CN110062446B - Mode switching method and device of equipment, wearable equipment and storage medium - Google Patents

Abstract

The embodiment of the application discloses a mode switching method and device of equipment, wearable equipment and a storage medium, wherein the method comprises the following steps: acquiring an ambient light intensity value of wearable equipment; when the current working mode of the wearable equipment is determined to be a normal mode, if the ambient light intensity value is smaller than a preset ambient light intensity threshold value, and the time that the ambient light intensity value is smaller than the preset ambient light intensity threshold value is longer than first preset time, switching the working mode of the wearable equipment to a power-saving mode; when the current working mode of the wearable device is determined to be the power saving mode, if the ambient light intensity value is larger than or equal to the preset ambient light intensity threshold value, the working mode of the wearable device is switched to the normal mode, and network data of the wearable device in the power saving mode are synchronized. The cruising ability of the wearable device is improved, and the normal use of the wearable device is not influenced.

Description

Device mode switching method, device, wearable device and storage medium

technical field

The embodiments of the present application relate to wearable device technologies, and in particular, to a device mode switching method, device, wearable device, and storage medium.

Background technique

Smartphone watches are becoming more and more popular in people's lives, especially the popularity of children's smart phone watches. Parents can use the data from the smart phone and children's smart phone watches to understand the child's dynamics in real time on their mobile phones, which is convenient for parents to understand the children's behavior. guardianship.

However, the current battery life of children's smart phone watches is a problem that parents are more concerned about. For example, when children put the children's smart phone watches in their pockets, schoolbags, or cover them with their sleeves and sleep, the children's smart phone watches It is basically not in use, but in this state, the children's smart phone watch is still in normal use, which consumes a large part of the power, which in turn affects the battery life.

SUMMARY OF THE INVENTION

The present application provides a device mode switching method, device, wearable device and storage medium to solve the problem of poor battery life of the wearable device in the prior art.

The present invention adopts following technical scheme:

In a first aspect, an embodiment of the present application provides a method for switching a mode of a device, and the method includes:

Get the ambient light intensity value where the wearable device is located;

When it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than the preset ambient light intensity threshold, and the time for which the ambient light intensity value is less than the preset ambient light intensity threshold is greater than the first The preset time, switching the working mode of the wearable device to the power saving mode;

When it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, switching the working mode of the wearable device to the normal mode, and, synchronizing network data during the period when the wearable device is in the power saving mode;

Wherein, the normal mode includes the function of maintaining the network service and the call on hold when the screen of the wearable device is black, and the power saving mode includes the function of turning off the network service and the call on hold when the screen of the wearable device is on the black screen .

In a second aspect, an embodiment of the present application provides a device mode switching device, the device comprising:

an acquisition module for acquiring the ambient light intensity value where the wearable device is located;

A first mode adjustment module, configured to determine that when the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the ambient light intensity value is less than a preset ambient light intensity value When the time of the light intensity threshold is greater than the first preset time, the working mode of the wearable device is switched to the power saving mode;

The second mode adjustment module is configured to determine that when the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the wearable device The working mode of the wearable device is switched to the normal mode, and the network data of the wearable device during the power saving mode is synchronized;

Wherein, the normal mode includes the function of maintaining the network service and the call on hold when the screen of the wearable device is black, and the power saving mode includes the function of turning off the network service and the call on hold when the screen of the wearable device is on the black screen .

In a third aspect, an embodiment of the present application provides a wearable device, including a memory and one or more processors;

the memory for storing one or more programs;

When the one or more programs are executed by the one or more processors, the one or more processors implement the mode switching method of the device according to the first aspect.

In a fourth aspect, an embodiment of the present application provides a storage medium containing computer-executable instructions, where the computer-executable instructions are used to execute the mode switching method of the device according to the first aspect when executed by a computer processor.

The technical solution adopted by the present invention has the following beneficial effects: obtaining the ambient light intensity value of the wearable device, and adjusting the working mode of the wearable device in combination with the current working mode of the wearable device and the current ambient light intensity value. Specifically, when it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the ambient light intensity value is less than the preset ambient light intensity threshold time period It is greater than the first preset time, indicating that the wearable device is in a dark environment and has not been operated for a period of time, then the working mode of the wearable device is switched to the power saving mode, which saves the wearable device to some extent. The power of the wearable device improves the endurance of the wearable device; in addition, when it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold , then the working mode of the wearable device is switched to the normal mode, and the network data of the wearable device during the power saving mode is synchronized, so as to ensure the battery life of the wearable device, without affecting the wearable device. Normal use. Therefore, the technical solution of the present application does not affect the normal use of the wearable device while ensuring the wearable endurance.

Description of drawings

Other features, objects and advantages of the present application will become more apparent by reading the detailed description of non-limiting embodiments made with reference to the following drawings:

FIG. 1 is a flowchart of a mode switching method of a device provided by an embodiment of the present application;

2 is a flowchart of a mode switching method of another device provided by an embodiment of the present application;

3 is a schematic structural diagram of a mode switching device of a device provided by an embodiment of the present application;

FIG. 4 is a schematic structural diagram of a wearable device provided by an embodiment of the present application.

Detailed ways

In order to make the objectives, technical solutions and advantages of the present application clearer, the specific embodiments of the present application will be further described in detail below with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are only used to explain the present application, but not to limit the present application. In addition, it should be noted that, for the convenience of description, the drawings only show some but not all of the contents related to the present application. Before discussing the exemplary embodiments in greater detail, it should be mentioned that some exemplary embodiments are described as processes or methods depicted as flowcharts. Although a flowchart depicts various operations (or steps) as a sequential process, many of the operations may be performed in parallel, concurrently, or concurrently. Additionally, the order of operations can be rearranged. The process may be terminated when its operation is complete, but may also have additional steps not included in the figures. The processes may correspond to methods, functions, procedures, subroutines, subroutines, and the like.

FIG. 1 shows a flowchart of a method for switching a mode of a device provided by an embodiment of the present application. The method for switching a mode of a device provided in this embodiment can be performed by a mode switching device of the device, and the mode switching device of the device can be implemented by implemented in hardware and/or software. Referring to Figure 1, the method may specifically include:

S101. Obtain an ambient light intensity value where the wearable device is located.

Specifically, the wearable device in the embodiment of the present application may be a children's smart phone watch as an example. First, the ambient light intensity value where the wearable device is located is obtained. Exemplarily, the environment where the children's smart phone watch is located may be a schoolbag In this case, the ambient light intensity values are different. In a specific example, the ambient light intensity value may be expressed in lux. In the actual application process, when the children's smart phone watch is placed in a schoolbag or clothes pocket, it will be in a relatively dark environment, and at this time, the obtained ambient light intensity value will be smaller.

S102. When it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the time period for which the ambient light intensity value is less than the preset ambient light intensity threshold is greater than For the first preset time, the working mode of the wearable device is switched to the power saving mode.

Specifically, the working mode of the children's smart phone watch is monitored in real time or periodically, wherein when the current working mode of the children's smart phone watch is the normal mode, that is, the network service and the call-hold function are maintained in a black screen state, an exemplary , the black screen state refers to the state of no operation on the children's smart phone watch. At this time, it is determined whether the ambient light intensity value where the children's smart phone watch is located is less than the first preset light intensity threshold, and it is also determined whether the time when the ambient light intensity threshold is less than the preset ambient light intensity threshold is greater than the first preset time, When the two are satisfied at the same time, it indicates that the user has no need to use the children's smart phone watch at this time. In order to save the power of the children's smart phone watch, the working mode of the children's smart phone watch can be switched to the power saving mode. In the power mode, the network service and the call hold function are turned off when the screen is black. That is, no matter in the normal mode or the power saving mode, the call function is maintained, so that the child can be contacted in time without affecting the normal use of the child's smart phone watch. Exemplarily, the preset ambient light intensity threshold is not fixed, and the ambient light intensity threshold is different for different times, regions, and weather conditions. In addition, the above regions are also related to the scene where the child is usually, for example, the child does homework in the study every night. , the brightness of the lights in the study room can also be used as one of the criteria for determining the threshold of ambient light intensity.

In a specific example, the first preset light intensity threshold and the first preset time are both preset, for example, parents may set the settings on the mobile phone bound to the children's smart phone watch according to the child's habit For example, if child A is accustomed to putting the children's smart phone watch in the schoolbag on the way to and from school, the parent of child A can set the first preset time according to the time that the child spends on the way to and from school every day.

Optionally, the network service includes GPRS (General Packet Radio Service, General Packet Radio Service technology) network service, GPS (Global Positioning System, Global Positioning System) network service, WIFI (Wireless Fidelity, Wireless Fidelity) network service and One or more of the Bluetooth network services. Specifically, the main functions of network services are message sending and receiving, and positioning. Among them, the GPS network service cooperates with the GPRS network service or the WIFI network service to determine the current location information of the children's smart phone watch, and one or more of the GPRS network service, the WIFI network service and the Bluetooth network service cooperate to determine the sending and receiving of messages , the message can be, for example, an interactive message between a child and a friend or parent.

S103. When it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, switch the working mode of the wearable device to normal mode, and synchronizes network data while the wearable device is in power saving mode.

Specifically, when the current working mode of the children's smart phone watch is the power saving mode, it indicates that the children's smart phone watch is currently in a black screen state, and the network service is disabled and the call function is enabled; at this time, the children's smart phone watch may be It's in a child's school bag, in his clothes pocket, or on a desk in a dark room. At this time, it is detected that the ambient light intensity is greater than or equal to the preset ambient light intensity threshold, and the working mode of the children's smart phone watch is switched to the normal mode, that is, the network service function is turned on, and then the children's smart phone watch is synchronized immediately. Network data during power saving mode.

In a specific example, the scene may be that the child's smart phone watch is worn on the wrist, but is covered by clothes. The child wants to know in time whether the mother is looking for him after class. At this time, when the child removes the clothes, When the ambient light intensity of the children's smart phone watch is greater than or equal to the preset ambient light intensity threshold, in order to enable children to know the news from relatives or friends in time when operating the children's smart phone watch, switch the children's smart phone watch to normal. At the same time, the network data of the children's smart phone watch is synchronized in the power-saving mode, which ensures that children receive messages from relatives or friends in time, instead of causing a bad user experience due to a long delay.

In addition, when synchronizing the network data of the wearable device during the power saving mode, the wearable device can be kept in the state of mute, non-vibration and non-automatic bright screen, so as to ensure that the user cannot perceive the automatic switching process of the mode as much as possible. user experience.

The technical solution adopted by the present invention has the following beneficial effects: obtaining the ambient light intensity value of the wearable device, and adjusting the working mode of the wearable device in combination with the current working mode of the wearable device and the current ambient light intensity value. Specifically, when it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the ambient light intensity value is less than the preset ambient light intensity threshold time period It is greater than the first preset time, indicating that the wearable device is in a dark environment and has not been operated for a period of time, then the working mode of the wearable device is switched to the power saving mode, which saves the wearable device to some extent. The power of the wearable device improves the endurance of the wearable device; in addition, when it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold , then the working mode of the wearable device is switched to the normal mode, and the network data of the wearable device during the power saving mode is synchronized, so as to ensure the battery life of the wearable device, without affecting the wearable device. Normal use. Therefore, the technical solution of the present application does not affect the normal use of the wearable device while ensuring the wearable endurance.

On the basis of the above-mentioned embodiment, FIG. 2 shows a flowchart of another method for switching a mode of a device provided by an embodiment of the present application. The mode switching method of the device is an embodiment of the mode switching method of the above-mentioned device. Referring to Figure 2, the mode switching method of the device includes:

S201. Obtain an ambient light intensity value where the wearable device is located.

S202. When it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the time for the ambient light intensity value to be less than the preset ambient light intensity threshold is greater than For the first preset time, the working mode of the wearable device is switched to the power saving mode.

S203. Send the current location of the wearable device and the current power saving mode information of the wearable device to the terminal device bound to the wearable device.

Specifically, after the working mode of the children's smart phone watch is switched to the power saving mode, the current position of the children's smart phone watch and the mode information of the wearable device are sent to the terminal device bound to the children's smart phone watch, such as It could be a parent's cell phone. This ensures that parents can obtain the location information of their children in a timely manner.

In a specific example, if the mother goes out to do errands early on the weekend, the child wants to go out to play with friends after getting up, and gets on the bus after going out, the child's smart phone watch is put in his schoolbag. At this time, The working mode of the children's smart phone watch is switched to the power saving mode. At this time, the position information of the child getting on the bus is sent to the mother's mobile phone, and the power saving mode information at this time can also be sent to the mother's mobile phone, for example "Your child has put the children's smart phone watch to power saving mode at XX:XX, please don't worry".

In practical applications, sending the power saving mode information and the current location information is not a one-time process. This process can be continued periodically. Specifically, after each switch to the power saving mode, the current position information and the power saving mode can be sent The information is sent to the parent's mobile phone, so that the parent can pay attention to the child's dynamics in time, so as not to worry about the parent's failure to contact the child in time.

S204. When it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is greater than or equal to a preset ambient light intensity threshold, maintain the wearable device in the normal mode.

Specifically, if the current working mode of the children's smart phone watch is the normal mode, and the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, it indicates that the user may need to use the children's smart phone watch in a short time. At this time, maintain the children's smart phone watch in the normal mode. In this way, it is guaranteed that the actual use of the user will not be affected.

S205. When it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, switch the working mode of the wearable device to normal mode, and synchronizes network data while the wearable device is in power saving mode.

S206. When it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is less than the preset ambient light intensity threshold, maintain the wearable device in the power saving mode.

Specifically, if the current working mode of the children's smart phone watch is the power saving mode, and the ambient light intensity value is less than the preset ambient light intensity threshold, it indicates that the user is unlikely to have the need to use the children's smart phone watch in a short time. At this time, keep the children's smart phone watch in the power saving mode. In this way, the battery life of the children's smart phone watch is improved.

It should be noted that S203 occurs after S202, and S202, S204, S205, and S206 have no obvious sequence relationship, and FIG. 2 is just an example.

In this embodiment of the present application, when switching to the power saving mode, the current location of the wearable device and the current power saving mode information of the wearable device are sent to the device bound to the wearable device. terminal device, so that parents can keep abreast of the child’s movements; when it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the wearable device is maintained In the normal mode, so that the user can use the wearable device normally; when it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is less than the preset ambient light intensity threshold, the wearable device is maintained. The wearable device is in a power saving mode in order to increase the battery life of the wearable device.

On the basis of the above technical solutions, the technical solutions of the present application further include: if it is detected that the time when the wearable device is in the power saving mode is greater than a second preset time threshold, adjusting the wearable device to be in the power saving mode according to the preset wake-up period. Switching between the normal mode and the power saving mode, and synchronizing the network data when the wearable device is in the power saving mode, wherein, during the mode switching, each time the wearable device is in the normal mode is less than a third preset time threshold.

In addition, after synchronizing the network data when the wearable device is in the power saving mode each time, the method further includes: sending the latest location information in the network data and the latest power saving mode information to the wearable device with the wearable device. The terminal device to which the device is bound.

Specifically, when it is detected that the time when the wearable device is in the power saving mode is greater than the second preset time threshold, the second preset time threshold and the first preset time threshold have no essential relationship, and may be the same or may be Differently, at this time, the wearable device is adjusted to switch between the normal mode and the power saving mode according to the preset wake-up period. The preset wake-up period may be 30 minutes, and at this time, the second preset time threshold may be 30 minutes, that is, if the children's smart phone watch has been in the power saving mode for 30 minutes, it will be automatically switched to normal at this time. mode, and synchronize network data when the wearable device is in power saving mode, so as to obtain the location of the wearable device and the messages sent by relatives and friends to the children's smart phone watch in time.

In a specific example, for example, if the child goes out to the playground from home, and puts the child's smart phone watch in the schoolbag after going out, the location information received by the parent at this time is at or near the home. If the mode is switched or the data is updated, the parents will not know the location information of the child in time. Switch modes according to the preset wake-up cycle, turn on network services in time, receive messages and obtain location information. In this way, it can also avoid that after being in the power saving mode for a long time, once it is switched to the normal mode, the messages will come in a concentrated manner. If the user's children's smart phone watch is in ringtone or vibration mode at this time, a large number of messages may continue to cause the children's smart phone watch. Vibration, causing a bad experience for the user.

In addition, during the mode switching, the time that the wearable device is in the normal mode each time is less than the third preset time threshold. This mainly means that when the purpose is to temporarily open the network service to receive messages and obtain positioning information, this normal mode continues. The time does not need to be very long to save the power of the wearable device, and the normal mode is turned on for a short time. , and also saves the power of the wearable device.

Exemplarily, after synchronizing the network data when the wearable device is in the power saving mode each time, the method further includes: sending the latest location information in the network data and the latest power saving mode information to a The terminal device bound to the wearable device. So that parents can keep abreast of their children's dynamics, that is, the latest power-saving mode information and location information. For example, when the child is on the way to Wanda Plaza, the children's smart phone watch has been kept in the bag. If the network data is not updated in time, the parent will Only after the child arrives at the Wanda Plaza, take out the children's smart phone watch to turn on the network service, the parents can get the latest location information of the child. In practical applications, parents usually want to keep abreast of their children's dynamics, such as the location information of a bus stop on the way to Wanda Plaza.

Therefore, according to the technical solutions of the embodiments of the present application, the present invention can reduce the power consumption of the wearable device when the wearable device is not in use, and under the condition of ensuring the normal use of the user, the smart terminal can save more power and prolong the standby time.

On the basis of the foregoing embodiment, FIG. 3 is a schematic structural diagram of a mode switching apparatus of a device provided by an embodiment of the present application. Referring to FIG. 3 , the mode switching apparatus of the device provided in this embodiment specifically includes: an acquisition module 301 , a first mode adjustment module 302 and a second mode adjustment module 303 .

Wherein, the acquisition module 301 is used to acquire the ambient light intensity value where the wearable device is located; the first mode adjustment module 302 is used to determine that when the current working mode of the wearable device is the normal mode, if the ambient light intensity If the value is less than the preset ambient light intensity threshold, and the time for which the ambient light intensity value is less than the preset ambient light intensity threshold is greater than the first preset time, the working mode of the wearable device is switched to the power saving mode; The second mode adjustment module 303 is configured to determine that when the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the wearable device The working mode of the wearable device is switched to the normal mode, and the network data of the wearable device during the power saving mode is synchronized;

Wherein, the normal mode includes the function of maintaining the network service and the call on hold when the screen of the wearable device is black, and the power saving mode includes the function of turning off the network service and the call on hold when the screen of the wearable device is on the black screen .

The technical solution adopted by the present invention has the following beneficial effects: obtaining the ambient light intensity value of the wearable device, and adjusting the working mode of the wearable device in combination with the current working mode of the wearable device and the current ambient light intensity value. Specifically, when it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the ambient light intensity value is less than the preset ambient light intensity threshold time period It is greater than the first preset time, indicating that the wearable device is in a dark environment and has not been operated for a period of time, then the working mode of the wearable device is switched to the power saving mode, which saves the wearable device to some extent. The power of the wearable device improves the endurance of the wearable device; in addition, when it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold , then the working mode of the wearable device is switched to the normal mode, and the network data of the wearable device during the power saving mode is synchronized, so as to ensure the battery life of the wearable device, without affecting the wearable device. Normal use. Therefore, the technical solution of the present application does not affect the normal use of the wearable device while ensuring the wearable endurance.

Further, it also includes a third determination module for determining that the current working mode of the wearable device is the normal mode after acquiring the ambient light intensity value of the wearable device, if the ambient light intensity value is greater than or is equal to the preset ambient light intensity threshold, maintaining the wearable device in the normal mode.

Further, it also includes a fourth determination module for determining that the current working mode of the wearable device is the power saving mode after obtaining the ambient light intensity value where the wearable device is located, if the ambient light intensity value is less than If the preset ambient light intensity threshold is set, the wearable device is maintained in a power saving mode.

Further, it also includes an information sending module, which is used to send the current location of the wearable device and the current power saving mode of the wearable device after switching the working mode of the wearable device to the power saving mode. The information is sent to the terminal device bound to the wearable device.

Further, it also includes a switching module, configured to detect that the time when the wearable device is in the power saving mode is greater than the second preset time threshold, and then adjust the wearable device to be in the normal mode and the power saving mode according to the preset wake-up period. Switch between and synchronize the network data when the wearable device is in the power saving mode, wherein, during the mode switching, the time each time the wearable device is in the normal mode is less than a third preset time threshold.

Further, it also includes an update module for synchronizing the network data when the wearable device is in the power saving mode each time, and then sending the latest location information and the latest power saving mode information in the network data to the device. A terminal device bound to the wearable device.

Further, the network service includes one or more of GPRS network service, GPS network service, WIFI network service and Bluetooth network service.

The mode switching apparatus of the device provided in the embodiment of the present application can be used to execute the mode switching method of the device provided by the above-mentioned embodiment, and has corresponding functions and beneficial effects.

The embodiments of the present application provide a wearable device, and the wearable device can be integrated with the mode switching device of the wearable device provided by the embodiments of the present application. FIG. 4 is a schematic structural diagram of a wearable device provided by an embodiment of the present application. Referring to FIG. 4 , the wearable device includes: a processor 40 and a memory 41 . The number of processors 40 in the wearable device may be one or more, and one processor 40 is taken as an example in FIG. 4 . The number of memories 41 in the wearable device may be one or more, and one memory 41 is taken as an example in FIG. 4 . The processor 40 and the memory 41 of the wearable device may be connected through a bus or in other ways, and the connection through a bus is taken as an example in FIG. 4 .

As a computer-readable storage medium, the memory 41 can be used to store software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the mode switching method of the device described in any embodiment of the present application (for example, the mode of the device). The acquisition module 301, the first mode adjustment module 302 and the second mode adjustment module 303 in the switching device). The memory 41 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the wearable device, and the like. In addition, memory 41 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some instances, memory 41 may further include memory located remotely from processor 40, and these remote memories may be connected to the wearable device through a network. Examples of such networks include, but are not limited to, the Internet, an intranet, a local area network, a mobile communication network, and combinations thereof.

The processor 40 executes various functional applications and data processing of the wearable device by running the software programs, instructions and modules stored in the memory 41, that is, realizes the above-mentioned mode switching method of the device, and the mode switching method of the device includes: Obtain the ambient light intensity value where the wearable device is located; when it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the ambient light intensity value When the time less than the preset ambient light intensity threshold is greater than the first preset time, the working mode of the wearable device is switched to the power saving mode; when it is determined that the current working mode of the wearable device is the power saving mode, if all If the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the working mode of the wearable device is switched to the normal mode, and the network data of the wearable device during the power saving mode is synchronized; wherein , the normal mode includes the function of maintaining the network service and the call on hold when the screen of the wearable device is black, and the power saving mode includes the function of closing the network service and holding the call when the screen of the wearable device is on the black screen.

The wearable device provided above can be used to execute the mode switching method of the device provided by the above embodiments, and has corresponding functions and beneficial effects.

Embodiments of the present application further provide a storage medium containing computer-executable instructions, where the computer-executable instructions are used to execute a mode switching method of a device when executed by a computer processor, and the mode switching method of the device includes: obtaining The ambient light intensity value where the wearable device is located; when it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than the preset ambient light intensity threshold, and the ambient light intensity value is less than When the time of the preset ambient light intensity threshold is greater than the first preset time, the working mode of the wearable device is switched to the power saving mode; when it is determined that the current working mode of the wearable device is the power saving mode, if the If the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the working mode of the wearable device is switched to the normal mode, and the network data of the wearable device during the power saving mode is synchronized; wherein, The normal mode includes the function of maintaining network service and the call on hold when the screen of the wearable device is in a black screen state, and the power saving mode includes the function of closing the network service and the call on hold when the screen of the wearable device is in a black screen state.

storage medium - any of various types of memory devices or storage devices. The term "storage medium" is intended to include: installation media, such as CD-ROMs, floppy disks, or tape devices; computer system memory or random access memory, such as DRAM, DDR RAM, SRAM, EDO RAM, Rambus RAM, etc. ; non-volatile memory, such as flash memory, magnetic media (eg hard disk or optical storage); registers or other similar types of memory elements, etc. The storage medium may also include other types of memory or combinations thereof. In addition, the storage medium may be located in the first computer system in which the program is executed, or may be located in a second, different computer system connected to the first computer system through a network such as the Internet. The second computer system may provide program instructions to the first computer for execution. The term "storage medium" may include two or more storage media that may reside in different locations (eg, in different computer systems connected by a network). The storage medium may store program instructions (eg, embodied as a computer program) executable by one or more processors.

Of course, a storage medium containing computer-executable instructions provided by the embodiments of the present application, the computer-executable instructions of which are not limited to the mode switching method of the device as described above, and can also execute the mode switching method of the device provided by any embodiment of the present application. Related operations in the mode switching method.

The mode switching device, storage medium and device of the device provided in the above embodiments can perform the mode switching method of the device provided by any embodiment of the present application. For technical details not described in detail in the above embodiments, please refer to any implementation of the present application. The mode switching method of the device provided by the example.

Note that the above are only preferred embodiments of the present application and applied technical principles. Those skilled in the art will understand that the present application is not limited to the specific embodiments described herein, and various obvious changes, readjustments and substitutions can be made by those skilled in the art without departing from the protection scope of the present application. Therefore, although the present application has been described in detail through the above embodiments, the present application is not limited to the above embodiments, and can also include more other equivalent embodiments without departing from the concept of the present application. The scope is determined by the scope of the appended claims.

Claims (8)

1. a mode switching method of equipment, is characterized in that, comprises: Get the ambient light intensity value where the wearable device is located; When it is determined that the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than the preset ambient light intensity threshold, and the time for which the ambient light intensity value is less than the preset ambient light intensity threshold is greater than the first For a preset time, the working mode of the wearable device is switched to the power saving mode, and if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the wearable device is maintained in the normal mode; When it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, switching the working mode of the wearable device to the normal mode, and, synchronizing network data during the period when the wearable device is in the power saving mode; It is detected that the time that the wearable device is in the power saving mode is greater than the second preset time threshold, adjusting the wearable device to switch between the normal mode and the power saving mode according to a preset wake-up period, and synchronizing the wearable device The network data when the device is in the power saving mode, in which, when synchronizing the network data of the wearable device during the power saving mode, the wearable device is controlled to remain in the state of mute, non-vibration and non-automatic screen-on. Each time the wearable device is in the normal mode is less than the third preset time threshold; The normal mode includes the function of maintaining network service and the call on hold when the screen of the wearable device is in a black screen state, and the power saving mode includes the function of closing the network service and the call on hold when the screen of the wearable device is in a black screen state. 2. The method according to claim 1, wherein after acquiring the ambient light intensity value where the wearable device is located, the method further comprises: When it is determined that the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is less than the preset ambient light intensity threshold, the wearable device is maintained in the power saving mode. 3. The method according to claim 1, wherein after switching the working mode of the wearable device to a power saving mode, the method further comprises: Send the current location of the wearable device and the current power saving mode information of the wearable device to the terminal device bound to the wearable device. 4. The method according to claim 3, characterized in that, after synchronizing the network data when the wearable device is in a power saving mode each time, the method further comprises: Send the latest location information in the network data and the latest power saving mode information to the terminal device bound to the wearable device. 5. The method according to any one of claims 1-4, wherein the network service comprises one or more of a GPRS network service, a GPS network service, a WIFI network service and a Bluetooth network service. 6. A mode switching device for equipment, characterized in that, comprising: an acquisition module for acquiring the ambient light intensity value where the wearable device is located; A first mode adjustment module, configured to determine that when the current working mode of the wearable device is the normal mode, if the ambient light intensity value is less than a preset ambient light intensity threshold, and the ambient light intensity value is less than a preset ambient light intensity value When the time of the light intensity threshold is greater than the first preset time, the working mode of the wearable device is switched to the power saving mode, and if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the wearable device is maintained. The wearable device is in normal mode; The second mode adjustment module is configured to determine that when the current working mode of the wearable device is the power saving mode, if the ambient light intensity value is greater than or equal to the preset ambient light intensity threshold, the wearable device The working mode of the wearable device is switched to the normal mode, and the network data during the period when the wearable device is in the power-saving mode is synchronized; it is detected that the time when the wearable device is in the power-saving mode is greater than the second preset time threshold, then adjust the The wearable device switches between the normal mode and the power saving mode according to a preset wake-up period, and synchronizes the network data when the wearable device is in the power saving mode, wherein when synchronizing the network data during the wearable device is in the power saving mode , control the wearable device to keep the state of mute, non-vibration and non-automatic bright screen, during the mode switching, the time that the wearable device is in the normal mode each time is less than the third preset time threshold; Wherein, the normal mode includes the function of maintaining the network service and the call on hold when the screen of the wearable device is black, and the power saving mode includes the function of turning off the network service and the call on hold when the screen of the wearable device is on the black screen . 7. A wearable device, comprising: memory and one or more processors; the memory for storing one or more programs; When the one or more programs are executed by the one or more processors, the one or more processors implement the mode switching method of the device according to any one of claims 1-5. 8. A storage medium containing computer-executable instructions, wherein the computer-executable instructions are used to execute the mode switching method of the device according to any one of claims 1-5 when executed by a computer processor.

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