CN117409516B - Energy-saving control method of self-service terminal and self-service terminal - Google Patents

Abstract

The invention provides an energy-saving control method of a self-service terminal and the self-service terminal, which belong to the technical field of self-service terminals and specifically comprise the following steps: the method comprises the steps of determining working time lengths of different time periods according to operation logs of the self-service terminal, determining utilization rates of different time periods according to processing data of credit application in the working time lengths, determining using busyness and energy-saving control modes of different time periods according to the utilization rates of different dates in preset time, carrying out sleep control of the current time period based on a recommended sleep control period when the energy-saving control modes of the time periods are intermittent sleep, and dynamically adjusting the sleep control period of the current time period according to acceptance data of the credit application of the current time period and forced awakening data, so that electric energy consumption of the self-service terminal is reduced.

Description

Energy-saving control method of self-service terminal and self-service terminal

Technical Field

The invention belongs to the technical field of self-service terminals, and particularly relates to an energy-saving control method of a self-service terminal and the self-service terminal.

Background

In order to realize energy-saving control of the self-service terminal, in the prior art, CN202111219748.7 (an energy-saving control method, system and medium applied to the self-service terminal) is used for adjusting the working state of the self-service terminal based on a statistical time period, an arrangement sequence and service log data by collecting the service log data of an effective user, so that unnecessary electric energy consumption is reduced, but at the same time, the following technical problems are existed:

in a preset time period, the credit application data processed by the self-service terminal in 30 minutes or 1 hour, for example, can reflect the busyness of the self-service terminal in the current time period to a certain extent, so that if the dynamic adjustment of the system wake-up period of the self-service terminal cannot be performed by combining the data, the effective energy-saving control of the self-service terminal cannot be realized.

Aiming at the technical problems, the invention provides an energy-saving control method of a self-service terminal and the self-service terminal.

Disclosure of Invention

In order to achieve the purpose of the invention, the invention adopts the following technical scheme:

according to one aspect of the present invention, a method for energy saving control of a self-service terminal is provided.

The energy-saving control method of the self-service terminal is characterized by comprising the following steps of:

s1, determining working time periods of different time periods according to a running log of a self-service terminal, determining utilization rates of different time periods by combining processing data of a credit application in the working time periods, determining using busyness and an energy-saving control mode of different time periods according to the utilization rates of different dates in preset time, and entering a next step when the energy-saving control mode of the time periods is intermittent dormancy;

s2, taking a period of which the previous energy-saving control mode of the current period of the current date is intermittent dormancy as a preceding period, determining the time period use busyness and the busyness period of different preceding periods through the acceptance data, the forced wakeup data and the dormancy control period of the credit application, and entering the next step when the number of the busyness periods meets the requirement;

s3, acquiring acceptance data of the trust application of the current date, and determining a recommended dormancy control period of the current period by combining the periods of different earlier periods by using busyness, the duration from the current period and the busyness period;

and S4, carrying out sleep control of the current period based on the recommended sleep control period, and dynamically adjusting the sleep control period of the current period according to the acceptance data and the forced wake-up data of the credit application of the current period.

The invention has the beneficial effects that:

1. the utilization busyness and the energy-saving control mode of different time periods are determined according to the utilization rate of different dates in the preset time, so that the utilization busyness and the energy-saving control mode of different time periods are determined from the angle of the utilization rate of a certain time period, a foundation is laid for realizing the energy-saving control of different time periods in a differentiated mode, and unnecessary electric energy consumption is reduced.

2. The recommended sleep control period of the current time period is determined according to the acceptance data of the credit application of the current date, the time period using busyness of different earlier time periods, the time length from the current time period and the busyness time period, the difference of the busy use condition of the current date caused by the difference of the acceptance data of the credit application of the current date is considered, meanwhile, the accurate prediction of the busy use condition of the current time period is realized by integrating the busy use condition of the earlier time period and the time length from the current time period, and therefore, the electric energy consumption is reduced on the basis of guaranteeing the use convenience of users.

3. The sleep control period of the current period is dynamically adjusted according to the acceptance data and the forced wake-up data of the trust application of the current period, so that the dynamic adjustment of the sleep adjustment period by the use condition and the forced wake-up data in a certain time is realized, unnecessary electric energy consumption is avoided, and the technical problem of insufficient use convenience of users caused by frequent sleep is also avoided.

The self-service terminal comprises a mobile terminal and a fixed terminal capable of carrying out credit application processing.

The further technical scheme is that the method for determining the utilization rate of the time period comprises the following steps:

the method comprises the steps of determining the processing quantity of the credit application and the accumulated processing time length of the credit application in the working time length through processing data of the credit application in the working time length, and determining the utilization rate of the time period based on the processing quantity of the credit application and the accumulated processing time length of the credit application in the working time length of the time period and the working time length of the time period by the self-service terminal.

The further technical scheme is that the energy-saving control mode comprises shutdown, intermittent dormancy and never dormancy.

The further technical scheme is that the forced wake-up data comprises forced wake-up times, interval time lengths of different forced wake-up times and wake-up working time lengths of different forced wake-up times.

On the other hand, the invention provides a self-service terminal, and the energy-saving control method adopting the self-service terminal is characterized by comprising the following steps:

the energy-saving mode control module, the busy period evaluation module, the dormancy control period evaluation module and the adjustment module;

the energy-saving mode control module is responsible for determining working time periods of different time periods according to the operation log of the self-service terminal, determining utilization rates of different time periods by combining processing data of a credit application in the working time periods, determining using busyness and an energy-saving control mode of different time periods according to the utilization rates of different dates in preset time, and entering a next step when the energy-saving control mode of the time periods is intermittent dormancy;

the busy period assessment module takes a period of intermittent dormancy in the previous energy-saving control mode of the current period of the current date as a preceding period, and determines the time using busyness and the busy period of different preceding periods through the acceptance data of the credit application, the forced awakening data and the dormancy control period;

the dormancy control period assessment module is responsible for acquiring acceptance data of the trust application of the current date, and determining a recommended dormancy control period of the current period by combining the periods of different earlier periods by using busyness, the duration from the current period and the busyness period;

the adjusting module is responsible for carrying out sleep control of the current period based on the recommended sleep control period, and dynamically adjusting the sleep control period of the current period according to the acceptance data and the forced wake-up data of the credit application of the current period.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention as set forth hereinafter.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings;

FIG. 1 is a flow chart of a method of power saving control of a self-service terminal;

fig. 2 is a flow chart of a method of determining a usage busyness of a period;

fig. 3 is a flowchart of a method of determining a period usage busyness of a pre-period;

FIG. 4 is a flow chart of a method of determining a recommended sleep control period for a current period;

FIG. 5 is a frame diagram of a self-service terminal.

Detailed Description

In order to make the technical solutions in the present specification better understood by those skilled in the art, the technical solutions in the embodiments of the present specification will be clearly and completely described below with reference to the drawings in the embodiments of the present specification, and it is obvious that the described embodiments are only some embodiments of the present specification, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, shall fall within the scope of the present disclosure.

The applicant found that the conventional energy-saving control of the self-service terminal often performs sleep control according to the use condition of the past date, but ignores the use data of the user in a certain period of a short period, and the use data often has a larger reference value, so if the sleep control period cannot be dynamically adjusted according to the use data of the short period, the electric energy consumption cannot be reduced as much as possible on the basis of satisfying the use convenience of the user.

In order to solve the technical problems, the following technical scheme is adopted:

firstly, determining working time periods of different time periods according to a running log of a self-service terminal, and determining utilization rates of different time periods by combining processing data of a credit application in the working time periods, wherein the utilization rates can be determined specifically by the ratio of the processing time periods of the credit application to the working time periods, the utilization rates of different time periods and the energy-saving control mode are determined according to the utilization rates of different dates in preset time periods, the utilization rates can be determined specifically by the number of dates with the utilization rates larger than the preset utilization rates, the energy-saving control mode is determined according to the utilization rates, and the energy-saving control mode comprises three modes of shutdown, intermittent dormancy and non-dormancy, and when the energy-saving control mode of the time periods is intermittent dormancy, the next step is entered;

then taking the period of which the previous energy-saving control mode of the current period of the current date is intermittent dormancy as a preceding period, determining the time period using busyness and the busy period of different preceding periods through the acceptance data, the forced wakeup data and the dormancy control period of the credit application, specifically, determining the time period using busyness of different preceding periods through the ratio of the acceptance processing time length to the working time length of the preceding period, the ratio of the forced wakeup times to the working time length and the product of the dormancy control period, when the number of the busy periods is small, entering the next step, and when the number of the busy periods is large, directly determining that the current period is never dormant;

then according to the acceptance data of the credit application of the current date, the time interval using busyness of different earlier time intervals, the time length from the current time interval and the busyness time interval, the recommended dormancy control period of the current time interval is determined, specifically, the weight value of different earlier time intervals can be determined according to the time interval using busyness of different earlier time intervals and the time length from the current time interval, and then the recommended dormancy control period of the current time interval is determined according to the number sum of the weight values of different earlier time intervals, the duty ratio of the processing time interval of the credit application of the current time interval and the time interval where the predicted busyness after normalization processing is carried out;

finally, carrying out sleep control of a current period based on a recommended sleep control period, dynamically adjusting the sleep control period of the current period according to acceptance data and forced wake-up data of a credit application of the current period, and particularly modifying the sleep control mode of the current period to never sleep when the accumulated processing time of the credit application of the current period is longer than a preset duration threshold or the forced wake-up frequency is greater than a preset wake-up frequency threshold;

and when the accumulated processing time length of the credit application in the current period is not greater than a preset time length threshold or the forced awakening frequency is not greater than a preset awakening frequency threshold, not adjusting.

In order to solve the above-mentioned problems, according to one aspect of the present invention, as shown in fig. 1, there is provided an energy saving control method of a self-service terminal, which is characterized by comprising:

s1, determining working time periods of different time periods according to a running log of a self-service terminal, determining utilization rates of different time periods by combining processing data of a credit application in the working time periods, determining using busyness and an energy-saving control mode of different time periods according to the utilization rates of different dates in preset time, and entering a next step when the energy-saving control mode of the time periods is intermittent dormancy;

it should be noted that, the self-service terminal includes a mobile terminal and a fixed terminal capable of performing a trusted application process.

In a possible embodiment, the method for determining the utilization rate of the period in the step S1 is as follows:

the method comprises the steps of determining the processing quantity of the credit application and the accumulated processing time length of the credit application in the working time length through processing data of the credit application in the working time length, and determining the utilization rate of the time period based on the processing quantity of the credit application and the accumulated processing time length of the credit application in the working time length of the time period and the working time length of the time period by the self-service terminal.

In a possible embodiment, as shown in fig. 2, the method for determining the usage busyness of the period in the step S1 is as follows:

acquiring the utilization rate of the self-service terminal in the time period of different dates in preset time, judging whether the utilization rate of the self-service terminal in the time period of different dates in the preset time is smaller than the preset utilization rate, if so, determining that the energy-saving control mode of the time period is shutdown, and if not, entering the next step;

judging whether the utilization rates of the time periods of different dates in the preset time are all larger than a utilization rate threshold value, if so, determining that the energy-saving control mode of the time period is never dormant, and if not, entering the next step;

taking the date with the utilization rate larger than the utilization rate threshold value of the time period as a use busy date, and determining the use busyness of the time period on the use busy date through the number of the use busy dates, the utilization rates of different use busy dates on the time period, the processing number of the credit giving applications on the time period of the use busy date and the accumulated processing duration of the credit giving applications;

judging whether the use busyness of the time period on the use busyness date is in a preset busyness interval, if so, entering the next step, and if not, determining that the energy-saving control mode of the time period is never dormant;

and acquiring the processing quantity of the credit application and the accumulated processing time length of the credit application of the automatic terminal in the period within the preset time, and determining the use busyness of the period by combining the average value of the utilization rate of the self-service terminal on different dates and the use busyness of the self-service terminal on the use busyness date.

It will be appreciated that the energy saving control modes include shutdown, intermittent sleep and never sleep.

In another possible embodiment, the method for determining the usage busyness of the period in the step S1 is as follows:

acquiring the utilization rate of the self-service terminal in the time periods of different dates in preset time, and determining that the energy-saving control mode of the time period is shutdown when no time period with the utilization rate larger than a utilization rate threshold exists in the preset time and the utilization rate of the time periods of different dates in the preset time is smaller than the preset utilization rate;

when the utilization rate of the period of time in which the utilization rate is larger than the utilization rate threshold value exists in the preset time or the utilization rate of the period of time of different dates in the preset time is not smaller than the preset utilization rate:

taking the date with the utilization rate larger than the utilization rate threshold value of the time period as a busy date, and determining that the energy-saving control mode of the time period is never dormant when the number of the busy dates is larger than the number of preset dates;

when the number of the using busy dates is not more than the number of preset dates, taking the date with the time period with the utilization rate larger than the utilization rate threshold as the using busy date, and determining the using busyness of the time period on the using busy date according to the number of the using busy dates, the utilization rates of different using busy dates in the time period, the processing number of the credit application in the time period of the using busy date and the accumulated processing time length of the credit application;

judging whether the use busyness of the time period on the use busyness date is in a preset busyness interval, if so, entering the next step, and if not, determining that the energy-saving control mode of the time period is never dormant;

and acquiring the processing quantity of the credit application and the accumulated processing time length of the credit application of the automatic terminal in the period within the preset time, and determining the use busyness of the period by combining the average value of the utilization rate of the self-service terminal on different dates and the use busyness of the self-service terminal on the use busyness date.

It should be noted that, the utilization rate threshold is greater than the preset utilization rate, where the utilization rate threshold and the preset utilization rate are determined according to the number of self-service terminals at the website, and the greater the number of self-service terminals, the higher the utilization rate threshold and the preset utilization rate.

In this embodiment, the determination of the usage busyness and the energy-saving control mode in different time periods is performed according to the usage rates of different dates in the preset time, so that the determination of the usage busyness and the energy-saving control mode in different time periods from the angle of the usage rate in a certain time period is realized, and further, a foundation is laid for realizing the energy-saving control in different time periods in a differentiated mode, and unnecessary electric energy consumption is reduced.

S2, taking a period of which the previous energy-saving control mode of the current period of the current date is intermittent dormancy as a preceding period, determining the time period use busyness and the busyness period of different preceding periods through the acceptance data, the forced wakeup data and the dormancy control period of the credit application, and entering the next step when the number of the busyness periods meets the requirement;

it can be understood that the forced wake-up data includes the forced wake-up times, interval durations of different forced wake-up times, and the working durations after wake-up of different forced wake-up times.

In a possible embodiment, as shown in fig. 3, the method for determining the busyness used in the earlier period in step S2 is as follows:

s21, determining the processing quantity of the credit application and the accumulated processing time length of the credit application in the early period through the acceptance data of the early period, determining the basic use busyness of the early period based on the processing quantity of the credit application in the early period and the accumulated processing time length of the credit application, determining whether the period belongs to a suspected busy period through the basic use busyness, if so, entering the next step, and if not, determining the period use busyness of the current period through the basic use busyness;

s22, determining the forced awakening times of the early period based on the forced awakening data of the early period, judging whether the forced awakening times of the early period meet the requirement, if so, entering the next step, and if not, entering the step S24;

s23, determining interval time lengths of different forced awakening times of the early period based on the forced awakening data, judging whether the forced awakening times with the interval time length smaller than a preset time length exist, if so, taking the basic use busyness as the period use busyness of the current period, and if not, entering the next step;

s24, taking the forced awakening times with the interval time length smaller than the preset time length as screening awakening times, and determining the awakening use busyness according to the quantity of the screening awakening times, the interval time length of the screening awakening times and the adjacent forced awakening times, the quantity of the forced awakening times and the average value of the interval time lengths of different forced awakening times;

s25, determining the sleep duration of the earlier period based on the sleep control period, and determining the period use busyness of the earlier period by combining the sleep control period, the wake-up use busyness and the basic use busyness.

Specifically, when the number of the busy periods does not meet the requirement, the energy-saving control mode of the current period is set to never sleep.

In another possible embodiment, the method for determining the period of the preceding period in step S2 uses busyness is as follows:

determining the processing quantity of the credit application and the accumulated processing time length of the credit application in the early period through the acceptance data of the early period, and determining the basic use busyness of the early period based on the processing quantity of the credit application and the accumulated processing time length of the credit application in the early period;

determining interval time lengths of different forced awakening times in the early period based on the forced awakening data, determining weight values of different forced awakening times by combining the awakening working time lengths of different forced awakening times, judging whether the number of the weight values of the forced awakening times meets the requirement or not, taking the basic use busyness as the period use busyness of the current period, and if not, entering the next step;

taking the forced awakening times with the weight value smaller than a preset threshold value as screening awakening times, determining awakening use busyness according to the number of the screening awakening times, the weight value of the screening awakening times, the number of the forced awakening times and the average value of the weight values of different forced awakening times, judging whether the awakening use busyness meets the requirement or not, taking the basic use busyness as the time period use busyness of the current time period, and if not, entering the next step;

and determining the sleep duration of the early period based on the sleep control period, and determining the period use busyness of the early period by combining the sleep control period, the wake-up use busyness and the basic use busyness.

S3, acquiring acceptance data of the trust application of the current date, and determining a recommended dormancy control period of the current period by combining the periods of different earlier periods by using busyness, the duration from the current period and the busyness period;

in a possible embodiment, as shown in fig. 4, the method for determining the recommended sleep control period of the current period in the step S3 is as follows:

s31, determining a processing number threshold value of the credit application of the current date and a processing time length threshold value of the credit application by removing the number of the preceding time periods and the energy-saving control mode from the previous time periods of the current time period of the current date, determining whether the processing number of the credit application of the current date and the accumulated processing time length of the credit application meet requirements or not based on the processing number threshold value and the processing time length threshold value, if yes, entering the next step, and if not, determining a recommended dormancy control period of the current time period by a preset control period;

s32, obtaining the number and the number duty ratio of the busy periods in the earlier period of the current period, judging whether the number and the number duty ratio of the busy periods meet the requirements, if so, entering the next step, and if not, determining the recommended dormancy control period of the current period through a preset control period;

s33, determining different correction use busyness of the previous period based on the time interval use busyness of different previous periods and the time length from the current time interval, and determining the comprehensive use busyness of the previous period of the current time interval based on the average value of the correction use busyness of the different previous periods, the number of the previous periods, the number of different busyness periods and the correction use busyness of the different busyness;

s34, obtaining a ratio of the processing number threshold to the processing number of the credit application on the current date and a ratio of the processing time threshold to the accumulated processing time of the credit application on the current date, and determining the recommended dormancy control period of the current period by combining the comprehensive utilization busyness of the earlier period of the current period.

In this embodiment, the determination of the recommended sleep control period of the current period is performed according to the acceptance data of the credit application of the current date, the time period usage busyness of different earlier time periods, the duration of the current time period and the busy time period, so that not only is the difference of the busy condition of the current date caused by the difference of the acceptance data of the credit application of the current date considered, but also the accurate prediction of the busy condition of the current time period is realized by integrating the busy condition of the earlier time period and the duration of the current time period, thereby reducing the electric energy consumption on the basis of guaranteeing the convenience of use of users.

And S4, carrying out sleep control of the current period based on the recommended sleep control period, and dynamically adjusting the sleep control period of the current period according to the acceptance data and the forced wake-up data of the credit application of the current period.

It should be further noted that, according to the acceptance data and the forced wake-up data of the trust application in the current period, dynamically adjusting the sleep control period in the current period specifically includes:

when the accumulated processing time length of the credit application of the current period is greater than a preset time length threshold or the forced awakening frequency is greater than a preset awakening frequency threshold, modifying the dormancy control mode of the current period to never dormancy;

when the accumulated processing time length of the credit application in the current period is not greater than a preset time length threshold or the forced awakening frequency is not greater than a preset awakening frequency threshold, acquiring the working time length of the self-service terminal in the current period, determining the working busyness of the self-service terminal in the current period by combining the processing number of the credit application in the current period, the accumulated processing time length and the forced awakening frequency, and dynamically adjusting the dormancy control period of the current period based on the working busyness.

In this embodiment, the sleep control period of the current period is dynamically adjusted according to the acceptance data and the forced wake-up data of the trusted application of the current period, so that the dynamic adjustment of the sleep adjustment period by the use condition and the forced wake-up data in a certain time is realized, that is, unnecessary electric energy consumption is avoided, and the technical problem of insufficient use convenience of users due to frequent sleep is also avoided.

On the other hand, as shown in fig. 5, the present invention provides a self-service terminal, and the energy-saving control method adopting the self-service terminal is characterized in that the method specifically includes:

the energy-saving mode control module, the busy period evaluation module, the dormancy control period evaluation module and the adjustment module;

the energy-saving mode control module is responsible for determining working time periods of different time periods according to the operation log of the self-service terminal, determining utilization rates of different time periods by combining processing data of a credit application in the working time periods, determining using busyness and an energy-saving control mode of different time periods according to the utilization rates of different dates in preset time, and entering a next step when the energy-saving control mode of the time periods is intermittent dormancy;

the busy period assessment module takes a period of intermittent dormancy in the previous energy-saving control mode of the current period of the current date as a preceding period, and determines the time using busyness and the busy period of different preceding periods through the acceptance data of the credit application, the forced awakening data and the dormancy control period;

the dormancy control period assessment module is responsible for acquiring acceptance data of the trust application of the current date, and determining a recommended dormancy control period of the current period by combining the periods of different earlier periods by using busyness, the duration from the current period and the busyness period;

the adjusting module is responsible for carrying out sleep control of the current period based on the recommended sleep control period, and dynamically adjusting the sleep control period of the current period according to the acceptance data and the forced wake-up data of the credit application of the current period.

In this specification, each embodiment is described in a progressive manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for apparatus, devices, non-volatile computer storage medium embodiments, the description is relatively simple, as it is substantially similar to method embodiments, with reference to the section of the method embodiments being relevant.

The foregoing describes specific embodiments of the present disclosure. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims can be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing are also possible or may be advantageous.

The foregoing is merely one or more embodiments of the present description and is not intended to limit the present description. Various modifications and alterations to one or more embodiments of this description will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of one or more embodiments of the present description, is intended to be included within the scope of the claims of the present description.

Claims (9)

1. The energy-saving control method of the self-service terminal is characterized by comprising the following steps of:

determining working time periods of different time periods according to running logs of the self-service terminal, determining utilization rates of different time periods by combining processing data of credit application in the working time periods, determining using busyness and energy-saving control modes of different time periods according to the utilization rates of different dates in preset time, and entering a next step when the energy-saving control modes of the time periods are intermittent dormancy;

taking a period of which the previous energy-saving control mode of the current period of the current date is intermittent dormancy as a preceding period, determining the time period use busyness and the busyness period of different preceding periods through the acceptance data, the forced wakeup data and the dormancy control period of the credit application, and entering the next step when the number of the busyness periods meets the requirement;

acquiring acceptance data of the trust application of the current date, and determining a recommended dormancy control period of the current period by combining the periods of different earlier periods by using busyness, the duration from the current period and the busyness period;

performing sleep control of a current period based on the recommended sleep control period, and dynamically adjusting the sleep control period of the current period according to acceptance data and forced wake-up data of a credit application of the current period;

the method for determining the busyness of the time period comprises the following steps:

acquiring the utilization rate of the self-service terminal in the time period of different dates in preset time, judging whether the utilization rate of the self-service terminal in the time period of different dates in the preset time is smaller than the preset utilization rate, if so, determining that the energy-saving control mode of the time period is shutdown, and if not, entering the next step;

judging whether the utilization rates of the time periods of different dates in the preset time are all larger than a utilization rate threshold value, if so, determining that the energy-saving control mode of the time period is never dormant, and if not, entering the next step;

taking the date with the utilization rate larger than the utilization rate threshold value of the time period as a use busy date, and determining the use busyness of the time period on the use busy date through the number of the use busy dates, the utilization rates of different use busy dates on the time period, the processing number of the credit giving applications on the time period of the use busy date and the accumulated processing duration of the credit giving applications;

judging whether the use busyness of the time period on the use busyness date is in a preset busyness interval, if so, entering the next step, and if not, determining that the energy-saving control mode of the time period is never dormant;

the processing quantity of the credit application and the accumulated processing time length of the credit application of the self-service terminal in the period within the preset time are obtained, and the average value of the utilization rate of the self-service terminal on different dates and the use busyness of the use busyness date are combined to determine the use busyness of the period.

2. The method for controlling energy saving of a self-service terminal according to claim 1, wherein the self-service terminal comprises a mobile terminal and a fixed terminal capable of performing a trusted application process.

3. The energy saving control method of a self-service terminal according to claim 1, wherein the method for determining the utilization rate of the period is:

the method comprises the steps of determining the processing quantity of the credit application and the accumulated processing time length of the credit application in the working time length through processing data of the credit application in the working time length, and determining the utilization rate of the time period based on the processing quantity of the credit application and the accumulated processing time length of the credit application in the working time length of the time period and the working time length of the time period by the self-service terminal.

4. The method of power saving control of a self-service terminal of claim 1, wherein the power saving control mode includes shutdown, intermittent sleep and never sleep.

5. The energy saving control method of self-service terminals according to claim 1, wherein the utilization threshold is greater than the preset utilization, wherein the utilization threshold and the preset utilization are determined according to the number of self-service terminals at a website, and wherein the greater the number of self-service terminals, the higher the utilization threshold and the preset utilization.

6. The energy-saving control method of the self-service terminal according to claim 1, wherein the forced wake-up data includes forced wake-up times, interval durations of different forced wake-up times, and wake-up working durations of different forced wake-up times.

7. The energy saving control method of a self-service terminal as claimed in claim 1, wherein the method for determining the period usage busyness of the early period is as follows:

s21, determining the processing quantity of the credit application and the accumulated processing time length of the credit application in the early period through the acceptance data of the early period, determining the basic use busyness of the early period based on the processing quantity of the credit application in the early period and the accumulated processing time length of the credit application, determining whether the period belongs to a suspected busy period through the basic use busyness, if so, entering the next step, and if not, determining the period use busyness of the current period through the basic use busyness;

s22, determining the forced awakening times of the early period based on the forced awakening data of the early period, judging whether the forced awakening times of the early period meet the requirement, if so, entering the next step, and if not, entering the step S24;

s23, determining interval time lengths of different forced awakening times of the early period based on the forced awakening data, judging whether the forced awakening times with the interval time length smaller than a preset time length exist, if so, taking the basic use busyness as the period use busyness of the current period, and if not, entering the next step;

s24, taking the forced awakening times with the interval time length smaller than the preset time length as screening awakening times, and determining the awakening use busyness according to the quantity of the screening awakening times, the interval time length of the screening awakening times and the adjacent forced awakening times, the quantity of the forced awakening times and the average value of the interval time lengths of different forced awakening times;

s25, determining the sleep duration of the earlier period based on the sleep control period, and determining the period use busyness of the earlier period by combining the sleep control period, the wake-up use busyness and the basic use busyness.

8. The power saving control method of a self-service terminal according to claim 1, wherein when the number of busy periods does not meet a requirement, the power saving control mode of the current period is set to never sleep.

9. A self-service terminal, adopting the energy-saving control method of the self-service terminal as claimed in any one of claims 1 to 8, characterized by comprising the following specific steps:

the energy-saving mode control module, the busy period evaluation module, the dormancy control period evaluation module and the adjustment module;

the energy-saving mode control module is responsible for determining working time periods of different time periods according to the operation log of the self-service terminal, determining utilization rates of different time periods by combining processing data of a credit application in the working time periods, determining using busyness and an energy-saving control mode of different time periods according to the utilization rates of different dates in preset time, and entering a next step when the energy-saving control mode of the time periods is intermittent dormancy;

the busy period assessment module takes a period of intermittent dormancy in the previous energy-saving control mode of the current period of the current date as a preceding period, and determines the time using busyness and the busy period of different preceding periods through the acceptance data of the credit application, the forced awakening data and the dormancy control period;

the dormancy control period assessment module is responsible for acquiring acceptance data of the trust application of the current date, and determining a recommended dormancy control period of the current period by combining the periods of different earlier periods by using busyness, the duration from the current period and the busyness period;

the adjusting module is responsible for carrying out sleep control of the current period based on the recommended sleep control period, and dynamically adjusting the sleep control period of the current period according to the acceptance data and the forced wake-up data of the credit application of the current period.