CN114816959B - Method and device for displaying battery power of LCD screen - Google Patents

Abstract

A method and a device for displaying the battery power of an LCD screen are provided, the method comprises the following steps: acquiring working parameters of an LCD screen; calculating an expected power consumption value associated with the operating parameter; acquiring a residual electric quantity value of the LCD screen; calculating a surplus electric quantity value of the LCD screen according to the surplus electric quantity value and the expected electric quantity consumption value; acquiring ambient environment parameters of the LCD screen; and displaying the battery power on the LCD screen according to the surplus power value and the ambient environment parameters. According to the method and the device for displaying the battery power of the LCD screen, the real-time residual power can be calculated by referring to the occurrence probability of various working parameters and the power consumption value caused by the change of the surrounding environment, and the power display is more accurate.

Description

Method and device for displaying battery power of LCD screen

Technical Field

The invention relates to the technical field of abdomen massage, in particular to a method and a device for displaying battery power of an LCD screen.

Background

LCD screens are commonly used in various electrical appliances, especially electrical appliances requiring human-computer interaction, and are commonly used to receive human operation commands. Generally, the power consumption of the LCD screen is fixed, so the battery power displayed on the LCD screen is also calculated according to the fixed power consumption. However, for the LCD screen used in the non-fixed environment, the power consumption is not fixed due to the need to adjust the operating parameters of the LCD screen according to the environment, and at this time, a corresponding battery power display mechanism is lacked.

It can be seen that the prior art has at least the following disadvantages: aiming at the LCD screen used in the non-fixed environment, the power consumption is unfixed due to the fact that the working parameters of the LCD screen need to be adjusted according to the environment, and a corresponding battery power display mechanism is lacked at the moment.

Therefore, it is necessary to provide a technical means to solve the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a method and a device for displaying the battery power of an LCD (liquid crystal display) screen, so as to solve the problems that the power consumption is not fixed and a corresponding battery power display mechanism is lacked due to the fact that the working parameters of the LCD screen are required to be adjusted according to the environment aiming at the LCD screen used in a non-fixed environment in the prior art.

The invention is realized in this way, a method for displaying battery power of LCD screen, the method includes steps:

acquiring working parameters of an LCD screen;

calculating an expected power consumption value associated with the operating parameter;

acquiring a residual electric quantity value of the LCD screen;

calculating a surplus electric quantity value of the LCD screen according to the surplus electric quantity value and the expected electric quantity consumption value;

acquiring ambient environment parameters of the LCD screen;

and displaying the battery electric quantity on the LCD screen according to the surplus electric quantity value and the ambient environment parameters.

Preferably, the acquiring the working parameters of the LCD screen comprises the steps of:

acquiring fixed working parameters of the LCD screen;

acquiring random working parameters of the LCD screen;

acquiring redundant working parameters of the LCD screen;

and acquiring the alternating current working parameters of the LCD screen.

Preferably, the acquiring of the random operating parameter of the LCD screen includes:

acquiring a historical working record of the LCD screen;

acquiring all first fault working records belonging to first-level faults in the historical working records;

acquiring a first occurrence probability corresponding to each first fault working record;

acquiring a first working parameter corresponding to each first fault working record;

constructing the first fault working record and a first random mapping corresponding to the first occurrence probability;

constructing the first fault working record and a second random mapping corresponding to the first working parameter;

constructing a random working parameter database;

storing all the first fault working records into the random working parameter database;

and storing the first random mapping and the second random mapping corresponding to each first fault working record into the random working parameter database.

Preferably, the acquiring of the redundant operating parameters of the LCD screen includes:

acquiring a historical working record of the LCD screen;

acquiring all second fault working records belonging to a second-level fault in the historical working records;

acquiring a second occurrence probability corresponding to each second fault working record;

acquiring a second working parameter corresponding to each second fault working record;

constructing the second fault working record and a first redundancy mapping corresponding to the second occurrence probability;

constructing the second fault working record and a second redundancy mapping corresponding to the second working parameter;

constructing a redundant working parameter database;

storing all the second fault work records in the redundant work parameter database;

and storing the first redundancy mapping and the second redundancy mapping corresponding to each second fault working record into the redundancy working parameter database.

Preferably, the acquiring the ac working parameters of the LCD screen includes:

acquiring historical working records and historical environment parameters of the LCD screen;

obtaining a communication working record associated with the historical environmental parameters in the historical working record;

acquiring a third occurrence probability corresponding to each communication working record;

acquiring a third working parameter corresponding to each communication working record;

constructing the communication working record and a first communication mapping corresponding to the third occurrence probability;

constructing the communication working record and a second communication mapping corresponding to the third working parameter;

constructing an alternating current working parameter database;

storing all the communication working records into the communication working parameter database;

and storing the first communication mapping and the second communication mapping corresponding to each communication working record into the communication working parameter database.

Preferably, said calculating an expected electricity consumption value associated with said operating parameter comprises the steps of:

acquiring fixed working parameters, random working parameters, redundant working parameters and alternating-current working parameters in the working parameters;

acquiring ambient environment parameters of the LCD screen;

calculating a first probability, a second probability and a third probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter according to the ambient environment parameter;

acquiring a first occurrence probability, a second occurrence probability and a third occurrence probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter;

calculating a fixed working electric quantity consumption value according to the fixed working parameters;

calculating a random working electric quantity consumption value according to the first probability, the first generation probability and the random working parameter;

calculating a redundant working electric quantity consumption value according to the second probability, the second occurrence probability and the redundant working parameter;

calculating an alternating current working electric quantity consumption value according to the third probability, the third occurrence probability and the alternating current working parameters;

summarizing the fixed working electric quantity consumption value, the random working electric quantity consumption value, the redundant working electric quantity consumption value and the alternating current working electric quantity consumption value to obtain the expected electric quantity consumption value.

Preferably, the calculating a random operating power consumption value according to the first probability, the first occurrence probability and the random operating parameter comprises the steps of:

determining whether the first probability is greater than or equal to the first occurrence probability;

if so, acquiring a first working parameter in the random working parameters, and calculating the consumption value of the random working electric quantity according to the first working parameter;

and if not, recording the random working electricity consumption value as zero.

Preferably, the calculating a redundant operation power consumption value according to the second probability, the second occurrence probability and the redundant operation parameter includes:

judging whether the second probability is greater than or equal to the second occurrence probability;

if yes, obtaining a second working parameter in the redundant working parameters, and calculating the redundant working electric quantity consumption value according to the second working parameter;

if not, recording the redundant working electricity consumption value as zero.

Preferably, the calculating of the ac operating power consumption value according to the third probability, the third occurrence probability and the ac operating parameter includes:

judging whether the third probability is greater than or equal to the third occurrence probability;

if so, acquiring a third working parameter in the alternating current working parameters, and calculating the consumption value of the alternating current working electric quantity according to the third working parameter;

if not, recording the consumption value of the alternating current working electric quantity as zero.

Preferably, the displaying the battery power on the LCD screen according to the surplus power value and the ambient environment parameter includes:

calculating an environment consumption electric quantity value associated with the ambient environment parameter according to the ambient environment parameter;

calculating a real-time residual electric quantity value according to the residual electric quantity value and the environment consumption electric quantity value;

and displaying the real-time residual electric quantity value.

The invention also provides a device for displaying the battery power of the LCD screen, which comprises:

the working parameter acquisition module is used for acquiring the working parameters of the LCD screen;

an expected power consumption value calculation module for calculating an expected power consumption value associated with the operating parameter;

the residual electric quantity value acquisition module is used for acquiring a residual electric quantity value of the LCD screen;

the surplus electric quantity value calculation module is used for calculating the surplus electric quantity value of the LCD screen according to the surplus electric quantity value and the expected electric quantity consumption value;

the ambient environment parameter acquisition module is used for acquiring ambient environment parameters of the LCD screen;

and the battery electric quantity display module is used for displaying the battery electric quantity on the LCD screen according to the surplus electric quantity value and the ambient environment parameters.

According to the method and the device for displaying the battery power of the LCD screen, the real-time residual power can be calculated by referring to the occurrence probability of various working parameters and the power consumption value caused by the change of the surrounding environment, and the power display is more accurate.

Drawings

Fig. 1 is a schematic flow chart illustrating a method for displaying battery power of an LCD panel according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of an LCD panel battery power display device according to an embodiment of the present disclosure.

Detailed Description

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

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or intervening elements may also be present.

In order to improve the convenience of the auxiliary ball hitting equipment and the accuracy of auxiliary ball hitting, in the embodiment of the application, an LCD (liquid crystal display) screen battery power display method and device and a ball hitting auxiliary method based on the auxiliary ball hitting equipment are provided, so that the convenience and the portability of ball hitting assistance through computer equipment can be improved, the accuracy and the ball entering probability of auxiliary ball hitting can be improved, and the user experience is improved.

Referring to fig. 1, in an embodiment of the present application, the present application provides a method for displaying battery power of an LCD screen, where the method includes:

s1: acquiring working parameters of an LCD screen;

in the embodiment of the present application, the acquiring of the operating parameters of the LCD screen includes:

acquiring fixed working parameters of the LCD screen;

acquiring random working parameters of the LCD screen;

acquiring redundant working parameters of the LCD screen;

and acquiring the alternating current working parameters of the LCD screen.

In the embodiment of the present application, the operating parameters of the LCD screen include: the method comprises the following steps of fixing working parameters, random working parameters, redundant working parameters and alternating-current working parameters, wherein the fixing working parameters refer to various parameters of the LCD screen during normal working, such as voltage, current, heat generation value in unit time and the like during normal display of the LCD screen; the random working parameters refer to various parameters of the LCD screen when the common abnormal work occurs, such as voltage, current, heat generation value in unit time and the like when the LCD screen flickers; the redundant working parameters refer to various parameters when abnormal working with extremely low occurrence probability occurs, such as voltage, current, heat generation value in unit time and the like when an LCD screen is in short circuit; the ac operation parameter refers to various parameters occurring due to the ambient environment, such as a calorific value of an LCD panel additionally heated for ensuring a normal operation due to an overcooling of the ambient environment.

In this embodiment of the present application, the acquiring the random operating parameter of the LCD screen includes:

acquiring a historical working record of the LCD screen;

acquiring all first fault working records belonging to first-level faults in the historical working records;

acquiring a first occurrence probability corresponding to each first fault working record;

acquiring a first working parameter corresponding to each first fault working record;

constructing the first fault working record and a first random mapping corresponding to the first occurrence probability;

constructing the first fault working record and a second random mapping corresponding to the first working parameter;

constructing a random working parameter database;

storing all the first fault working records into the random working parameter database;

and storing the first random mapping and the second random mapping corresponding to each first fault working record into the random working parameter database.

In the embodiment of the present application, the random working parameter database shown in table 1 below can be obtained through the above steps:

TABLE 1

First failure record	First probability of occurrence	First operating parameter
			Flashing screen

Wherein the first level failures include splash screen failures, and the like.

In this embodiment of the present application, the acquiring of the redundant operating parameters of the LCD screen includes:

acquiring a historical working record of the LCD screen;

acquiring all second fault working records belonging to a second-level fault in the historical working records;

acquiring a second occurrence probability corresponding to each second fault working record;

acquiring a second working parameter corresponding to each second fault working record;

constructing the second fault working record and a first redundancy mapping corresponding to the second occurrence probability;

constructing the second fault working record and a second redundancy mapping corresponding to the second working parameter;

constructing a redundant working parameter database;

storing all the second fault work records in the redundant work parameter database;

and storing the first redundancy mapping and the second redundancy mapping corresponding to each second fault working record into the redundancy working parameter database.

In the embodiment of the present application, the redundant operating parameter database shown in table 2 below can be obtained through the above steps:

TABLE 2

Second failure record	Second probability of occurrence	Second operating parameter
			Short circuit

Wherein the second level fault comprises a short circuit fault and the like, and the occurrence probability of the second level fault is far lower than that of the first level fault.

In this embodiment of the present application, the acquiring the ac operating parameters of the LCD screen includes:

acquiring historical working records and historical environment parameters of the LCD screen;

obtaining a communication working record associated with the historical environmental parameters in the historical working record;

acquiring a third occurrence probability corresponding to each communication working record;

acquiring a third working parameter corresponding to each communication working record;

constructing the communication working record and a first communication mapping corresponding to the third occurrence probability;

constructing the communication working record and a second communication mapping corresponding to the third working parameter;

constructing an alternating current working parameter database;

storing all the communication work records into the communication work parameter database;

and storing the first communication mapping and the second communication mapping corresponding to each communication working record into the communication working parameter database.

In the embodiment of the present application, the communication working parameter database shown in the following table 3 can be obtained through the above steps:

TABLE 3

Exchange work records	Third probability of occurrence	Third operating parameter
			Additional heat generation due to environmental cooling

The communication work records include additional heat generation caused by environment cooling and the like.

S2: calculating an expected power consumption value associated with the operating parameter;

in an embodiment of the present application, said calculating an expected power consumption value associated with said operating parameter comprises the steps of:

acquiring fixed working parameters, random working parameters, redundant working parameters and alternating-current working parameters in the working parameters;

acquiring ambient environment parameters of the LCD screen;

calculating a first probability, a second probability and a third probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter according to the ambient environment parameter;

acquiring a first occurrence probability, a second occurrence probability and a third occurrence probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter;

calculating a fixed working electric quantity consumption value according to the fixed working parameters;

calculating a random working electric quantity consumption value according to the first probability, the first generation probability and the random working parameter;

calculating a redundant working electric quantity consumption value according to the second probability, the second occurrence probability and the redundant working parameter;

calculating an alternating current working electric quantity consumption value according to the third probability, the third occurrence probability and the alternating current working parameters;

summarizing the fixed working electric quantity consumption value, the random working electric quantity consumption value, the redundant working electric quantity consumption value and the alternating current working electric quantity consumption value to obtain the expected electric quantity consumption value.

In this embodiment of the application, when an expected electric quantity consumption value associated with the operating parameter is calculated, first, an ambient environment parameter of the LCD screen is obtained, and a first probability, a second probability, and a third probability corresponding to the random operating parameter, the redundant operating parameter, and the ac operating parameter are calculated according to the ambient environment parameter, for example, the operating environment of the LCD screen is stable, the first probability corresponding to the random operating parameter and the third probability corresponding to the ac operating parameter are both 0, and the second probability corresponding to the redundant operating parameter is recorded as 0.6 (in order to consider various emergency situations, this value may be obtained synthetically according to big data), then, a fixed operating electric quantity consumption value corresponding to the fixed operating parameter, a random operating electric quantity consumption value corresponding to the random operating parameter (actually 0), a redundant operating electric quantity consumption value corresponding to the redundant operating parameter, and an ac operating electric quantity consumption value corresponding to the ac operating parameter (actually 0) are calculated, and then, the fixed operating electric quantity consumption value, the random operating electric quantity consumption value, the redundant operating electric quantity consumption value, and the ac operating electric quantity consumption value are summarized to obtain the expected electric quantity consumption value.

In an embodiment of the present application, the calculating a random operating power consumption value according to the first probability, the first occurrence probability, and the random operating parameter includes:

determining whether the first probability is greater than or equal to the first occurrence probability;

if so, acquiring a first working parameter in the random working parameters, and calculating the consumption value of the random working electric quantity according to the first working parameter;

if not, recording the random working electric quantity consumption value as zero.

In this embodiment, when the first probability is greater than the first occurrence probability, it indicates that the random operating parameter is easily generated in the current environment, and at this time, the random operating power consumption value is calculated according to the first operating parameter, for example, the random operating power consumption value is calculated according to the voltage value, otherwise, it indicates that the random operating parameter is not easily generated in the current environment, and the random operating power consumption value is directly recorded as zero.

In an embodiment of the present application, the calculating a redundant working power consumption value according to the second probability, the second occurrence probability, and the redundant working parameter includes:

judging whether the second probability is greater than or equal to the second occurrence probability;

if yes, obtaining a second working parameter in the redundant working parameters, and calculating the redundant working electric quantity consumption value according to the second working parameter;

and if not, recording the redundant working electricity consumption value as zero.

In the embodiment of the present application, when the second probability is greater than the second occurrence probability, it is indicated that the redundant operating parameter is easily generated in the current environment, and at this time, the redundant operating power consumption value is calculated according to the second operating parameter, for example, the redundant operating power consumption value is calculated according to the heat generation value in unit time, otherwise, it is indicated that the redundant operating parameter is not easily generated in the current environment, and the redundant operating power consumption value is directly recorded as zero.

In this embodiment of the present application, the calculating an ac operating power consumption value according to the third probability, the third occurrence probability, and the ac operating parameter includes:

judging whether the third probability is greater than or equal to the third occurrence probability;

if so, acquiring a third working parameter in the alternating current working parameters, and calculating the consumption value of the alternating current working electric quantity according to the third working parameter;

if not, recording the consumption value of the alternating current working electric quantity as zero.

In this embodiment, when the third probability is greater than the third occurrence probability, it is indicated that the ac operating parameter is easily generated in the current environment, and at this time, the ac operating power consumption value is calculated according to the third operating parameter, for example, the ac operating power consumption value is calculated according to the heat generation value per unit time.

S3: acquiring a residual electric quantity value of the LCD screen;

s4: calculating a surplus electric quantity value of the LCD screen according to the surplus electric quantity value and the expected electric quantity consumption value;

s5: acquiring ambient environment parameters of the LCD screen;

in this application embodiment, the surplus electric quantity value of LCD screen can be acquireed in real time through the controller on the LCD screen, and the surplus electric quantity value subtracts the difference that expected electric quantity consumption value obtained for the surplus electric quantity value, and ambient environment parameter can acquire through the environmental sensor that sets up on the LCD screen.

S6: and displaying the battery power on the LCD screen according to the surplus power value and the ambient environment parameters.

In this embodiment, the displaying the battery power on the LCD screen according to the surplus power value and the ambient parameters includes:

calculating an environment consumption electric quantity value associated with the ambient environment parameter according to the ambient environment parameter;

calculating a real-time residual electric quantity value according to the residual electric quantity value and the environment consumption electric quantity value;

and displaying the real-time residual electric quantity value.

In the embodiment of the application, when the surplus electric quantity value is obtained through calculation, because the LCD screen may still be in a situation where the ambient environment changes in real time, the associated ambient consumption electric quantity value also needs to be calculated in real time according to ambient environment parameters, and then the difference between the ambient surplus electric quantity value and the ambient consumption electric quantity value is obtained, so that the real-time surplus electric quantity value is obtained and displayed on the LCD screen.

As shown in fig. 2, in the embodiment of the present application, the present invention further provides an LCD screen battery power display device, including:

the working parameter acquiring module 10 is used for acquiring the working parameters of the LCD screen;

an expected power consumption value calculation module 20 for calculating an expected power consumption value associated with the operating parameter;

a residual electric quantity value obtaining module 30, configured to obtain a residual electric quantity value of the LCD screen;

a surplus electric quantity value calculation module 40, configured to calculate a surplus electric quantity value of the LCD screen according to the surplus electric quantity value and the expected electric quantity consumption value;

an ambient environment parameter obtaining module 50, configured to obtain ambient environment parameters of the LCD screen;

and a battery power display module 60, configured to display battery power on the LCD screen according to the surplus power value and the ambient environment parameter.

According to the method and the device for displaying the battery power of the LCD screen, the real-time residual power can be calculated by referring to the occurrence probability of various working parameters and the power consumption value caused by the change of the surrounding environment, and the power display is more accurate.

The above description is only exemplary of the present invention, and the structure is not limited to the above-mentioned shapes, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A method for displaying battery power of an LCD screen is characterized by comprising the following steps:

acquiring working parameters of an LCD screen;

calculating an expected power consumption value associated with the operating parameter;

acquiring a residual electric quantity value of the LCD screen;

calculating a surplus electric quantity value of the LCD screen according to the surplus electric quantity value and the expected electric quantity consumption value;

acquiring ambient environment parameters of the LCD screen;

displaying the battery power on the LCD screen according to the surplus power value and the ambient environment parameters;

the method for acquiring the working parameters of the LCD screen comprises the following steps:

acquiring fixed working parameters of the LCD screen;

acquiring random working parameters of the LCD screen;

acquiring redundant working parameters of the LCD screen;

acquiring the alternating current working parameters of the LCD screen;

wherein, the step of obtaining the random working parameters of the LCD screen comprises the following steps:

acquiring a historical working record of the LCD screen;

acquiring all first fault working records belonging to first-level faults in the historical working records;

acquiring a first occurrence probability corresponding to each first fault working record;

acquiring a first working parameter corresponding to each first fault working record;

constructing the first fault working record and a first random mapping corresponding to the first occurrence probability;

constructing the first fault working record and a second random mapping corresponding to the first working parameter;

constructing a random working parameter database;

storing all the first fault working records into the random working parameter database;

storing the first random mapping and the second random mapping corresponding to each first fault working record into the random working parameter database;

the method for acquiring the redundant working parameters of the LCD screen comprises the following steps:

acquiring a historical working record of the LCD screen;

acquiring all second fault working records belonging to a second-level fault in the historical working records;

acquiring a second occurrence probability corresponding to each second fault working record;

acquiring a second working parameter corresponding to each second fault working record;

constructing the second fault working record and a first redundancy mapping corresponding to the second occurrence probability;

constructing the second fault working record and a second redundancy mapping corresponding to the second working parameter;

constructing a redundant working parameter database;

storing all the second fault work records in the redundant work parameter database;

storing the first redundancy map and the second redundancy map corresponding to each second fault working record into the redundancy working parameter database;

wherein, the step of obtaining the AC working parameters of the LCD screen comprises the following steps:

acquiring historical working records and historical environment parameters of the LCD screen;

obtaining a communication working record associated with the historical environmental parameters in the historical working record;

acquiring a third occurrence probability corresponding to each communication working record;

acquiring a third working parameter corresponding to each alternating current working record;

constructing the communication working record and a first communication mapping corresponding to the third occurrence probability;

constructing the communication working record and a second communication mapping corresponding to the third working parameter;

constructing an alternating current working parameter database;

storing all the communication working records into the communication working parameter database;

storing the first communication mapping and the second communication mapping corresponding to each communication working record into the communication working parameter database;

wherein said calculating of the expected power consumption value associated with said operating parameter comprises the steps of:

acquiring fixed working parameters, random working parameters, redundant working parameters and alternating-current working parameters in the working parameters;

acquiring ambient environment parameters of the LCD screen;

calculating a first probability, a second probability and a third probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter according to the ambient environment parameter;

acquiring a first occurrence probability, a second occurrence probability and a third occurrence probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter;

calculating a fixed working electric quantity consumption value according to the fixed working parameters;

calculating a random working electric quantity consumption value according to the first probability, the first generation probability and the random working parameter;

calculating a redundant working electric quantity consumption value according to the second probability, the second occurrence probability and the redundant working parameter;

calculating an alternating current working electric quantity consumption value according to the third probability, the third occurrence probability and the alternating current working parameters;

summarizing the fixed working electric quantity consumption value, the random working electric quantity consumption value, the redundant working electric quantity consumption value and the alternating current working electric quantity consumption value to obtain the expected electric quantity consumption value.

2. The method for displaying battery power of an LCD screen according to claim 1, wherein said calculating a random operation power consumption value according to said first probability, said first occurrence probability and said random operation parameter comprises the steps of:

determining whether the first probability is greater than or equal to the first occurrence probability;

if so, acquiring a first working parameter in the random working parameters, and calculating the consumption value of the random working electric quantity according to the first working parameter;

and if not, recording the random working electricity consumption value as zero.

3. The method for displaying battery power of an LCD screen according to claim 1, wherein said calculating a redundant operating power consumption value according to said second probability, said second occurrence probability and said redundant operating parameter comprises the steps of:

judging whether the second probability is greater than or equal to the second occurrence probability;

if yes, acquiring a second working parameter in the redundant working parameters, and calculating the redundant working electric quantity consumption value according to the second working parameter;

if not, recording the redundant working electricity consumption value as zero.

4. The method for displaying battery power of an LCD screen according to claim 1, wherein said calculating an AC operating power consumption value according to said third probability, said third occurrence probability and said AC operating parameter comprises the steps of:

judging whether the third probability is greater than or equal to the third occurrence probability;

if so, acquiring a third working parameter in the alternating current working parameters, and calculating the consumption value of the alternating current working electric quantity according to the third working parameter;

if not, recording the consumption value of the alternating current working electric quantity as zero.

5. The method for displaying battery power of an LCD panel according to claim 1, wherein the step of displaying the battery power on the LCD panel according to the surplus power value and the ambient parameters comprises the steps of:

calculating an environment consumption electric quantity value associated with the ambient environment parameter according to the ambient environment parameter;

calculating a real-time residual electric quantity value according to the residual electric quantity value and the environment consumption electric quantity value;

and displaying the real-time residual electric quantity value.

6. An LCD screen battery power display device, the device comprising:

the working parameter acquisition module is used for acquiring the working parameters of the LCD screen, and specifically comprises the following steps:

acquiring fixed working parameters of the LCD screen;

acquiring random working parameters of the LCD screen;

acquiring redundant working parameters of the LCD screen;

acquiring the alternating current working parameters of the LCD screen;

an expected power consumption value calculation module for calculating an expected power consumption value associated with the operating parameter;

the residual electric quantity value acquisition module is used for acquiring a residual electric quantity value of the LCD screen;

the surplus electric quantity value calculation module is used for calculating the surplus electric quantity value of the LCD screen according to the surplus electric quantity value and the expected electric quantity consumption value;

the ambient environment parameter acquisition module is used for acquiring ambient environment parameters of the LCD screen;

the battery electric quantity display module is used for displaying the battery electric quantity on the LCD screen according to the surplus electric quantity value and the ambient environment parameters;

the acquiring of the random working parameters of the LCD screen specifically comprises the following steps:

acquiring a historical working record of the LCD screen;

acquiring all first fault working records belonging to first-level faults in the historical working records;

acquiring a first occurrence probability corresponding to each first fault working record;

acquiring a first working parameter corresponding to each first fault working record;

constructing the first fault working record and a first random mapping corresponding to the first occurrence probability;

constructing the first fault working record and a second random mapping corresponding to the first working parameter;

constructing a random working parameter database;

storing all the first fault working records into the random working parameter database;

storing the first random mapping and the second random mapping corresponding to each first fault working record into the random working parameter database;

the method for acquiring the redundancy working parameters of the LCD screen specifically comprises the following steps:

acquiring a historical working record of the LCD screen;

acquiring all second fault working records belonging to a second-level fault in the historical working records;

acquiring a second occurrence probability corresponding to each second fault working record;

acquiring a second working parameter corresponding to each second fault working record;

constructing the second fault working record and a first redundancy mapping corresponding to the second occurrence probability;

constructing the second fault working record and a second redundancy mapping corresponding to the second working parameter;

constructing a redundant working parameter database;

storing all the second fault work records in the redundant work parameter database;

storing the first redundancy map and the second redundancy map corresponding to each second fault working record into the redundancy working parameter database;

the method for acquiring the AC working parameters of the LCD screen specifically comprises the following steps:

acquiring historical working records and historical environment parameters of the LCD screen;

obtaining a communication working record associated with the historical environmental parameters in the historical working record;

acquiring a third occurrence probability corresponding to each communication working record;

acquiring a third working parameter corresponding to each alternating current working record;

constructing the communication working record and a first communication mapping corresponding to the third occurrence probability;

constructing the communication working record and a second communication mapping corresponding to the third working parameter;

constructing an alternating current working parameter database;

storing all the communication work records into the communication work parameter database;

storing the first communication mapping and the second communication mapping corresponding to each communication working record into the communication working parameter database;

wherein the calculating of the expected power consumption value associated with the operating parameter is specifically:

acquiring fixed working parameters, random working parameters, redundant working parameters and alternating-current working parameters in the working parameters;

acquiring ambient environment parameters of the LCD screen;

calculating a first probability, a second probability and a third probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter according to the ambient environment parameter;

acquiring a first occurrence probability, a second occurrence probability and a third occurrence probability corresponding to the random working parameter, the redundant working parameter and the alternating working parameter;

calculating a fixed working electric quantity consumption value according to the fixed working parameters;

calculating a random working electric quantity consumption value according to the first probability, the first generation probability and the random working parameter;

calculating a redundant working electric quantity consumption value according to the second probability, the second occurrence probability and the redundant working parameter;

calculating an alternating current working electric quantity consumption value according to the third probability, the third occurrence probability and the alternating current working parameters;

summarizing the fixed working electric quantity consumption value, the random working electric quantity consumption value, the redundant working electric quantity consumption value and the alternating current working electric quantity consumption value to obtain the expected electric quantity consumption value.

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