WO2023020062A1 - 终端的充电方法、装置、电子设备及存储介质 - Google Patents
终端的充电方法、装置、电子设备及存储介质 Download PDFInfo
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- WO2023020062A1 WO2023020062A1 PCT/CN2022/095664 CN2022095664W WO2023020062A1 WO 2023020062 A1 WO2023020062 A1 WO 2023020062A1 CN 2022095664 W CN2022095664 W CN 2022095664W WO 2023020062 A1 WO2023020062 A1 WO 2023020062A1
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- charging
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- 238000000034 method Methods 0.000 title claims abstract description 42
- 230000003993 interaction Effects 0.000 claims abstract description 35
- 238000013473 artificial intelligence Methods 0.000 claims description 26
- 238000012790 confirmation Methods 0.000 claims description 12
- 235000019504 cigarettes Nutrition 0.000 claims description 7
- 238000004590 computer program Methods 0.000 claims description 6
- 238000001514 detection method Methods 0.000 claims description 5
- 238000012986 modification Methods 0.000 description 6
- 230000004048 modification Effects 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 230000006870 function Effects 0.000 description 3
- 230000008569 process Effects 0.000 description 3
- 230000002093 peripheral effect Effects 0.000 description 2
- 238000012549 training Methods 0.000 description 2
- 206010014357 Electric shock Diseases 0.000 description 1
- 206010048669 Terminal state Diseases 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000004364 calculation method Methods 0.000 description 1
- 238000004891 communication Methods 0.000 description 1
- 238000011161 development Methods 0.000 description 1
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Classifications
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/02—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries for charging batteries from ac mains by converters
- H02J7/04—Regulation of charging current or voltage
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
Definitions
- the embodiments of the present application relate to the technical field of charging, and in particular, to a terminal charging method, device, electronic device, and storage medium.
- the main purpose of the embodiments of the present application is to provide a terminal charging method, device, server, and storage medium.
- an embodiment of the present application provides a terminal charging method, the method includes: detecting the current state of the terminal; obtaining a charging mode that matches the current state of the terminal; wherein the charging mode includes charging Speed and system setting information of the terminal; display the matching charging mode through the human-computer interaction interface; if a confirmation instruction for the matching charging mode is detected, charge in the matching charging mode.
- an embodiment of the present application further provides a charging device for a terminal, including: a detection module configured to detect the current state of the terminal; an acquisition module configured to obtain a charging mode that matches the current state of the terminal ; Wherein, the charging mode includes charging speed and system setting information of the terminal; the display module is configured to display the matching charging mode through the human-computer interaction interface; the charging module is configured to detect the corresponding After the confirmation instruction of the matching charging mode, charging is performed in the matching charging mode.
- the charging device of the terminal executes the above charging method for the terminal.
- an embodiment of the present application further provides an electronic device, including: at least one processor; and a memory connected to the at least one processor in communication; wherein, the memory stores information that can be used by the at least one processor Instructions executed by a processor, the instructions are executed by the at least one processor, so that the at least one processor can execute the above-mentioned terminal charging method.
- the embodiment of the present application further provides a computer-readable storage medium storing a computer program, and implementing the above terminal charging method when the computer program is executed by a processor.
- FIG. 1 is a flowchart of a charging method for a terminal according to an embodiment of the present invention
- FIG. 2 is a schematic diagram of a human-computer interaction interface in which the terminal is a mobile phone according to an embodiment of the present invention
- Fig. 3 is a schematic diagram of a human-computer interaction interface in which the terminal is controlled by a vehicle according to an embodiment of the present invention
- FIG. 4 is a flowchart of a charging method for a terminal according to another embodiment of the present invention.
- Fig. 5 is a schematic diagram of a terminal charging device according to another embodiment of the present invention.
- Fig. 6 is a schematic structural diagram of an electronic device according to another embodiment of the present invention.
- An embodiment of the present invention relates to a charging method for a terminal.
- the method includes: detecting the current state of the terminal; acquiring a charging mode that matches the current state of the terminal; wherein the charging mode includes charging speed and system settings of the terminal information; displaying the matching charging mode through a human-computer interaction interface; if a confirmation instruction for the matching charging mode is detected, charging is performed in the matching charging mode.
- the charging efficiency is improved, and because the recommended charging mode is a charging mode that matches the current state of the terminal, it can ensure user safety and improve the safety of the battery and the user's terminal. , also improves the service life of the battery.
- the confirmation command for the matching charging mode is detected, charging is performed in the matching charging mode, which can further ensure that the charging mode meets the user's needs.
- the specific flow of the terminal charging method in this embodiment may be shown in FIG. 1 , including steps 101 to 104 .
- Step 101 detecting the current state of the terminal.
- the current state of the terminal is detected.
- the state of the terminal includes one of the following or any combination thereof: remaining power, battery temperature, time, location, network connection mode, Foreground application, ambient temperature.
- detecting the network connection mode includes detecting whether the network connection is wifi or a data connection, and detecting whether the data network connection is 4G or 5G; detecting foreground applications includes video playback and game applications.
- the terminal when the terminal is controlled by a vehicle, in addition to detecting the corresponding state of the above-mentioned mobile phone, it is also necessary to detect the location of the vehicle, because the location of the electric vehicle is also a consideration factor for the user to choose the charging mode.
- Step 102 acquiring a charging mode that matches the current state of the terminal.
- the charging mode includes charging speed and system setting information of the terminal, the charging speed mode includes: fast charging and normal charging; the system setting information includes one of the following or any combination thereof: turn off WIFI, turn off mobile data, turn off GPS ; Turn off Bluetooth, switch to airplane mode, mute, unplug the charging cable to answer the phone, turn off the lights, turn off the air conditioner, turn off the USB power, turn off the cigarette lighter power, turn off the car computer.
- the charging speed method may also include: trickle charging.
- the terminal is a mobile phone or an iPad
- the current state of the mobile phone or ipad is input into a pre-trained artificial intelligence learning model that is set to obtain a charging mode.
- the training samples set to train the artificial intelligence learning model include the following (1) to (6).
- Remaining power If the remaining power is low, fast charging will be given priority, and if the power is close to full, trickle charging will be given priority.
- Foreground application determine whether there are video playback and game applications in the foreground application. If the user will continue to use it, fast charging is generally not performed.
- Ambient temperature When the ambient temperature is too high, the battery will become obviously hot during charging, and fast charging is generally not performed.
- the terminal can also be a vehicle control terminal, and the current state of the vehicle control terminal is input into the pre-trained artificial intelligence learning model for obtaining the charging mode.
- the training samples of the artificial intelligence learning model can include: remaining Power level, battery temperature, time, location, ambient temperature. Among them, if the charging time of the vehicle control terminal is in the morning or during working hours, fast charging is given priority; after work, fast charging is generally not performed; when the vehicle control terminal is at a public charging pile, fast charging is given priority; Charging in the parking space generally does not carry out fast charging. The correlation between remaining power, battery temperature, ambient temperature and charging mode will not be described in detail.
- Step 103 displaying the matching charging mode through the human-computer interaction interface.
- the matching charging mode is displayed through a human-computer interaction interface.
- the human-computer interaction interface includes an option box for charging speed and system settings, and the charging speed options are: fast charging, normal charging, and trickle charging; the system setting options Including one or any combination of the following: turn off WIFI, turn off mobile data, turn off GPS; turn off Bluetooth, switch to airplane mode, mute, unplug the charging cable to answer the phone.
- the matching charging mode is the charging mode recommended by artificial intelligence, and the recommended option box will be selected by default.
- the charging speed is normal charging
- the system is set to turn off wifi, turn off GPS, and turn off bluetooth. Therefore, the charging mode displayed on the human-computer interaction interface is: the "normal charging” option box of charging speed will be selected by default; the option boxes of "turn off wifi”, “turn off GPS” and “turn off bluetooth” in system settings will be selected by default.
- the terminal can also be a vehicle control
- the human-computer interaction interface is generally a horizontal screen
- the human-computer interaction interface includes charging speed and system setting option boxes, the charging speed
- the options are: fast charging, normal charging, and trickle charging
- the system setting options include one or any combination of the following: turn off the light, turn off the air conditioner, turn off the USB power supply, turn off the cigarette lighter power supply, and turn off the vehicle control terminal.
- the matching charging mode is the charging mode recommended by artificial intelligence, and the recommended option box will be selected by default.
- the charging speed is fast charging
- the system setting information is to turn off the light, turn off the air conditioner, turn off the USB power supply, turn off the cigarette lighter power supply, and turn off the vehicle control terminal. Therefore, the matching charging mode displayed on the human-computer interaction interface is: the "fast charging” option box of the charging speed will be selected by default; The option boxes of "Turn off the cigarette lighter power” and “Turn off the vehicle control terminal" are selected by default.
- Step 104 if a confirmation command for the matching charging mode is detected, charging is performed in the matching charging mode.
- the matching charging mode is displayed on the human-computer interaction interface
- the user thinks that the displayed matching charging mode is suitable for the current use of the terminal he will send a confirmation command by clicking the "Confirm” button, and the terminal will Charge in the matching charging mode, and the human-computer interface will display "Charging according to the recommended charging mode”.
- the user can customize and modify the charging mode. If an instruction to modify the matching charging mode is detected, a user-defined charging mode is received through the human-computer interaction interface, and charging is performed in the user-defined charging mode.
- a user-defined charging mode is received through the human-computer interaction interface, and charging is performed in the user-defined charging mode.
- the terminal is a mobile phone
- the user can customize and modify the charging speed options including: fast charging, normal charging, and trickle charging.
- Users can customize and modify the system setting options include one or any combination of the following: turn off WIFI, turn off mobile data, turn off GPS; turn off Bluetooth, switch to airplane mode, mute, unplug the charging cable to answer the phone.
- the user's current mobile phone power is 70%, and the mobile phone is charging in the charging mode recommended by artificial intelligence.
- the charging speed recommended by artificial intelligence is normal charging.
- the recommended mobile phone system settings are to turn off wifi, turn off GPS, and turn off bluetooth.
- the user needs to go out for errands after 20 minutes, and needs to use the mobile phone to check the route online.
- the user can switch the charging speed "normal charging” to "fast charging” on the human-computer interaction interface; cancel the "turn off wifi” option box in the system setting information box, and cancel the "turn off GPS” option box.
- the human-computer interaction interface displays "Charging according to the charging mode you selected”.
- User-defined choice to modify the charging speed solves the user's concern that the mobile phone battery is not enough when going out.
- User-defined choice to modify the system settings meets the user's current needs for using WIFI to surf the Internet and navigate routes. highly customized needs.
- the terminal is a vehicle control (or on-board computer, or an intelligent terminal connected to CarLife/CarPlay)
- the man-machine interface displays the matching charging mode
- the user thinks The displayed matching charging mode is not suitable for the current use of the terminal, and the user can customize and modify the charging mode of the vehicle control terminal.
- a user-defined charging mode is received through the human-computer interaction interface, and charging is performed in the user-defined charging mode. Users can customize and modify the charging speed options include: fast charging, normal charging, and trickle charging.
- Users can customize and modify the charging speed, which meets the user's needs for the current vehicle charging speed, and customizes and modifies the system setting information of the vehicle control, which improves the charging efficiency, is more in line with the user's charging habits, and meets the user's highly customized needs for the charging mode.
- the matching charging mode is updated to the user-defined charging mode, and the parameters of the artificial intelligence learning model Update and calculate a charging mode that is more in line with the user's habits for the user to choose next time.
- the embodiment of the present invention recommends a charging mode that matches the current state of the terminal according to the current state of the terminal, and recommends a matching charging speed and system settings according to the charging time, charging location, foreground application, network connection mode, ambient temperature, and battery temperature Information, while meeting the requirements of the user's terminal for system settings, it also improves the charging efficiency.
- the matching charging mode must ensure the safe use of the terminal charging mode by the user. For example, when the user makes a call, the human-computer interaction interface displays the system setting in the matching charging mode "the charging cable must be unplugged Answer the phone" option box is recommended to be selected, which ensures the security of users to answer and make calls.
- the human-computer interaction interface displays the charging speed "normal charging” option in the matching charging mode
- the box is recommended to be checked, improving battery life and security of the user using the terminal.
- the charging mode that matches the terminal is displayed on the human-computer interaction interface for the user to choose, and the matching charging mode will be updated to the user-defined charging mode, which is more in line with the user's charging habits and satisfies the user's high customization of the charging mode need.
- the terminal can be a mobile phone, a tablet computer, or a smart wearable device.
- the details of the charging method for the terminal are described below using a mobile phone as an example. The following content is for convenience only It is not necessary to understand the provided implementation details to implement this embodiment.
- the flowchart of the terminal charging method described in this embodiment is shown in FIG. 4 .
- step 401 it is detected that the data line is connected.
- Step 402 acquiring the current state of the mobile phone.
- detecting the current status of the mobile phone includes remaining power, battery temperature, time, network connection mode, foreground application, ambient temperature, and the like. It is the same as detecting the current terminal state in step 101 above, and will not be described in detail to avoid repetition.
- Step 403 using the artificial intelligence learning model to obtain the charging mode matched by the current device.
- the artificial intelligence learning model is used to calculate the charging mode that matches the current device: such as charging voltage and current, mobile phone system settings.
- the current state of the mobile phone is input into the pre-trained artificial intelligence learning model for obtaining the charging mode, and the charging mode matching the current state is obtained based on the output of the artificial intelligence learning model.
- the artificial intelligence learning model is the same as step 102 of the previous embodiment, and will not be described in detail to avoid repetition.
- the charging mode that matches the current device can be calculated through the artificial intelligence learning model.
- Step 404 displaying the recommended charging mode to the user in a human-computer interaction manner, and prompting the user to make custom adjustments.
- the user can customize the current charging mode on the human-computer interaction interface and modify the charging mode It is the charging mode that matches the user's current usage.
- Step 405 judging whether the user has performed custom modification of the current charging mode.
- the user-defined charging mode is received through the human-computer interaction interface, and the Charge in the charging mode defined by the user, and then go to step 406 . If the user does not modify the current charging mode, enter step 407, issue a confirmation command, and charge the mobile phone in the matching charging mode.
- Step 406 updating the parameters of the artificial intelligence learning model, so that the next calculation result is more in line with the user's habits.
- the matching charging mode is updated to the user-defined charging mode, and the parameters of the artificial intelligence learning model are updated , calculate a charging mode that is more in line with the user's habits for the user to choose next time.
- step 407 the final confirmed charging voltage and current control parameters and the mobile phone state control mode are obtained, and the charging mode control is completed.
- the embodiment of the present invention detects the current state of the terminal to obtain the charging speed matching the current state of the terminal and the system setting information of the terminal, which improves the charging efficiency while meeting the user's requirements for system setting, and Since the recommended charging mode is a charging mode that matches the current state of the terminal, the safety of the user can be guaranteed, the safety of the battery and the terminal used by the user can be improved, and the service life of the battery can also be improved.
- charging is performed in the matching charging mode, which can further ensure that the charging mode meets the user's needs.
- this embodiment is a system embodiment corresponding to the above method embodiment, and this embodiment can be implemented in cooperation with the above method embodiment.
- the relevant technical details and technical effects mentioned in the above embodiments are still valid in this embodiment, and will not be repeated here to reduce repetition.
- the relevant technical details mentioned in this embodiment can also be applied in the above embodiments.
- modules involved in this embodiment are logical modules.
- a logical unit can be a physical unit, or a part of a physical unit, or multiple physical units. Combination of units.
- units that are not closely related to solving the technical problem proposed by the present invention are not introduced in this embodiment, but this does not mean that there are no other units in this embodiment.
- FIG. 5 Another embodiment of the present invention relates to a charging device for a terminal, as shown in FIG. 5 , including a detection module 501 configured to detect the current state of the terminal; an acquisition module 502 configured to obtain the current state of the terminal.
- a matching charging mode wherein, the charging mode includes charging speed and system setting information of the terminal;
- the display module 503 is configured to display the matching charging mode through a human-computer interaction interface;
- the charging module 504 is configured to When a confirmation instruction for the matching charging mode is detected, charging is performed in the matching charging mode.
- the charging module 504 is further configured to receive a user-defined charging mode through the human-computer interaction interface after detecting a modification instruction for the matching charging mode, and use the user-defined charge in the charging mode.
- the obtaining module 502 is specifically configured to input the current state of the terminal into the pre-trained artificial intelligence learning model for obtaining the charging mode, and obtain the current state based on the output of the artificial intelligence learning model. Matching charging mode.
- the charging device of the terminal may further include an updating module (not shown in the figure), configured to update the matching charging mode after detecting a modification instruction for the matching charging mode For the user-defined charging mode, the parameters of the artificial intelligence learning model are updated.
- the terminal may be a mobile terminal
- the human-computer interaction interface includes an option box for charging speed and system settings
- the charging speed options are: fast charging and normal charging
- the system setting options include one of the following or any Combination: turn off WIFI, turn off mobile data, turn off GPS; turn off Bluetooth, switch to airplane mode, mute, unplug the charging cable to answer the phone.
- the terminal can be a vehicle control terminal;
- the human-computer interaction interface includes an option box for charging speed and system settings, and the charging speed options are: fast charging and normal charging;
- the system setting options include one or more of the following Any combination: turn off the lights, turn off the air conditioner, turn off the USB power, turn off the cigarette lighter power, turn off the vehicle control terminal.
- the detection module 501 is configured to detect that the state of the terminal includes one or any combination of the following: remaining power, battery temperature, time, network connection mode, foreground application, and ambient temperature.
- FIG. 6 Another embodiment of the present invention relates to an electronic device, as shown in FIG. 6 , including: at least one processor 601; and a memory 602 communicatively connected to the at least one processor 601; wherein, the memory 602 stores Instructions that can be executed by the at least one processor 601, the instructions are executed by the at least one processor 601, so that the at least one processor 601 can execute the method for charging a terminal in the foregoing embodiments.
- the memory and the processor are connected by a bus
- the bus may include any number of interconnected buses and bridges, and the bus connects one or more processors and various circuits of the memory together.
- the bus may also connect together various other circuits such as peripherals, voltage regulators, and power management circuits, all of which are well known in the art and therefore will not be further described herein.
- the bus interface provides an interface between the bus and the transceivers.
- a transceiver may be a single element or multiple elements, such as multiple receivers and transmitters, providing means for communicating with various other devices over a transmission medium.
- the data processed by the processor is transmitted on the wireless medium through the antenna, further, the antenna also receives the data and transmits the data to the processor.
- the processor is responsible for managing the bus and general processing, and can also provide various functions, including timing, peripheral interface, voltage regulation, power management, and other control functions. Instead, memory can be used to store data that the processor uses when performing operations.
- Another embodiment of the present invention relates to a computer-readable storage medium storing a computer program.
- the above method embodiments are implemented when the computer program is executed by the processor.
- the embodiment of the present invention detects the current state of the terminal to obtain the charging speed matching the current state of the terminal and the system setting information of the terminal, which improves the charging efficiency while meeting the user's requirements for system setting, and Since the recommended charging mode is a charging mode that matches the current state of the terminal, the safety of the user can be guaranteed, the safety of the battery and the terminal used by the user can be improved, and the service life of the battery can also be improved.
- charging is performed in the matching charging mode, which can further ensure that the charging mode meets the user's needs.
- a storage medium includes several instructions to make a device ( It may be a single-chip microcomputer, a chip, etc.) or a processor (processor) to execute all or part of the steps of the methods described in the various embodiments of the present application.
- the aforementioned storage media include: U disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disk or optical disc, etc., which can store program codes. .
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Abstract
一种终端的充电方法、电子设备、装置、服务器以及存储介质。该终端的充电方法包括:检测终端当前的状态(101);获取与所述终端当前状态相匹配的充电模式(102);其中,所述充电模式包括充电速度和终端的系统设置信息;通过人机交互界面显示所述相匹配的充电模式(103);若检测到对所述相匹配的充电模式的确认指令,则以所述相匹配的充电模式进行充电(104)。
Description
相关申请的交叉引用
本申请基于申请号为202110963277.4、申请日为2021年8月20日的中国专利申请提出,并要求该中国专利申请的优先权,该中国专利申请的全部内容在此引入本申请作为参考。
本申请实施例涉及充电技术领域,特别涉及一种终端的充电方法、装置、电子设备以及存储介质。
随着智能终端的大量使用和车辆控制终端的快速发展,如何方便、高效、安全的进行充电已经是大家普遍面对的问题。在充电过程中,当用户不需要使用某些终端系统功能,比如系统设置中蓝牙、GPS等,若充电时候蓝牙未关闭,GPS未关闭,就会导致充电时间加长,充电不够高效。在充电过程中,也存在终端电池的寿命问题和用户使用终端的安全性问题,比如智能手机充电过程中,前台应用视频播放、游戏类应用开启,当电池温度过高时,快充会加速电池热量上升,对电池甚至手机的寿命的影响较大;还有充电时接电话存在有触电风险的安全性问题。因此,传统的充电模式存在充电效率不高,安全性不强的问题。
发明内容
本申请实施例的主要目的在于提出一种终端的充电方法、设备、服务器以及存储介质。
为实现上述目的,本申请实施例提供了一种终端的充电方法,所述方法包括,检测终端当前的状态;获取与所述终端当前状态相匹配的充电模式;其中,所述充电模式包括充电速度和终端的系统设置信息;通过人机交互界面显示所述相匹配的充电模式;若检测到对所述相匹配的充电模式的确认指令,则以所述相匹配的充电模式进行充电。
为实现上述目的,本申请实施例还提供一种终端的充电装置,包括:检测模块,被设置为检测终端当前的状态;获取模块,被设置为获取与所述终端当前状态相匹配的充电模式;其中,所述充电模式包括充电速度和终端的系统设置信息;显示模块,被设置为通过人机交互界面显示所述相匹配的充电模式;充电模块,被设置为在检测到对所述相匹配的充电模式的确认指令后,则以所述相匹配的充电模式进行充电。所述终端的充电装置执行上述终端的充电方法。
为实现上述目的,本申请实施例还提供了一种电子设备,包括:至少一个处理器;以及,与所述至少一个处理器通信连接的存储器;其中,所述存储器存储有可被所述至少一个处理器执行的指令,所述指令被所述至少一个处理器执行,以使所述至少一个处理器能够执行上述终端的充电方法。
为实现上述目的,本申请实施例还提供了一种计算机可读存储介质,存储有计算机程序,所述计算机程序被处理器执行时实现上述终端的充电方法。
图1是根据本发明一个实施例的终端的充电方法流程图;
图2是根据本发明一个实施例中终端为手机的人机交互界面示意图;
图3是根据本发明一个实施例中提供的一种终端为车辆控制的人机交互界面示意图;
图4是根据本发明另一个实施例的终端的充电方法流程图;
图5是根据本发明另一个实施例中提供的终端的充电装置示意图;
图6是根据本发明另一个实施例的电子设备的结构示意图。
为使本申请实施例的目的、技术方案和优点更加清楚,下面将结合附图对本申请的各实施例进行详细的阐述。然而,本领域的普通技术人员可以理解,在本申请各实施例中,为了使读者更好地理解本申请而提出了许多技术细节。但是,即使没有这些技术细节和基于以下各实施例的种种变化和修改,也可以实现本申请所要求保护的技术方案。以下各个实施例的划分是为了描述方便,不应对本申请的具体实现方式构成任何限定,各个实施例在不矛盾的前提下可以相互结合相互引用。
本发明的一个实施例涉及一种终端的充电方法,方法包括:检测终端当前的状态;获取与所述终端当前状态相匹配的充电模式;其中,所述充电模式包括充电速度和终端的系统设置信息;通过人机交互界面显示所述相匹配的充电模式;若检测到对所述相匹配的充电模式的确认指令,则以所述相匹配的充电模式进行充电。在满足用户对系统设置的要求的同时,提升了充电的效率,而且由于推荐的充电模式是与终端当前状态相匹配的充电模式,因此可以保障用户安全,提升了电池和用户使用终端的安全性,也提高了电池的使用寿命。另外,在检测到对所述相匹配的充电模式的确认指令后,再以所述相匹配的充电模式进行充电,可以进一步保证充电模式是符合用户需求的充电模式。
下面对本实施例的用户自定义充电模式的方法的实现细节进行具体的说明,以下内容仅为方便理解提供的实现细节,并非实施本方案的必须。
本实施例的终端的充电方法的具体流程可以如图1所示,包括步骤101至步骤104。
步骤101,检测终端的当前的状态。
具体而言,在检测到终端已连接充电线后,开始检测终端的当前的状态,所述终端的状态包括以下之一或其任意组合:剩余电量、电池温度、时间、地点、网络连接方式、前台应用、环境温度。
在一个例子中,当终端为手机、平板电脑时,检测手机或平板电脑当前状态,具体检测剩余电量、电池温度、时间、终端当前温度、网络连接方式,检测前台应用、后台应用。其中,检测网络连接方式包括检测网络连接是wifi还是数据连接,检测数据网络连接是4G还是5G;检测前台应用包括视频播放、游戏应用。
在另一个例子中,当终端为车辆控制,除检测上述手机对应的状态外,还需检测车辆车所在地点,因为电动车所在地点的不同也是用户对充电模式选择的考量因素。
步骤102,获取与所述终端当前状态相匹配的充电模式。
具体而言,在检测终端当前的状态后,将所述终端当前的状态输入到预先训练好的被设 置为获取充电模式的人工智能学习模型,基于所述人工智能学习模型的输出获得与当前的状态相匹配的充电模式。其中,所述充电模式包括充电速度和终端的系统设置信息,充电速度方式包括:快速充电和普通充电;所述系统设置信息包括以下之一或其任意组合:关闭WIFI、关闭移动数据、关闭GPS;关闭蓝牙、切换到飞行模式、静音、拔掉充电线才能接电话、关闭灯光、关闭空调、关闭USB电源、关闭点烟器电源、关闭车载电脑。在其他例子中,充电速度方式还可以包括:涓流充电。
在一个例子中,若所述终端为手机或iPad,以手机或ipad的当前状态输入到预先训练好的被设置为获取充电模式的人工智能学习模型中。其中,被设置为训练该人工智能学习模型的训练样本包括以下(1)至(6)。
(1)剩余电量:若剩余电量少时则优先进行快充,若电量接近满时则优先涓流充电。
(2)电池温度:电池温度越高,电池稳定性越低,一般不进行快充。
(3)时间:如果是午休时间,优先关闭网络并静音,由于午休时间不会太长,优选选择快充。如果是夜晚充电,因时间很长,一般不进行快充。
(4)网络连接方式:是否连接wifi,wifi连接比移动数据稳定,通常功耗更低,充电环境更稳定。如果是5G数据连接,功耗通常比4G更大,充电时手机更容易发烫。
(5)前台应用:判断前台应用是否有视频播放、游戏类应用,若用户还会继续使用,一般不进行快充。
(6)环境温度:当环境温度过高时,电池充电过程会明显发烫,一般不进行快充。
在另一个例子中,终端还可以是车辆控制终端,将车辆控制终端的当前状态输入到预先训练好的用于获取充电模式的人工智能学习模型中,人工智能学习模型的训练样本可以包括:剩余电量、电池温度、时间、地点、环境温度。其中,若车辆控制终端的充电时间是早上或者工作时间,优先快充;下班后的时间,一般不进行快充;当车辆控制终端在公共的充电桩,优先快速充电;如果是在自己专用的停车位上充电,一般不进行快充。剩余电量、电池温度、环境温度与充电模式的关联性不再赘述。
步骤103,通过人机交互界面显示所述相匹配的充电模式。
具体而言,在步骤102之后,即基于人工智能学习模型的输出获得与当前的状态相匹配的充电模式后,通过人机交互界面显示所述相匹配的充电模式。如图2所示,若终端为移动终端,所述人机交互界面包括充电速度和系统设置的选项框,所述充电速度选项为:快速充电、普通充电、涓流充电;所述系统设置选项包括以下之一或其任意组合:关闭WIFI、关闭移动数据、关闭GPS;关闭蓝牙、切换到飞行模式、静音、拔掉充电线接电话。所述相匹配的充电模式人工智能推荐的充电模式,推荐的选项框会被默认选中。比如,在所述相匹配的充电模式中,充电速度为普通充电,系统设置为关闭wifi,关闭GPS,关闭蓝牙。因此,在人机交互界面显示的充电模式为:充电速度的“普通充电”选项框会被默认选中;系统设置的“关闭wifi”、“关闭GPS”、“关闭蓝牙”选项框被默认选中。
在另一个例子中,如图3所示,终端还可以是车辆控制,所述人机交互界面一般是横屏,所述人机交互界面包括充电速度和系统设置的选项框,所述充电速度选项为:快速充电、普通充电、涓流充电;所述系统设置选项包括以下之一或其任意组合:关闭灯光、关闭空调、关闭USB电源、关闭点烟器电源、关闭车辆控制终端。所述相匹配的充电模式为人工智能推荐的充电模式,推荐的选项框会被默认选中。比如,所述相匹配的充电模式中,充电速度为 快速充电,系统设置信息为关闭灯光、关闭空调、关闭USB电源、关闭点烟器电源、关闭车辆控制终端。因此,在人机交互界面显示所述相匹配的充电模式为:充电速度的“快速充电”选项框会被默认选中;系统设置的“关闭灯光”、“关闭空调”、“关闭USB电源”、“关闭点烟器电源”、“关闭车辆控制终端”选项框被默认选中。
步骤104,若检测到对所述相匹配的充电模式的确认指令,则以所述相匹配的充电模式进行充电。
具体而言,在人机交互界面显示相匹配的充电模式后,若用户认为所显示相匹配的充电模式适用于终端当前使用情况,则通过点击“确认”按键下发确认指令,终端在所述相匹配的充电模式下进行充电,人机交互界面显示“已经按照推荐的充电模式充电”。
在另一个例子中,在人机交互界面显示所述相匹配的充电模式后,若用户认为所显示相匹配的充电模式不适用于终端当前使用情况,用户可自定义对充电模式进行修改。若检测到对所述相匹配的充电模式的修改指令,则通过所述人机交互界面接收用户自定义的充电模式,并以所述用户自定义的充电模式进行充电。如图2所示,当终端为手机时,用户可自定义修改充电速度选项包括:快速充电、普通充电、涓流充电。用户可自定义修改系统设置选项包括以下之一或其任意组合:关闭WIFI、关闭移动数据、关闭GPS;关闭蓝牙、切换到飞行模式、静音、拔掉充电线接电话。例如,用户当前手机电量为70%,手机在人工智能推荐的充电模式中充电,人工智能推荐充电速度为普通充电,推荐的手机系统设置是关闭wifi,关闭GPS,关闭蓝牙。用户在20min后要出门办事,且需要用手机上网查询路线。用户就可以在人机交互界面将充电速度“普通充电”切换为“快速充电”;将系统设置信息框选择取消“关闭wifi”,取消“关闭GPS”选项框。在用户自定义修改充电模式后,人机交互界面显示“已经按照您选择的充电模式充电”。用户自定义选择修改充电速度,解决了用户出门手机电量不够用的担忧,用户自定义选择修改系统设置,满足了用户当前使用WIFI上网导航路线的需求,更符合用户充电习惯,满足用户对充电模式的高度定制需求。
在另一个例子中,如图3所示,若终端为车辆控制(或车载电脑,或者CarLife/CarPlay连接的智能终端),在人机交互界面显示所述相匹配的充电模式后,若用户认为所显示相匹配的充电模式不适用于终端当前使用情况,用户可自定义对车辆控制终端充电模式进行修改。若检测到对所述相匹配的充电模式的修改指令,则通过所述人机交互界面接收用户自定义的充电模式,并以所述用户自定义的充电模式进行充电。用户可自定义修改充电速度选项包括:快速充电、普通充电、涓流充电。用户可自定义修改,系统设置选项包括以下之一或其任意组合:关闭灯光、关闭空调、关闭USB电源、关闭点烟器电源、关闭车载电脑。用户可自定义修改充电速度,满足了用户对当前车辆充电速度的需求,自定义修改车辆控制的系统设置信息,提升了充电效率,更符合用户充电习惯,满足用户对充电模式的高度定制需求。
在另一个例子中,若检测到对所述相匹配的充电模式的修改指令,则将所述相匹配的充电模式更新为所述用户自定义的充电模式,对所述人工智能学习模型的参数进行更新,计算出更符合用户习惯的充电模式供用户下次选择。
本发明的实施例根据终端当前状态推荐与所述终端当前状态相匹配的充电模式,根据充电时间、充电地点、前台应用、网络连接方式、环境温度、电池温度推荐相匹配的充电速度和系统设置信息,满足用户使用终端对系统设置的要求的同时,提升了充电的效率。所述相 匹配的充电模式必然是保障用户安全使用终端充电模式,比如说用户在接打电话时,所述人机交互界面显示所述相匹配的充电模式中的系统设置“必须拔掉充电线接电话”选项框被推荐选中,保障了用户接打电话的安全性。再比如,当检测到终端当前的电池温度过高,快充使得电池温度更高影响电池或终端寿命,所述人机交互界面显示所述相匹配的充电模式中的充电速度“普通充电”选项框被推荐选中,提升了电池寿命和用户使用终端的安全性。通过人机交互界面显示与终端相匹配的充电模式供用户选择,所述相匹配的充电模式会更新为所述用户自定义的充电模式,更符合用户充电习惯,满足用户对充电模式的高度定制需求。
本发明的另一个实施例涉及一种终端的充电方法,终端可以是手机、平板电脑或智能穿戴设备,下面以手机为例,对终端的充电方法的细节进行具体的说明,以下内容仅为方便理解提供的实现细节,并非实施本例的必须,本实施例所述的终端的充电方法流程图如图4所示。
步骤401,检测到已连接数据线。
步骤402,获取手机的当前状态。
具体而言,检测手机的当前的状态包括剩余电量、电池温度、时间、网络连接方式、前台应用、环境温度等。同上述步骤101中检测当前终端状态相同,为避免重复不再赘述。
步骤403,采用人工智能学习模型,获取当前设备匹配的充电模式。
具体而言,采用人工智能学习模型,计算与当前设备匹配的充电模式:如充电电压电流、手机系统设置。将手机当前的状态输入到预先训练好的用于获取充电模式的人工智能学习模型,基于所述人工智能学习模型的输出获得与当前的状态相匹配的充电模式。人工智能学习模型同上一个实施例步骤102一样,为避免重复不在赘述。通过人工智能学习模型即可计算出与当前设备匹配的充电模式。
步骤404,以人机交互的方式展示推荐的充电模式给用户,并提示用户可以自定义调整。
具体而言,若用户认为所述推荐的充电模式不适用于终端当前使用情况,或用户当前使用情况临时发生变化,用户在所述人机交互界面对当前充电模式进行自定义调整,修改充电模式为与用户当前使用情况相匹配的充电模式。
步骤405,判断用户是否进行了当前充电模式的自定义修改。
具体而言,若用户对当前充电模式进行自定义修改,在检测到对所述相匹配的充电模式的修改指令后,通过所述人机交互界面接收用户自定义的充电模式,并以所述用户自定义的充电模式进行充电,然后进入步骤406。若用户没有对当前充电模式进行修改,则进入步骤407,下发确认指令,手机在所述相匹配的充电模式下进行充电。
步骤406,更新人工智能学习模型的参数,便于下次计算结果更符合用户习惯。
具体而言,若检测到对所述相匹配的充电模式的修改指令,则将所述相匹配的充电模式更新为所述用户自定义的充电模式,对所述人工智能学习模型的参数进行更新,计算出更符合用户习惯的充电模式供用户下次选择。
步骤407,得到最终确认的充电电压电流控制参数,及手机状态控制方式,完成充电模式的控制。
本发明的实施例通过检测终端当前的状态,从而获取与所述终端当前状态相匹配的充电速度和终端的系统设置信息,在满足用户对系统设置的要求的同时,提升了充电的效率,而且由于推荐的充电模式是与终端当前状态相匹配的充电模式,因此可以保障用户安全,提升 了电池和用户使用终端的安全性,也提高了电池的使用寿命。另外,在检测到对所述相匹配的充电模式的确认指令后,再以所述相匹配的充电模式进行充电,可以进一步保证充电模式是符合用户需求的充电模式。
不难发现,本实施例为与上述方法实施例对应的系统实施例,本实施例可以与上述方法实施例互相配合实施。上述实施例中提到的相关技术细节和技术效果在本实施例中依然有效,为了减少重复,这里不再赘述。相应地,本实施例中提到的相关技术细节也可应用在上述实施例中。
值得一提的是,本实施例中所涉及到的各模块均为逻辑模块,在实际应用中,一个逻辑单元可以是一个物理单元,也可以是一个物理单元的一部分,还可以以多个物理单元的组合实现。此外,为了突出本发明的创新部分,本实施例中并没有将与解决本发明所提出的技术问题关系不太密切的单元引入,但这并不表明本实施例中不存在其它的单元。
本发明另一个实施例涉及一种终端的充电装置,如图5所示,包括,检测模块501,被设置为检测终端当前的状态;获取模块502,被设置为获取与所述终端当前状态相匹配的充电模式;其中,所述充电模式包括充电速度和终端的系统设置信息;显示模块503,被设置为通过人机交互界面显示所述相匹配的充电模式;充电模块504,被设置为在检测到对所述相匹配的充电模式的确认指令时,则以所述相匹配的充电模式进行充电。
在一个例子中,充电模块504还被设置为在检测到对所述相匹配的充电模式的修改指令,则通过所述人机交互界面接收用户自定义的充电模式,并以所述用户自定义的充电模式进行充电。
在一个例子中,获取模块502具体被设置为将所述终端当前的状态输入到预先训练好的用于获取充电模式的人工智能学习模型,基于所述人工智能学习模型的输出获得与当前的状态相匹配的充电模式。
在一个例子中,终端的充电装置还可以包括更新模块(图中未示出),被设置为在检测到对所述相匹配的充电模式的修改指令后,将所述相匹配的充电模式更新为所述用户自定义的充电模式,对所述人工智能学习模型的参数进行更新。
在一个例子中,终端可以是移动终端,人机交互界面包括充电速度和系统设置的选项框,所述充电速度选项为:快速充电和普通充电;所述系统设置选项包括以下之一或其任意组合:关闭WIFI、关闭移动数据、关闭GPS;关闭蓝牙、切换到飞行模式、静音、拔掉充电线接电话。
在一个例子中,终端可以是车辆控制终端;人机交互界面包括充电速度和系统设置的选项框,所述充电速度选项为:快速充电和普通充电;所述系统设置选项包括以下之一或其任意组合:关闭灯光、关闭空调、关闭USB电源、关闭点烟器电源、关闭车辆控制终端。
在一个例子中,检测模块501被设置为检测所述所述终端的状态包括以下之一或其任意组合:剩余电量、电池温度、时间、网络连接方式、前台应用、环境温度。
本发明另一个实施例涉及一种电子设备,如图6所示,包括:至少一个处理器601;以及,与所述至少一个处理器601通信连接的存储器602;其中,所述存储器602存储有可被所述至少一个处理器601执行的指令,所述指令被所述至少一个处理器601执行,以使所述至少一个处理器601能够执行上述各实施例中的终端充电的方法。
其中,存储器和处理器采用总线方式连接,总线可以包括任意数量的互联的总线和桥, 总线将一个或多个处理器和存储器的各种电路连接在一起。总线还可以将诸如外围设备、稳压器和功率管理电路等之类的各种其他电路连接在一起,这些都是本领域所公知的,因此,本文不再对其进行进一步描述。总线接口在总线和收发机之间提供接口。收发机可以是一个元件,也可以是多个元件,比如多个接收器和发送器,提供用于在传输介质上与各种其他装置通信的单元。经处理器处理的数据通过天线在无线介质上进行传输,进一步,天线还接收数据并将数据传送给处理器。
处理器负责管理总线和通常的处理,还可以提供各种功能,包括定时,外围接口,电压调节、电源管理以及其他控制功能。而存储器可以被用于存储处理器在执行操作时所使用的数据。
本发明另一个实施例涉及一种计算机可读存储介质,存储有计算机程序。计算机程序被处理器执行时实现上述方法实施例。
本发明的实施例通过检测终端当前的状态,从而获取与所述终端当前状态相匹配的充电速度和终端的系统设置信息,在满足用户对系统设置的要求的同时,提升了充电的效率,而且由于推荐的充电模式是与终端当前状态相匹配的充电模式,因此可以保障用户安全,提升了电池和用户使用终端的安全性,也提高了电池的使用寿命。另外,在检测到对所述相匹配的充电模式的确认指令后,再以所述相匹配的充电模式进行充电,可以进一步保证充电模式是符合用户需求的充电模式。
即,本领域技术人员可以理解,实现上述实施例方法中的全部或部分步骤是可以通过程序来指令相关的硬件来完成,该程序存储在一个存储介质中,包括若干指令用以使得一个设备(可以是单片机,芯片等)或处理器(processor)执行本申请各个实施例所述方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、磁碟或者光盘等各种可以存储程序代码的介质。
本领域的普通技术人员可以理解,上述各实施方式是实现本发明的一些实施例,而在实际应用中,可以在形式上和细节上对其作各种改变,而不偏离本发明的精神和范围。
Claims (10)
- 一种终端的充电方法,其中,所述方法包括:检测终端当前的状态;获取与所述终端当前状态相匹配的充电模式;其中,所述充电模式包括充电速度和终端的系统设置信息;通过人机交互界面显示所述相匹配的充电模式;若检测到对所述相匹配的充电模式的确认指令,则以所述相匹配的充电模式进行充电。
- 根据权利要求1所述的终端的充电方法,其中,所述通过人机交互界面显示所述相匹配的充电模式后,还包括:若检测到对所述相匹配的充电模式的修改指令,则通过所述人机交互界面接收用户自定义的充电模式,并以所述用户自定义的充电模式进行充电。
- 根据权利要求1所述的终端的充电方法,其中,所述获取与所述终端当前状态相匹配的充电模式,包括:将所述终端当前的状态输入到预先训练好的被设置为获取充电模式的人工智能学习模型,基于所述人工智能学习模型的输出获得与当前的状态相匹配的充电模式。
- 根据权利要求3所述的终端的充电方法,其中,所述方法还包括:若检测到对所述相匹配的充电模式的修改指令,则将所述相匹配的充电模式更新为所述用户自定义的充电模式,对所述人工智能学习模型的参数进行更新。
- 根据权利要求1至4中任一项所述的终端的充电方法,其中,所述终端包括移动终端;所述人机交互界面包括充电速度和系统设置的选项框,所述充电速度选项包括:快速充电和普通充电;所述系统设置选项包括以下之一或其任意组合:关闭WIFI、关闭移动数据、关闭GPS;关闭蓝牙、切换到飞行模式、静音、拔掉充电线接电话。
- 根据权利要求1至4中任一项所述的终端的充电方法,其中,所述终端包括车辆控制终端;所述人机交互界面包括充电速度和系统设置的选项框,所述充电速度选项包括:快速充电和普通充电;所述系统设置选项包括以下之一或其任意组合:关闭灯光、关闭空调、关闭USB电源、关闭点烟器电源、关闭车辆控制终端。
- 根据权利要求1至4中任一项所述的终端的充电方法,其中,所述终端的状态包括以下之一或其任意组合:剩余电量、电池温度、时间、地点、网络连接方式、前台应用、环境温度。
- 一种终端的充电装置,其中,包括:检测模块,被设置为检测终端当前的状态;获取模块,被设置为获取与所述终端当前状态相匹配的充电模式;其中,所述充电模式包括充电速度和终端的系统设置信息;显示模块,被设置为通过人机交互界面显示所述相匹配的充电模式;充电模块,被设置为在检测到对所述相匹配的充电模式的确认指令后,以所述相匹配的充电模式进行充电。
- 一种电子设备,其中,包括:至少一个处理器;以及,与所述至少一个处理器通信连接的存储器;其中,所述存储器存储有可被所述至少一个处理器执行的指令,所述指令被所述至少一个处理器执行,以使所述至少一个处理器能够执行如权利要求1至7中任一项所述终端的充电方法。
- 一种计算机可读存储介质,存储有计算机程序,其中,所述计算机程序被处理器执行时实现权利要求1至7中任一项所述终端的充电方法。
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