CN113555921A - Charging reminding method based on scene digitization and mobile terminal - Google Patents

Abstract

The invention relates to a charging reminding method and a mobile terminal based on scene digitization, wherein the charging reminding method comprises the following steps: periodically evaluating and/or updating a maximum charging capability associated with a charging location of a mobile terminal; evaluating the real-time actual charging capability of the mobile terminal during current charging; judging whether the real-time actual charging capacity reaches the current maximum charging capacity associated with the current position; and sending a charging prompt under the condition that the real-time actual charging capability does not reach the maximum charging capability associated with the current charging position. The method reminds people to select to replace a proper charger and a proper charging cable when the charging environment has better charging conditions, so that better charging speed is obtained.

Description

Charging reminding method based on scene digitization and mobile terminal

Technical Field

The invention relates to a charging reminding method and a mobile terminal, in particular to a charging reminding method and a mobile terminal based on scene digitization.

Background

With the development of the communication industry and the improvement of the living standard, mobile terminals, particularly intelligent mobile terminals, are rapidly popularized. The mobile internet is like a double-edged sword, and brings anxiety such as battery power and network flow to users while facilitating work and life of people. The battery power of the mobile terminal causes anxiety in that the mobile terminal cannot be used after the battery power is exhausted. In the foreseeable future, mobile terminal battery power induced anxiety may continue to accompany people until revolutionary battery technology has emerged.

In order to deal with and solve the anxiety of people to the battery capacity of the mobile terminal, the rapid charging technology comes up with the move, and the representativeness is as follows: VOOC flash charging rapid charging technology, high-pass Quick Charge 2.0 rapid charging technology, parallel distribution department Pump Express Plus rapid charging technology and the like. Different fast charging techniques require the use of a charger, or even a charging cable, that is compatible with the mobile terminal and is not generally interchangeable with one another. Therefore, in order to use the fast charging technology, a charger and a charging cable matched with the mobile terminal must be carried around, otherwise, the fast charging technology cannot be used due to the mismatch of the charger and the charging cable. However, carrying the charger and the charging cable anywhere and anytime inevitably reduces the experience of people using the mobile terminal. In addition, the trend of mobile terminal updating is accelerated, and the original charger and charging cable may not be matched with the existing mobile terminal in the using process after the mobile terminal is replaced, so that the fastest charging speed cannot be provided.

In the prior art, after the mobile terminal is connected with the charger and the charging cable to start charging, the mobile terminal usually reminds on a screen to start charging and prompts the time required for fully charging the battery, and simultaneously prompts the charging technology to be used, namely, quick charging or ordinary charging. It can be seen that the existing charging reminding scheme simply reflects whether charging is started or not, the charging technology used and the expected charging duration is finished, does not analyze the charging condition of the charging position based on the digitization of the charging scene, and carries out intelligent reminding when the charging position has better charging conditions so as to remind people to select and replace proper chargers and charging cables. Therefore, a method is needed for increasing analysis and study on the digitized charging environment based on the digitization of the previous charging scene on the basis of the existing charging reminding technology, and reminding people to select and replace a proper charger and a proper charging cable when the charging environment has better charging conditions so as to obtain better charging speed.

Disclosure of Invention

The invention provides a charging reminding method based on scene digitization and a mobile terminal, and aims to solve at least one of the technical problems.

According to an aspect of the present invention, a charging reminding method based on scene digitization is provided, and the charging reminding method may include:

periodically evaluating and/or updating a maximum charging capability associated with a charging location of a mobile terminal;

evaluating the real-time actual charging capability of the mobile terminal during current charging;

judging whether the real-time actual charging capacity reaches the maximum charging capacity associated with the current charging position; and

the charging reminder may be issued when the real-time actual charging capability does not reach (is less than) the maximum charging capability associated with the current charging location.

Optionally, periodically evaluating and/or updating the maximum charging capability associated with the charging location of the mobile terminal may include: the mobile terminal may record information including at least the charging location, the charging voltage, and the charging current on the basis of the collected charging location at each charging prior to the current charging, and may store the information in a database of the mobile terminal, and the mobile terminal may periodically evaluate and/or update the maximum charging capability for each charging location according to the stored information.

Alternatively, the charging power with the largest number of occurrences or the highest frequency may be used as the maximum charging capability of each charging location.

Optionally, the evaluating the real-time actual charging capability of the mobile terminal at the current charging time may include: when the mobile terminal starts to charge currently, real-time position information is acquired, and meanwhile, real-time charging voltage and real-time charging current can be acquired, so that real-time actual charging capacity is acquired.

Optionally, determining whether the real-time actual charging capability reaches the maximum charging capability associated with the current location may include: the maximum charging capacity corresponding to the real-time position can be searched in a database of the mobile terminal according to the acquired real-time position information, and the real-time actual charging capacity and the maximum charging capacity can be compared.

Optionally, the mobile terminal may prompt the user to select to replace the charger and the charging cable when the real-time actual charging capability of the mobile terminal does not reach the maximum charging capability associated with the current location.

According to a second aspect of the present invention, there is provided a mobile terminal for scene-based digitization, comprising:

a time module configured to acquire time information of the mobile terminal;

a location module that may be configured to obtain real-time location information of the mobile terminal;

an information acquisition module, which may be configured to acquire information of a charging position, a charging voltage and a charging current, a charging start time and a charging end time at the time of charging and store the information in a database module of the mobile terminal;

a capability assessment module that may be configured to assess charging capabilities at each charge, including assessing real-time charging capabilities and past maximum charging capabilities;

the comparison and judgment module is configured to compare the actual charging capacity of the real-time position of the mobile terminal with the maximum charging capacity associated with the real-time position and judge whether the actual charging capacity reaches the maximum charging capacity;

the charging reminding module can be configured to carry out charging reminding when the actual charging capacity of the real-time position does not reach the maximum charging capacity associated with the real-time position; and

a database module may be configured to maintain information including at least a charging location, a charging voltage and a charging current, and a maximum charging capability.

Compared with the prior art, the charging reminding method and the mobile terminal based on scene digitization remind people to select to replace proper chargers and charging cables when the charging environment has better charging conditions, so that better charging speed is obtained.

Drawings

Fig. 1 is a flowchart illustrating main steps of a charging reminder method based on scene digitization according to an embodiment of the present invention. And is

Fig. 2 is a schematic diagram illustrating constituent modules of a mobile terminal based on scene digitization according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the embodiments and specific examples of the present invention are described in detail below with reference to the accompanying drawings. It should be understood that the embodiments and specific examples described herein are intended only to illustrate and explain the present invention and are not intended to limit the present invention.

Charging reminding method based on scene digitization

Fig. 1 is a flowchart illustrating main steps of a charging alert method according to an embodiment of the present invention. Referring to fig. 1, the charging reminding method according to the embodiment of the present invention mainly includes the following steps:

step S1: periodically evaluating and/or updating a maximum charging capability associated with a charging location of a mobile terminal;

step S2: evaluating the real-time actual charging capability of the mobile terminal during current charging;

step S3: judging whether the real-time actual charging capacity reaches the maximum charging capacity associated with the current charging position; and

step S4: and sending a charging prompt under the condition that the real-time actual charging capacity does not reach the maximum charging capacity associated with the current charging position.

Specifically, according to the charging reminding method based on scene digitization provided by the invention, information such as charging voltage and charging current, charging position, charging start time and charging end time and the like is collected and recorded when the mobile terminal 11 is charged at ordinary times, and the maximum charging capacity associated with the charging position is periodically evaluated and/or updated; on this basis, when the mobile terminal 11 is connected to a charger and a charging cable starts charging, while real-time position information of the mobile terminal 11 is acquired through a position module 117 (as shown in fig. 2, which will be described later), real-time charging voltage and charging current of the mobile terminal 11 are acquired, and real-time charging capability is evaluated and calculated; the mobile terminal 11 searches the maximum charging capacity of the position corresponding to the real-time position in the database according to the acquired real-time position; the mobile terminal 11 compares the real-time charging capability of the real-time position with the maximum charging capability of the real-time position, and judges whether the charging capability of the real-time position reaches the maximum charging capability of the real-time position; if the real-time charging capability of the mobile terminal 11 at the real-time position does not reach the maximum charging capability of the real-time position, a charging prompt is sent to remind a user to select to replace a charger and a charging cable, so that the charging capability is improved.

The method is based on the concept of digital transformation, the charging scene of the mobile terminal 11 is digitized, and the maximum charging capacity of each charging position is evaluated and/or updated according to rules by acquiring and storing information (the information can also comprise charging starting time, charging ending time and the like) such as the charging position, charging voltage, charging current and the like of the mobile terminal 11 during each charging; during charging, the mobile terminal 11 evaluates the actual charging capacity of the real-time position in real time, compares the actual charging capacity with the maximum charging capacity of the previous position, and judges whether the actual charging capacity of the position reaches the maximum charging capacity; and when the actual charging capacity at the position does not reach the maximum charging capacity, reminding a user of selecting to replace the charger and the charging cable so as to obtain the maximum charging capacity. By implementing the method and the device, the intelligent level of the charging reminding of the mobile terminal can be enhanced, and the attraction to the user is improved.

Mobile terminal 11 based on scene digitization

The charging reminder based on scene digitization embodying the present invention will be described in more detail belowMethod ofThe mobile terminal 11.

As shown in fig. 2, in addition to the time module 116 and the location module 117, for example, which are possessed by the conventional smart mobile terminal, in order to realize the functions of the present invention, the mobile terminal 11 according to the present embodiment includes at least: the charging system comprises an information acquisition module 111, a capability evaluation module 112, a comparison and judgment module 113, a charging reminding module 114, a database module 115 and the like.

The information acquisition module 111 is configured to mainly complete acquisition of information such as a real-time position, a charging voltage and a charging current, a charging start time and a charging end time at the time of charging, and save in the database module 115; the capability evaluation module 112 mainly performs evaluation of charging capability (i.e., charging power) at each charging, including evaluation of real-time charging capability and past maximum charging capability; the comparing and determining module 113 mainly performs comparison between the actual charging capability of the real-time location of the mobile terminal 11 and the maximum charging capability of the location, and determines whether the actual charging capability reaches the maximum charging capability; the charging reminding module 114 is mainly used for reminding charging when the actual charging capacity of the real-time position does not reach the maximum charging capacity of the position; database module 114 primarily maintains information including charging location, charging voltage and charging current, and maximum charging capability, and may also maintain information including such as charging start time and charging end time. In addition, the conventional smart mobile terminal has, for example, a time module 116 configured to acquire time information and the like of the mobile terminal 11, and a location module 117 configured to acquire real-time location information and the like of the mobile terminal 11.

Charging reminding method based on scene digitization

The specific steps of the charging reminding method based on scene digitization are described in further detail below with reference to fig. 1.

Step S1, periodically evaluating and/or updating the maximum charging capacity of the corresponding charging position

When the mobile terminal 11 is connected with a charger and a charging cable for charging, the mobile terminal 11 records information such as charging voltage and charging current, charging start time and charging end time on the basis of collecting a real-time position, and stores the information in a database (database module 114) of the mobile terminal 11; when the charging information data collected and recorded in the database reaches a predetermined threshold, the mobile terminal 11 periodically processes the charging information according to the charging location (for each charging location), and evaluates and/or updates the maximum charging capacity of each charging location. The charging capability here refers to a charging power at the time of charging the mobile terminal 11. When evaluating the maximum charging capability of each charging location, the mobile terminal 11 may simply use the charging power with the largest number of occurrences or the highest frequency as the maximum charging capability of each charging location according to the number of occurrences, frequency, and the like of the different charging powers after calculation. Of course, in addition to the simpler methods described above, other more complex algorithms or models may be used to estimate the maximum charging capacity of each charging location, and the specific methods used in estimating and/or updating the maximum charging capacity of each charging location are not limited in the present invention.

S2, evaluating real-time actual charging capacity

After the mobile terminal 11 starts to charge, acquiring real-time position information and real-time charging voltage and real-time charging current at the same time; the mobile terminal 11 estimates real-time actual charging power according to the obtained real-time charging voltage and real-time charging current according to a formula P ═ U × I, where P is the real-time charging power, U is the real-time charging voltage, and I is the real-time charging current.

The mobile terminal 11 may directly use the original position obtaining method of the mobile terminal 11, such as satellite positioning, mobile network positioning, etc., when obtaining the real-time position, and the present invention does not limit the specific method adopted when the mobile terminal 11 obtains the real-time position.

Step 3, judging whether the real-time actual charging capacity reaches the maximum charging capacity

After the mobile terminal 11 evaluates the real-time actual charging capability through calculation, searching the maximum charging capability corresponding to the real-time position in the database according to the acquired real-time position information; when the maximum charging capability corresponding to the real-time position exists in the database, the mobile terminal 11 compares the actual charging capability of the real-time position with the maximum charging capability of the position in the database; when the real-time actual charging capability of the mobile terminal 11 is smaller than the maximum charging capability of the location, it can be determined that the real-time actual charging capability does not reach the maximum charging capability of the location, otherwise, it can be determined that the real-time actual charging capability reaches the maximum charging capability.

It should be noted that, when the database does not have the maximum charging capability corresponding to the real-time location, the subsequent steps of the charging reminding method of the present invention can be directly terminated.

Step S4, charging reminding

When the real-time actual charging capacity of the mobile terminal 11 is smaller than the maximum charging capacity corresponding to the position, the mobile terminal reminds a user to select to replace a charger and a charging cable, so that better charging capacity is obtained; otherwise, the mobile terminal 11 performs charging reminding according to the existing method, such as the charging mode and the estimated charging completion time.

Examples of the invention

In order to more intuitively and specifically explain the working process (steps of the charging reminding method) of the present invention, and to embody the advantages of the present invention and the convenience for the user, the working process of the present invention is described in detail below with reference to an example. Assuming that a Huashi mobile phone P40 pro of a user A has the charge reminding function based on the digital scene, P40 pro collects the charge behavior data of the user A at ordinary times, stores the charge behavior data in a database of the user A, calculates and evaluates the charge capacity of each charge according to the charge voltage and the charge current collected during each charge, and determines the maximum charge capacity Pmax _ loc _ i of each charge position according to the times of occurrence of different charge capacities by taking the charge position as a basis. The specific working process of this embodiment is as follows:

1. assessing real-time actual charging capability

In this embodiment, when the user a starts charging for P40 pro using the charger and the cable connection, P40 pro obtains the real-time position Loc _ i through its own position module, and simultaneously obtains the real-time voltage Ui and the real-time current Ii of charging, and calculates and estimates the real-time actual charging capability Pi according to the formula Pi ═ Ui × Ii.

2. Judging whether the real-time actual charging capacity reaches the maximum charging capacity

In this embodiment, hua is that P40 pro has already evaluated the real-time actual charging capability Pi during charging of the user a in step 1, and on this basis, P40 pro searches the maximum charging capability Pmax _ Loc _ i of the corresponding location in its own database according to the real-time location Loc _ i during charging. P40 pro compares the real-time actual charging capability Pi of the real-time location Loc _ i with the maximum charging capability Pmax _ Loc _ i of the real-time location, where Pi < Pmax _ Loc _ i is assumed in this embodiment, and accordingly, it can be determined according to the rule that the real-time actual charging capability of P40 pro does not reach the maximum charging capability of the location.

3. Charging reminder

In this embodiment, hua is that P40 pro has judged in step 2 that the real-time actual charging capability at the real-time position Loc _ i does not reach the maximum charging capability at the position, and a charging reminder should be performed according to the rule P40 pro to remind the user a to select to replace the charger and the charging cable, so as to achieve better charging capability.

Those skilled in the art will appreciate that mobile terminals include, but are not limited to, mobile devices such as smartphones, tablets, and the like.

In addition, those skilled in the art will also appreciate that the modules or steps of the invention described above can be implemented using a general purpose computing device, which can be centralized on a single computing device or distributed across a network of multiple computing devices. Alternatively, they may be implemented in program code executable by a computing device, whereby they may be stored in a storage device for execution by the computing device. Thus, the present invention is not limited to any specific combination of hardware and software.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A charging reminding method based on scene digitization is characterized by comprising the following steps:

periodically evaluating and/or updating a maximum charging capability associated with a charging location of a mobile terminal;

evaluating the real-time actual charging capability of the mobile terminal during current charging;

judging whether the real-time actual charging capacity reaches the maximum charging capacity associated with the current charging position; and

and sending a charging prompt under the condition that the real-time actual charging capacity does not reach the maximum charging capacity associated with the current charging position.

2. The charge alert method according to claim 1,

periodically evaluating and/or updating a maximum charging capability associated with a charging location of a mobile terminal includes: the mobile terminal records information at least including the charging position, charging voltage and charging current on the basis of collecting the charging position at each charging before the current charging, saves the information in a database of the mobile terminal, and periodically evaluates and/or updates the maximum charging capacity according to the saved information for each charging position.

3. The charge alert method according to claim 2,

the charging power with the largest number of occurrences or the highest frequency is taken as the maximum charging capability of each charging location.

4. The charge alert method according to claim 2 or 3,

evaluating the real-time actual charging capability of the mobile terminal during current charging comprises: and when the mobile terminal starts the current charging, acquiring real-time position information and real-time charging voltage and real-time charging current at the same time, thereby acquiring the real-time actual charging capacity.

5. The charge alert method according to claim 4,

determining whether the real-time actual charging capability reaches a maximum charging capability associated with a current location comprises: and searching the maximum charging capacity corresponding to the real-time position in the database of the mobile terminal according to the acquired real-time position information, and comparing the real-time actual charging capacity with the maximum charging capacity.

6. The charge alert method according to claim 5,

and under the condition that the real-time actual charging capability of the mobile terminal does not reach the maximum charging capability associated with the current position, the mobile terminal reminds a user to select to replace a charger and a charging cable.

7. A mobile terminal based on scene digitization, wherein the mobile terminal is configured to implement the charging reminder method according to any one of claims 1 to 6, and the mobile terminal comprises:

a time module configured to acquire time information of the mobile terminal;

a location module configured to obtain real-time location information of the mobile terminal;

the mobile terminal comprises an information acquisition module, a charging module and a charging module, wherein the information acquisition module is configured to acquire information of a charging position, a charging voltage and a charging current, a charging start time and a charging end time during charging and store the information in a database module of the mobile terminal;

a capability evaluation module configured to evaluate charging capabilities at each charge, including evaluating real-time charging capabilities and past maximum charging capabilities;

a comparison and judgment module configured to compare an actual charging capability of a real-time location of the mobile terminal with a maximum charging capability associated with the real-time location, and judge whether the actual charging capability reaches the maximum charging capability;

a charging reminding module configured to remind charging when the actual charging capability of the real-time location does not reach the maximum charging capability associated with the real-time location; and

the database module configured to maintain information including at least the charging location, the charging voltage and the charging current, and the maximum charging capability.

Images