is used to detect the operation mode of the wearable device;数据获取模块，所述数据获取模块用于在所述运行模式为第一模式的情况下，确定所述检测部件为检测主体以用于获取人体特征数据；a data acquisition module, configured to determine that the detection component is a detection subject for acquiring human body feature data when the operating mode is the first mode;所述数据获取模块还用于在所述运行模式为第二模式的情况下，确定所述检测单元为所述检测主体以用于获取所述人体特征数据。The data acquisition module is further configured to determine that the detection unit is the detection subject for acquiring the human body feature data when the operating mode is the second mode.8.根据权利要求7所述的控制方法，其特征在于，所述控制装置还包括：8. The control method according to claim 7, wherein the control device further comprises:无线通信模块，所述无线通信模块用于连接所述检测部件与所述本体。A wireless communication module, the wireless communication module is used for connecting the detection component and the main body.9.一种可穿戴设备，其特征在于，包括一个或多个处理器、存储器以及一个或多个计算机程序，其中，所述一个或多个计算机程序被存储在所述存储器中，所述计算机程序被所述一个或多个处理器执行时，实现权利要求1-6中任意一项所述的可穿戴设备的控制方法的指令。9. A wearable device, comprising one or more processors, memories, and one or more computer programs, wherein the one or more computer programs are stored in the memory, and the computer When the program is executed by the one or more processors, the instructions implement the control method of the wearable device according to any one of claims 1-6.10.一种存储有计算机程序的非易失性计算机可读存储介质，其特征在于，当所述计算机程序被一个或多个处理器执行时，实现权利要求1-6中任一项所述的可穿戴设备的控制方法的指令。10. A non-volatile computer-readable storage medium storing a computer program, characterized in that, when the computer program is executed by one or more processors, the computer program of any one of claims 1-6 is implemented Instructions for the control method of the wearable device.

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