CN116166113A - Dynamic power consumption adjustment method and system of intelligent certificate handling machine - Google Patents

Abstract

The application relates to the technical field of intelligent Internet of things, and discloses a dynamic power consumption adjustment method and a system of an intelligent certificate handling machine, wherein the method at least can reduce the power consumption of the intelligent certificate handling machine and comprises the following steps: when an infrared signal of an adjacent area of the intelligent certificate handling machine is detected or a starting signal triggered by a display screen is detected, an intelligent camera is started to acquire images of the adjacent area to obtain a target image; after the current number of the certificate sponsors is determined to be larger than the threshold value of the number of the certificate sponsors based on the target image, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining the corresponding parameters of the certificate sponsors; and determining display control parameters corresponding to the target intelligent mode if no elderly person exists in the adjacent area based on the target image, and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameters and the display control parameters.

Description

Dynamic power consumption adjustment method and system of intelligent certificate handling machine

Technical Field

The application relates to the technical field of intelligent Internet of things, in particular to a dynamic power consumption adjustment method and system of an intelligent certificate handling machine.

Background

With the development of society, residents often need to utilize various personal related certificates in daily life, such as: book borrowing, membership cards, identity cards, residence cards, social security cards, passports, household books and the like; with the progress of science and technology, the present partial areas have realized that users can transact certificates by themselves, extract certificates autonomously, and the like, namely, after the users finish the certificate handling procedure on the certificate handling equipment by themselves, the certificate making center will make certificates, and the certificates will be stored on the certificate issuing equipment at the certificate issuing point after the manufacture is finished, and wait for the users to extract automatically;

for example, in the traditional certificate handling mode of borrowing certificates by books in libraries, a user is required to go to a manual counter or special certificate handling equipment, the certificate handling process is composed of a plurality of processes of checking reader identity card information, paying deposit, sending entity certificates and the like, but the mode has larger limitation, most of library service time is six night and six night, time conflict exists for office workers, most of readers have resistant psychology for paying deposit, at present, most of sharing economy is all credit integration rather than paying deposit, most of readers are used to carry a mobile phone for going out, and entity cards are easy to miss and carry; the self-service office machine for book borrowing has appeared based on the above reasons, but because the self-service office machine needs to be arranged at a plurality of places and needs to stand by in all weather, if proper power consumption management and control are not carried out on the self-service office machine, great unnecessary resource waste exists for society and libraries.

Disclosure of Invention

The application provides a dynamic power consumption adjustment method and a system of an intelligent certificate handling machine, which can at least reduce the power consumption degree of the intelligent certificate handling machine.

In a first aspect, the present application provides a dynamic power consumption adjustment method of an intelligent certificate handling machine, applied to the intelligent certificate handling machine, the method includes:

when an infrared signal in the adjacent area of the intelligent certificate handling machine is detected by the infrared sensor, or when a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected, the intelligent camera is started; the adjacent area is a peripheral area of the display screen configured on the intelligent certificate handling machine;

acquiring images of the adjacent areas through the intelligent camera to obtain target images; determining the current number of certificates in the adjacent area based on the target image; judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors or not;

after the current number of the certificate sponsors is determined to be larger than a threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and

Performing old people identification on the personnel contained in the adjacent area based on the target image, and determining display control parameters corresponding to the target intelligent mode if no old people exist in the personnel contained in the adjacent area in the old people identification result;

and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

The intelligent certificate handling machine in this application is under the dormancy state, confirms through infrared signal or through the initiation signal that the display screen triggered and just formally starts intelligent certificate handling machine and carry out the operation of handling certificate after waiting the personnel of certificate, and based on current certificate handling personnel and whether exist old person etc. in the in-process of handling certificate handling operation, control display brightness and the refresh frequency of display screen, reduce the consumption parameter as far as under the circumstances of taking into account the display effect in handling certificate operation, avoid unnecessary consumption.

In one possible implementation manner, the adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter includes:

Determining the sum of the certificate handling personnel parameter and the display control parameter as a comprehensive parameter; or, determining the value of the weighted summation of the certificate handling personnel parameter and the display control parameter as the comprehensive parameter;

and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the comprehensive parameter, wherein the comprehensive parameter and the adjusting amplitude for adjusting the at least one power consumption parameter form positive correlation.

In one possible implementation manner, the adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the comprehensive parameter includes:

determining a target adjustment amplitude matched with the comprehensive parameter from a plurality of candidate adjustment amplitudes, wherein the target adjustment amplitude and the comprehensive parameter form a positive correlation; and is combined with

And carrying out reduction processing on the at least one power consumption parameter based on the target adjustment amplitude, and controlling the intelligent certification machine according to the at least one power consumption parameter subjected to the reduction processing.

In one possible implementation manner, the reducing the at least one power consumption parameter based on the target adjustment amplitude includes:

determining a current parameter value of a first power consumption parameter, and determining a parameter difference value between the current parameter value and the target adjustment amplitude, wherein the first power consumption parameter is any power consumption parameter in the at least one power consumption parameter; if the parameter difference value is larger than or equal to a preset parameter value, the current parameter value of the first power consumption parameter is adjusted to be the parameter difference value; if the parameter difference value is smaller than a preset parameter value, the current parameter value of the first power consumption parameter is adjusted to be the preset parameter value; or (b)

Based on the target adjustment amplitude, adjusting a second power consumption parameter according to the following formula, wherein the second power consumption parameter is any power consumption parameter in at least one power consumption parameter: con1=con0× (a-B); wherein, con0 is the parameter value of the second power consumption parameter before adjustment, and Con1 is the parameter value of the second power consumption parameter after adjustment; a is a preset reference value, B is the target adjustment amplitude, A and B are both values larger than 0, and B is a value smaller than A.

In one possible implementation manner, the determining, based on the target image, the current number of evidence persons in the vicinity includes:

face detection is carried out on the target image, and the number of detected faces is determined to be the current number of evidence handling persons in the adjacent area; or (b)

And detecting the human body of the target image, and determining the number of detected human bodies as the current number of certificates in the adjacent area.

In one possible implementation, the plurality of candidate smart modes includes a general mode, a low-smart mode, a medium-smart mode, and a high-smart mode; the at least one preset people number threshold comprises a first people number threshold, a second people number threshold and a third people number threshold which are sequentially increased, and the adjustment amplitude of the at least one power consumption parameter are in positive correlation;

Determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes, and determining certificate sponsor parameters corresponding to the target intelligent mode, wherein the method comprises the following steps:

if the current number of the certificate sponsors is smaller than or equal to the first threshold, determining that the target intelligent mode is a general mode, and determining that the certificate sponsor parameters corresponding to the general mode are first personnel parameters;

if the current number of the certificate sponsors is greater than the first person number threshold and the current number of the certificate sponsors is less than or equal to the second person number threshold, determining that the target intelligent mode is a low intelligent mode, and determining that a certificate sponsor parameter corresponding to the low intelligent mode is a second person parameter;

if the current number of the certificate sponsors is larger than the second number of people threshold and the current number of the certificate sponsors is smaller than or equal to the third number of people threshold, determining that the target intelligent mode is a medium intelligent mode, and determining that a certificate sponsor parameter corresponding to the medium intelligent mode is a third personnel parameter;

if the current number of the certificate sponsors is larger than the third number threshold, determining that the target intelligent mode is a high intelligent mode, and determining that the certificate sponsor parameter corresponding to the high intelligent mode is a fourth personnel parameter;

Wherein the first personnel parameter, the second personnel parameter, the third personnel parameter and the fourth personnel parameter are sequentially increased.

In one possible implementation manner, after the identifying the elderly person for the person included in the adjacent area based on the target image, the method further includes:

if the old person identification result is a first identification result, the current brightness value of the display brightness in the at least one power consumption parameter is directly set as a preset brightness value; wherein:

the preset brightness value is larger than or equal to the current brightness value, and the first identification result represents that old people exist in people contained in the adjacent area.

In one possible implementation, the display control parameter and the adjustment amplitude by which the power consumption parameter is adjusted are positively correlated; the plurality of candidate smart modes includes a general mode, a low-smart mode, a medium-smart mode, and a high-smart mode,

if no elderly person exists in the persons included in the adjacent area in the old person identification result, determining the display control parameters corresponding to the target intelligent mode includes:

if the old person identification result is a second identification result and the target intelligent mode is the general mode, determining that the display control parameter is a first display parameter;

If the old person identification result is a second identification result and the target intelligent mode is the low intelligent mode, determining that the display control parameter is a second display parameter;

if the old person identification result is a second identification result and the target intelligent mode is the middle intelligent mode, determining that the display control parameter is a third display parameter;

if the old person identification result is a second identification result and the target intelligent mode is the high intelligent mode, determining that the display control parameter is a fourth display parameter;

and the second identification result characterizes that no old person exists in the personnel contained in the adjacent area, and the first display parameter, the second display parameter, the third display parameter and the fourth display parameter are sequentially increased.

In one possible implementation manner, the intelligent certificate handling machine is equipment for handling borrowed certificates in an intelligent book management system; after determining that the current number of the certificate sponsors is greater than the threshold value of the number of the certificate sponsors, the method further comprises the following steps:

responding to a target certificate handling mode selected by a current user from a plurality of certificate handling modes, and controlling other certificate handling modes operated in the intelligent certificate handling machine to enter a dormant state, wherein the other certificate handling modes are other certificate handling modes except the target certificate handling mode in the plurality of certificate handling modes; the plurality of evidence handling modes comprise at least two of two-dimensional code evidence handling modes triggered by two-dimensional codes, intelligent borrowing modes triggered by specific borrowing interfaces and face evidence handling modes triggered by faces;

Based on the certificate handling information triggered by the current user through the target certificate handling mode, borrowing certificates are handled for the current user; and is combined with

The current user is started to check the borrowed certificate, and the current user is started to check the borrowed certificate; and controlling the intelligent certificate handling machine to enter a dormant state until an infrared signal in a neighboring area of the intelligent certificate handling machine is detected through an infrared sensor or a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected.

In a second aspect, the present application provides a dynamic power consumption adjustment system of an intelligent certificate handling machine, where the dynamic power consumption adjustment system at least includes an intelligent certificate handling machine configured with a display screen, an infrared sensor, and an intelligent camera, and the intelligent certificate handling machine is a device for handling borrowed certificates in an intelligent book management system; wherein: the infrared sensor, the intelligent camera and the intelligent evidence-handling machine are integrated equipment, or at least one of the infrared sensor and the intelligent camera is independent of the intelligent evidence-handling machine;

when the infrared sensor detects an infrared signal in a neighboring area of the intelligent certificate handling machine or the intelligent certificate handling machine detects a starting signal triggered by the display screen, the intelligent camera is started; the adjacent area is a peripheral area of the display screen configured on the intelligent certificate handling machine;

The intelligent camera performs image acquisition on the adjacent area to obtain a target image; transmitting the target image to the intelligent certificate handling machine;

the intelligent certificate handling machine determines the current certificate handling number in the adjacent area based on the target image, and judges whether the current certificate handling number is larger than a certificate handling number threshold; after the current number of the certificate sponsors is determined to be larger than a threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and identifying the old people of the people contained in the adjacent area based on the target image, and if the old people do not exist in the people contained in the adjacent area in the old people identification result, determining display control parameters corresponding to the target intelligent mode; and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

In a third aspect, an electronic device provided in an embodiment of the present application includes a processor and a memory, where the memory is configured to store a program executable by the processor, and the processor is configured to read the program in the memory and execute the following steps:

when an infrared signal in the adjacent area of the intelligent certificate handling machine is detected by the infrared sensor, or when a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected, the intelligent camera is started; the adjacent area is a peripheral area of the display screen configured on the intelligent certificate handling machine;

acquiring images of the adjacent areas through the intelligent camera to obtain target images; determining the current number of certificates in the adjacent area based on the target image; judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors or not;

after the current number of the certificate sponsors is determined to be larger than a threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and

Performing old people identification on the people contained in the adjacent area based on the target image, and if no old people exist in the people contained in the adjacent area in the old people identification result, determining display control parameters corresponding to the target intelligent mode;

and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

In a fourth aspect, the present application provides a dynamic power consumption adjusting device of intelligent certificate handling machine, waste liquid aluminum ion filtering device includes:

the wake-up unit is used for starting the intelligent camera when the infrared sensor detects an infrared signal in the adjacent area of the intelligent certificate handling machine or when the infrared sensor detects a starting signal triggered by a display screen arranged on the intelligent certificate handling machine; the adjacent area is a peripheral area of the display screen configured on the intelligent certificate handling machine;

the personnel detection unit is used for acquiring images of the adjacent areas through the intelligent camera to obtain target images; determining the current number of certificates in the adjacent area based on the target image; judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors or not;

The first parameter determining unit is used for determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset number threshold after determining that the current number of the certificate sponsors is larger than the threshold of the number of the certificate sponsors, and determining a certificate sponsor parameter corresponding to the target intelligent mode; and

a second parameter determining unit, configured to identify elderly people for persons included in the adjacent area based on the target image, and determine a display control parameter corresponding to the target intelligent mode if no elderly people exist in the persons included in the adjacent area in the result of the elderly people identification;

the power consumption adjusting unit is used for adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

Drawings

FIG. 1 is a schematic diagram of a dynamic power consumption adjustment system of an intelligent certification machine according to an embodiment of the present application;

FIG. 2 is a flowchart of a method for adjusting dynamic power consumption of an intelligent certificate handling machine according to an embodiment of the present application;

FIG. 3 is an exemplary diagram of a certification page provided in an embodiment of the present application;

FIG. 4 is a complete exemplary diagram of a method for adjusting dynamic power consumption of an intelligent certificate handling machine according to an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a dynamic power consumption adjustment device of an intelligent certificate handling machine according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

The realization, functional characteristics and advantages of the present application will be further described with reference to the embodiments, referring to the attached drawings.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

Referring to fig. 1, an embodiment of the present application provides a dynamic power consumption adjustment system of an intelligent certificate handling machine, which at least includes an intelligent certificate handling machine 110 configured with a display screen 111, an infrared sensor 130 and an intelligent camera 120, wherein:

the intelligent card handling machine 110 may be a device for handling one or more certificates in a book borrowing certificate, a membership card, an identity card, a residence certificate, a social security card, a passport, a household account book, etc., for example, the intelligent card handling machine 110 is a device for handling a borrowing certificate in an intelligent book management system, or the intelligent card handling machine 110 is a device for handling an identity card set by a household registration management unit, etc., and the device for handling a borrowing certificate in the intelligent book management system is hereinafter described as a specific example of the intelligent card handling machine 110 in the embodiments of the present application.

As an embodiment, the relative positions of the intelligent certificate handling machine 110, the intelligent camera 120 and the infrared sensor 130 are not excessively limited in the embodiment of the present application, as long as the infrared sensor 130 can detect the infrared signal of the adjacent area of the intelligent certificate handling machine, and the intelligent camera 120 can perform image acquisition on the adjacent area (i.e. the acquisition view of the intelligent camera 120 includes the adjacent area); for ease of understanding, referring to the scenario illustrated in fig. 1 (b), the infrared sensor 130, the smart camera 120, and the smart card host 110 may be integrated devices, or at least one of the infrared sensor 130 and the smart camera 120 may be independent of the smart card host 110, such as the scenario illustrated in fig. 1 (a), and both the infrared sensor 130 and the smart camera 120 may be independent of the smart card host 110.

As an embodiment, in the embodiment of the present application, the intelligent certificate handling machine 110 is in a dormant state, the infrared sensor 130 may start all-weather to detect whether an infrared signal exists in a neighboring area of the intelligent certificate handling machine, or the infrared sensor 130 detects whether an infrared signal exists in the neighboring area when the intelligent certificate handling machine 110 is in a dormant state; in the embodiment of the application, when the infrared sensor 130 detects the infrared signal of the adjacent area of the intelligent certificate handling machine 110, or when the intelligent certificate handling machine 110 detects the starting signal triggered by the display screen 111, the intelligent camera 120 is started, and then the image of the adjacent area is acquired by the intelligent camera 120, so as to obtain a target image; and transmits the target image to the intelligent certificate handling machine 110;

The adjacent area is a peripheral area of the display screen 111 configured on the intelligent certificate handling machine 110, and in this embodiment, the specific setting of the adjacent area is not limited, and a person skilled in the art may set the adjacent area according to actual needs, for example, a space area that is covered by a sphere with a radius R1 and a center of the display screen 111 is the adjacent area, or a space area that is covered by a cube with a radius R2 and a radius of the display screen 111 along the reference direction is the adjacent area, and the direction of the display screen facing the user is the reference direction; the specific values of R1 and R2 are not limited to a great extent, and those skilled in the art can set the values according to practical requirements, such as setting R1 and R2 to 1 meter, 2 meters, 3 meters, or 5 meters.

Thus, after receiving the target image, the intelligent certificate handling machine 110 may determine the current number of certificates handled in the adjacent area based on the target image, and determine whether the current number of certificates handled is greater than a threshold value of the number of certificates handled; after the current number of the certificate sponsors is determined to be larger than the threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining the parameters of the certificate sponsors corresponding to the target intelligent mode; and performing old person identification on the persons in the adjacent areas based on the target image, and determining display control parameters corresponding to the target intelligent mode if no old person exists in the persons in the adjacent areas in the old person identification result; and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refresh frequency of a display screen configured on the intelligent certificate handling machine.

Based on the same inventive concept, the embodiment of the present application provides a dynamic power consumption adjustment method of an intelligent certificate handling machine, which can be applied to an intelligent certificate handling machine 110 in the dynamic power consumption adjustment system, referring to fig. 2, the method includes steps S10 to S50:

step S10, when an infrared signal in the adjacent area of the intelligent certificate handling machine is detected by an infrared sensor or a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected, an intelligent camera is started; the adjacent area is a peripheral area of the display screen configured on the intelligent certificate handling machine.

It should be noted that when a person is in the vicinity, the person's body will automatically emit an infrared signal, and the infrared sensor may automatically detect the infrared signal to determine that the person approaches the intelligent evidence-processing machine.

As an embodiment, in the embodiment of the present application, a person/user may trigger a start signal through a document handling page provided by a display screen, for example, please refer to fig. 3, a document handling page 300 for handling documents of a book is provided, and the user may trigger the start signal through a mode of clicking/double clicking/long pressing a document handling control 310 in the document handling page 300; it should be noted that, the foregoing document page 300 may further include any one or more of a book inquiry control 320, a return book control 330, an activity information control 340, etc., and in this embodiment of the present application, the foregoing triggering manner of triggering the start signal through the document page 300 is merely an example, and a person skilled in the art may flexibly set a specific manner of triggering the start signal through other interaction manners with the display screen by a user according to actual service requirements.

Step S20, acquiring images of the adjacent areas through the intelligent camera to obtain target images; determining the current number of certificates in the adjacent area based on the target image; and judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors.

As an embodiment, the purpose of determining whether the current number of witness is greater than the threshold value of the number of witness in step S20 is to determine whether there are waiting staff in the adjacent area, that is, in the embodiment of the present application, the threshold value of the number of witness may be set to 0, and when the current number of witness is greater than the threshold value of the number of witness, it may be determined that there are waiting staff in the current adjacent area, and then power consumption control is performed on the intelligent evidence-handling machine through the following steps S30 to S50; when the current number of evidence-handling persons is 0 (i.e. less than or equal to the threshold value of the number of evidence-handling persons), it can be determined that no person waiting for evidence handling exists in the current adjacent area, and then step S10 can be returned to wait for the intelligent camera to be restarted to acquire the target image of the adjacent area.

As one embodiment, in step S20, the person in the target image may be detected/identified by an artificial intelligence method, the number of persons in the vicinity is determined based on the result of the target detection/identification, and the number of persons is determined as the current number of persons for the certificate; specifically, in the embodiment of the present application, face detection may be performed on the target image, and the number of detected faces is determined as the current number of evidence persons in the adjacent area; or detecting human bodies of the target images, and determining the number of detected human bodies as the current number of certificates in the adjacent area; the foregoing face detection and/or human body detection may be implemented by a machine learning method, for example, by a face detection network and/or a human body detection network created based on a deep neural network, etc., which may be set by those skilled in the art based on actual requirements.

Step S30, after determining that the current number of the certificate sponsors is greater than a threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and

as an embodiment, in the embodiment of the present application, K2 candidate intelligent modes may be set in advance based on K1 preset people number thresholds, where K1 is an integer greater than 0, K2 is an integer greater than 1, and K2 is greater than or equal to K1, for example, K1 may be set to 1 and K2 may be set to 2, or K1 may be set to 2 and K2 may be set to 3, or K1 may be set to 3 and K2 may be set to 4, or the like; the adjustment amplitude of at least one power consumption parameter of the intelligent certificate handling machine in different candidate intelligent modes in the K2 candidate intelligent modes is not identical.

For easy understanding, the embodiment of the present application provides a specific example of setting K2 candidate intelligent modes, please refer to the following table 1, in this example, K1 is 3, K2 is 4, that is, in this embodiment of the present application, a first threshold Q1 of people number, a second threshold Q2 of people number, and a third threshold Q3 of people number that increase sequentially may be set, and a total of 4 candidate intelligent modes including a general mode, a low intelligent mode, a medium intelligent mode, and a high intelligent mode are set based on Q1, Q2, and Q3; the corresponding relationship between the current certificate dealing number corresponding to different candidate intelligent modes and Q1, Q2 and Q3 is shown in the following table 1:

Table 1 correspondence between preset population threshold and candidate intelligent pattern

As an embodiment, specific values of the first person number threshold Q1, the second person number threshold Q2, and the third person number threshold Q3 are not limited, and may be set by a person skilled in the art according to actual needs, for example, Q1, Q2, and Q3 may be set to 1, 3, and 5, that is, when the current number of office workers is 1 person or 0, a general mode is determined to be a target intelligent mode, when the current number of office workers is 2 or 3 persons, a low intelligent mode is determined to be a target intelligent mode, when the current number of office workers is 4 or 5 persons, a medium intelligent mode is determined to be a target intelligent mode, and when the current number of office workers is greater than 5 persons, a high intelligent mode is determined to be a target intelligent mode; or, Q1, Q2, and Q3 may be set to 2, 4, and 8, respectively, that is, when the number of current office witness is less than or equal to 2 people, the general mode is determined to be the target intelligent mode, when the number of current office witness is 3 or 4 people, the low intelligent mode is determined to be the target intelligent mode, when the number of current office witness is greater than 4 people and not more than 8 people, the medium intelligent mode is determined to be the target intelligent mode, when the number of current office witness exceeds 8 people, the high intelligent mode is determined to be the target intelligent mode, and so on.

And step S40, carrying out senile person identification on the personnel contained in the adjacent area based on the target image, and determining the display control parameters corresponding to the target intelligent mode if no senile person exists in the personnel contained in the adjacent area in the senile person identification result.

In step S40, whether the old person is in the office or not is preferentially considered, if the old person is in the office, the power consumption parameter is reduced, and meanwhile, the display intensity/display brightness of the display screen is ensured to be in accordance with the vision characteristics of the old person, so that the power consumption of the intelligent office is reduced, and meanwhile, the service quality of the intelligent office is ensured; specifically, the old people identification result in step S40 may be a first identification result or a second identification result, where the first identification result indicates that no old people exist in the people included in the neighboring area, and the second identification result indicates that old people exist in the neighboring area; namely:

in the case that the at least one power consumption parameter includes a display luminance of a display screen, in this embodiment, if the foregoing senile identification result is a first identification result indicating that a person included in the foregoing neighboring area has a senile person, the current luminance value of the display luminance in the foregoing at least one power consumption parameter is directly set to a preset luminance value, where the preset luminance value is greater than or equal to the foregoing current luminance value, and if the preset luminance value may be set to 1.2, 1.5, or 2 times the current luminance value, or the current luminance value is kept unchanged, so as to reduce power consumption while ensuring display strength of the display screen, so that the elderly can clearly learn display content in the display screen; if the old person identification result is a second identification result indicating that no old person exists in the persons included in the adjacent area, the display control parameter corresponding to the target intelligent mode may be directly determined, and a specific method thereof will be further described below.

The following describes the method for identifying the elderly in step S40 and the association relationship between the method and the determination method of the current number of witness in step S20:

in the embodiment of the application, facial feature analysis/matching can be performed on each person detected in the adjacent area based on facial features, and whether each person belongs to the old person or not is analyzed based on the facial features; the limb characteristics of each person detected in the adjacent area can be analyzed/matched based on the limb morphology, so that whether each person belongs to the old person or not can be determined; in other words, when the face detection is performed on the target image in step S20 to determine the current office number, in step S40, facial feature analysis/matching can be directly performed on each detected face to determine whether each person is an elderly person, and when the human body detection is performed on the target image in step S20 to determine the current office number, in step S40, limb feature analysis/matching can be directly performed on each detected human body to determine whether each person is an elderly person, so that computer power consumption for confirming the current office number and the elderly person identification by using different algorithms is avoided, the power consumption for determining the current office number and the elderly person identification process is reduced, and the power consumption and the lifting efficiency of the intelligent office machine are further reduced.

And step S50, adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

As an example, referring to table 1, the plurality of candidate smart modes in the embodiments of the present application may include a general mode, a low-smart mode, a medium-smart mode, and a high-smart mode; the at least one preset people number threshold comprises a first people number threshold Q1, a second people number threshold Q2 and a third people number threshold Q3 which are sequentially increased, and the adjustment amplitude of the at least one power consumption parameter are positively correlated; further, in step S30, a target intelligent mode that matches the current number of witness is determined from the plurality of candidate intelligent modes, and a witness parameter corresponding to the target intelligent mode is determined, including:

if the current number of the certificate sponsors is smaller than or equal to the first threshold number of people Q1, determining that the target intelligent mode is a general mode, and determining that the certificate sponsor parameter corresponding to the general mode is a first personnel parameter P1;

If the current number of the certificate sponsors is greater than the first person number threshold value Q1 and the current number of the certificate sponsors is less than or equal to the second person number threshold value Q2, determining that the target intelligent mode is a low intelligent mode, and determining that a certificate sponsor parameter corresponding to the low intelligent mode is a second person parameter P2;

if the current number of the certificate sponsors is greater than the second number of people threshold Q2 and the current number of the certificate sponsors is less than or equal to the third number of people threshold Q3, determining that the target intelligent mode is a medium intelligent mode, and determining that a certificate sponsor parameter corresponding to the medium intelligent mode is a third personnel parameter P3;

if the current number of the certificate sponsors is greater than the third number of people threshold Q3, determining that the target intelligent mode is a high intelligent mode, and determining that the certificate sponsor parameter corresponding to the high intelligent mode is a fourth personnel parameter P4; wherein:

the first personnel parameter P1, the second personnel parameter P2, the third personnel parameter P3 and the fourth personnel parameter P4 are sequentially increased, and specific examples of a preset person number threshold, a corresponding candidate intelligent mode and a corresponding license agency personnel parameter are given with reference to table 2.

TABLE 2 correspondence of preset people threshold, candidate Intelligent Pattern and Do witness parameters

As an embodiment, specific numerical values of the foregoing P1, P2, P3 and P4 are not limited in the embodiment of the present application, and those skilled in the art may set the specific numerical values according to actual needs, for example, P1, P2, P3 and P4 may be set to 1, 2, 3 and 4, or P1, P2, P3 and P4 may be set to 1, 3, 5 and 7, respectively.

As an example, referring to table 1 and/or table 2, the plurality of candidate smart modes in embodiments of the present application may include a general mode, a low-smart mode, a medium-smart mode, and a high-smart mode; the display control parameter and the adjustment amplitude for adjusting the power consumption parameter are positively correlated; in step S40, the process of determining the display control parameter according to the old person identification result and the target intelligent mode specifically includes the following situations:

if the old person identification result is a second identification result representing that no old person exists in the persons included in the adjacent area, and the target intelligent mode is the general mode, determining that the display control parameter is a first display parameter M1; if the old person identification result is a second identification result and the target intelligent mode is the low intelligent mode, determining the display control parameter as a second display parameter M2; if the old person identification result is a second identification result and the target intelligent mode is the middle intelligent mode, determining the display control parameter as a third display parameter M3; if the old person identification result is the second identification result and the target intelligent mode is the high intelligent mode, determining that the display control parameter is a fourth display parameter M4;

The specific numerical values of the foregoing first display parameter M1, the second display parameter M2, the third display parameter M3, and the fourth display parameter M4 are sequentially increased, that is, "M1< M2< M3< M4", in this embodiment of the present application, specific numerical values of the foregoing M1, M2, M3, and M4 are not limited, and a person skilled in the art may set the specific numerical values according to actual needs, for example, may set M1, M2, M3, and M4 to 1, 2, 3, and 4, or may set M1, M2, M3, and M4 to 1, 3, 5, 7, or 2, 4, 6, 8, etc.; referring to table 3, specific examples of the old person identification result, the corresponding candidate intelligent mode, and the corresponding display control parameter are given.

TABLE 3 preset correspondence of people threshold, target Intelligent Pattern and Do witness parameters

And step S50, adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

The following describes the foregoing step S50 in detail:

as an embodiment, in step S50, in the process of adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, an integrated parameter may be determined based on the certificate handling personnel parameter determined in step S30 and the display control parameter determined in step S40, and the at least one power consumption parameter of the intelligent certificate handling machine is further adjusted according to the integrated parameter, where the integrated parameter and the adjustment range for adjusting the at least one power consumption parameter are in positive correlation; specifically, the sum of the aforementioned certificate handling personnel parameter and the aforementioned display control parameter may be determined as a comprehensive parameter according to the following formula (1 a), or the value of the weighted sum of the aforementioned certificate handling personnel parameter and the aforementioned display control parameter may be determined as the aforementioned comprehensive parameter according to the following formula (1 b), and then one or more power consumption parameters of the intelligent certificate handling machine may be adjusted according to the comprehensive parameter; the integrated parameter and the adjustment amplitude for adjusting the at least one power consumption parameter are positively correlated;

C=pi+mi formula (1 a)

C=α×pi+β×mi formula (1 b)

In the formula (1 a) and the formula (1 b), pi is the witness parameter, mi is the display control parameter, and C is the comprehensive parameter;

and->

Respectively, the weight of the personnel parameter and the display control parameter, in the embodiment of the application

And->

The value of (2) is not limited to,those skilled in the art can be set according to actual business requirements, such as but not limited to

And->

Is set to any one of 1 and 1, 1 and 2, 2 and 1, 3 and 2, 7 and 3, etc.

As an embodiment, in the embodiment of the present application, a plurality of candidate adjustment amplitudes may be set for a numerical range of a comprehensive parameter, so that in a process of adjusting one or more power consumption parameters of an intelligent certificate handling machine according to the comprehensive parameter, a candidate adjustment amplitude matched with the comprehensive parameter may be determined as a target adjustment amplitude from the plurality of candidate adjustment amplitudes, and the at least one power consumption parameter is subjected to reduction processing based on the target adjustment amplitude, and the intelligent certificate handling machine is controlled according to the at least one reduced power consumption parameter, where the target adjustment amplitude and the comprehensive parameter are in positive correlation;

For ease of understanding, a specific manner of setting the plurality of candidate adjustment amplitudes is given herein, in which the plurality of candidate intelligent modes includes a general mode, a low intelligent mode, a medium intelligent mode, and a high intelligent mode, where the foregoing P1, P2, P3, and P4 are respectively set to 1, 2, 3, and 4, and M1, M2, M3, and M4 are respectively set to 1, 2, 3, and 4, and the complex parameter is determined using formula (1 a), and then the minimum value of the complex parameter is 2 (i.e., the sum of P1 and M0), and the maximum value of the complex parameter is 8 (i.e., the sum of P4 and M4), and then the corresponding plurality of candidate adjustment amplitudes may be set as target adjustment amplitudes for the complex parameter matching in the manner of table 4.1 or table 4.2 below:

TABLE 4.1

TABLE 4.2

As an embodiment, in the process of performing the reduction processing on the at least one power consumption parameter based on the target adjustment amplitude, a current parameter value of a first power consumption parameter may be determined, a parameter difference between the current parameter value and the target adjustment amplitude may be determined, and if the parameter difference is greater than or equal to a preset parameter value, the current parameter value of the first power consumption parameter is adjusted to be the parameter difference; if the parameter difference value is smaller than a preset parameter value, the current parameter value of the first power consumption parameter is adjusted to be the preset parameter value, and the first power consumption parameter is any power consumption parameter in the at least one power consumption parameter; the preset parameter value may be a value between 20% and 150% of the rated parameter value of the first power consumption parameter, and the preset parameter may be 50% or 60% of the rated parameter value of the first power consumption parameter.

As an embodiment, in the foregoing process of performing the reduction processing on the at least one power consumption parameter based on the target adjustment amplitude, the second power consumption parameter may be adjusted according to the following formula (2), where the second power consumption parameter is any power consumption parameter of the at least one power consumption parameter based on the target adjustment amplitude:

Con1=Con0× (A-B) equation (2)

Wherein, in the formula (2), con0 is a parameter value of the second power consumption parameter before adjustment, and Con1 is a parameter value of the second power consumption parameter after adjustment; a is a preset reference value, B is the target adjustment amplitude, A and B are both values larger than 0, and B is a value smaller than A, namely, in the embodiment of the application, the target adjustment amplitude is a specific value in the candidate adjustment amplitudes shown in the table 4.2, and the target adjustment amplitude can be, but is not limited to, set to 1, 1.2 or 1.5.

For ease of understanding, the following embodiments of the present application provide a complete example of a dynamic power consumption adjustment method of an intelligent transaction machine, where at least one power consumption parameter includes display brightness and refresh frequency of a display screen, a plurality of candidate intelligent modes includes four intelligent modes including a general mode, a low intelligent mode, a medium intelligent mode and a high intelligent mode, where Q1, Q2 and Q3 are respectively set to 2, 4 and 8, P1, P2, P3 and P4 are respectively set to 1, 2, 3, 4, M1, M2, M3 and M4, respectively set to 1, 2, 3 and 4, and the above formula (1 a) is adopted to determine a comprehensive parameter, where a minimum value of the comprehensive parameter is 2 (i.e. a sum of P1 and M0), a maximum value of the comprehensive parameter is 8 (i.e. a sum of P4 and M4), and setting a corresponding plurality of candidate adjustment amplitudes as target adjustment amplitudes for matching the comprehensive parameter in a manner of the above table 4.2, please refer to fig. 4, where the following steps and specific cases are specifically performed:

Step S00, the intelligent certificate handling machine is in a dormant state, and an infrared signal in the adjacent area of the intelligent certificate handling machine is detected through an infrared sensor or a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected.

Step S11, the intelligent camera is started when the infrared signal is detected or the starting signal is detected, and the step S21 is performed.

Step S21, determining the current certificate handling number in the adjacent area of the intelligent certificate handling machine based on the target image acquired by the intelligent camera.

Step S22, judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors, if so, entering step S31, otherwise, returning to step S00.

Step S31, determining a target intelligent mode matched with the current number of the certificate authorities from a plurality of candidate intelligent modes according to at least one preset number threshold, determining certificate authorities parameters corresponding to the target intelligent mode, and proceeding to step S41.

In step S31, the following four cases are included:

case 1: the number of current certificate handling persons is less than or equal to 2 persons, the target intelligent mode is determined to be a general mode, and the parameters of the certificate handling persons corresponding to the target intelligent mode are 1 (namely P1);

case 2: the current number of the certificates is 3 or 4, the target intelligent mode is determined to be a low intelligent mode, and the parameters of the certificates corresponding to the target intelligent mode are 2 (namely P2);

Case 3: the current number of the certificates is more than 4 and not more than 8, the target intelligent mode is determined to be a medium intelligent mode, and the parameters of the certificates corresponding to the target intelligent mode are 3 (namely P3);

case 4: the current number of the certificate handling persons is more than 8, the target intelligent mode is determined to be a high intelligent mode, and the parameters of the certificate handling persons corresponding to the target intelligent mode are 4 (namely P4).

Step S41, carrying out senile person identification on the personnel contained in the adjacent area based on the target image, judging whether the senile person exists in the personnel contained in the adjacent area based on the senile person identification result, if not, proceeding to step S42, and if so, proceeding to step S43;

step S42, determining the display control parameters corresponding to the target intelligent mode, and proceeding to step S51.

The step S42 includes the following concentrated cases:

case 1: the target intelligent mode is a general mode, and the display control parameter is determined to be 1 (namely M1);

case 2: the target intelligent mode is a low intelligent mode, and the display control parameter is determined to be 2 (namely M2);

case 3: the target intelligent mode is a medium intelligent mode, and the display control parameter is determined to be 3 (namely M3);

case 4: the target intelligent mode is a high intelligent mode, and the display control parameter is determined to be 4 (i.e., M4).

Step S43, setting the current brightness value of the display brightness in the at least one power consumption parameter as a preset brightness value; wherein the preset brightness value is greater than or equal to the current brightness value.

In step S43, if it is determined that the old person exists in the current witness, the display brightness of the display screen may be set to 100%, and the size of the display font in the display screen may be enlarged.

And S51, determining the sum of the personnel handling parameter and the display control parameter as a comprehensive parameter, determining a target adjustment amplitude matched with the comprehensive parameter from a plurality of candidate adjustment amplitudes, and adjusting the display brightness and the refreshing frequency of the display screen based on the target adjustment amplitude.

Wherein the target adjustment amplitude can be determined based on the manner shown in the foregoing table 4.2 in step S51, and the display brightness and the refresh frequency can be adjusted based on the foregoing formula (2), a description will not be repeated here, and only a few specific examples will be given in the following.

Referring to Table 4.2 and equation (2), in this example, A in equation (2) is set to 1 if at least one power consumption parameter includes display brightness and refresh frequency of the display screen, an

If the comprehensive parameter C is a value smaller than or equal to 2, the target adjustment amplitude can be determined to be 20%, and the current display brightness and the digital display frequency can be respectively adjusted downwards by 20% according to the formula (2); if the comprehensive parameter C is a value which is more than 2 and less than or equal to 4, the target adjustment amplitude is determined to be 40%, and the current display brightness and the digital display frequency can be respectively adjusted downwards by 40% according to the formula (2); if the comprehensive parameter C is a value which is more than 4 and less than or equal to 6, the target adjustment amplitude can be determined to be 60%, and the current display brightness and the digital display frequency can be respectively adjusted down by 60% according to the formula (2); if the integrated parameter C is a value greater than 6 and less than or equal to 8, the target adjustment amplitude can be determined to be 80%, and the current display brightness and the digital display frequency can be respectively adjusted down by 80% according to the formula (2).

As an embodiment, the foregoing intelligent certificate handling machine is a device for handling borrowed certificates in an intelligent book management system; after determining that the current number of witness is greater than the threshold number of witness, the method further includes:

responding to a target certificate handling mode selected by a current user from a plurality of certificate handling modes, and controlling other certificate handling modes operated in the intelligent certificate handling machine to enter a dormant state, wherein the other certificate handling modes are other certificate handling modes except the target certificate handling mode in the plurality of certificate handling modes; the plurality of evidence handling modes comprise at least two of two-dimensional code evidence handling modes triggered by two-dimensional codes, intelligent borrowing modes triggered by specific borrowing interfaces and face evidence handling modes triggered by faces;

based on the certificate handling information triggered by the current user through the target certificate handling mode, borrowing certificates are handled for the current user; and is combined with

The other certificate handling modes are awakened in response to the end of the transaction flow of the current user for processing the borrowed certificates; and controlling the intelligent certificate handling machine to enter a dormant state until an infrared signal in the adjacent area of the intelligent certificate handling machine is detected by an infrared sensor or a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected.

FIG. 5 is a functional block diagram of a dynamic power consumption adjustment device of an intelligent certificate handling machine according to an embodiment of the present application.

The dynamic power consumption adjustment device 500 described above may be installed in the intelligent certificate authority 110. The dynamic power consumption adjustment device 500 may include at least a wake-up unit 510, a person detection unit 520, a first parameter determination unit 530, a second parameter determination unit 540, and a power consumption adjustment unit 550 according to the implemented functions. The above modules of the present application may also be referred to as units, and refer to a series of computer programs that can be executed by a processor of an electronic device and perform fixed functions, and are stored in a memory of the electronic device.

In the present embodiment, the functions concerning the respective modules/units are as follows:

the wake-up unit 510 is configured to start the intelligent camera when an infrared signal in a vicinity of the intelligent certificate handling machine is detected by the infrared sensor or when a start signal triggered by a display screen configured on the intelligent certificate handling machine is detected; the adjacent area is the peripheral area of the display screen configured on the intelligent certificate handling machine;

the person detection unit 520 is configured to acquire an image of the neighboring area through the smart camera, so as to obtain a target image; determining the current number of certificates in the adjacent area based on the target image; judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors or not;

The first parameter determining unit 530 is configured to determine, according to at least one preset person number threshold, a target intelligent mode that matches the current number of witness from a plurality of candidate intelligent modes after determining that the current number of witness is greater than the threshold, and determine a witness parameter corresponding to the target intelligent mode; and

a second parameter determining unit 540, configured to identify the elderly person for the person included in the neighboring area based on the target image, and determine a display control parameter corresponding to the target intelligent mode if no elderly person exists in the person included in the neighboring area in the result of the elderly person identification;

and the power consumption adjustment unit 550 is configured to adjust at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, where the at least one power consumption parameter includes at least one parameter of display brightness and refresh frequency of the display screen configured on the intelligent certificate handling machine.

In detail, the above modules in the dynamic power consumption adjustment device 500 in the embodiment of the present application use the same technical means as the dynamic power consumption adjustment method of the intelligent certification machine in fig. 2, and can generate the same technical effects, which are not described herein.

As shown in fig. 6, a schematic structural diagram of an electronic device 1 of a dynamic power consumption adjustment method of an intelligent certificate handling machine according to an embodiment of the present application, where the electronic device 1 may be, but is not limited to, the aforementioned intelligent certificate handling machine 110.

The electronic device 1 may include a processor 10, a memory 11, a communication bus 12, and a communication interface 13, and may further include a computer program stored in the memory 11 and executable on the processor 10 to implement a method for dynamic power consumption adjustment of an intelligent certification machine as described above in fig. 2.

The processor 10 may be formed by an integrated circuit in some embodiments, for example, a single packaged integrated circuit, or may be formed by a plurality of integrated circuits packaged with the same function or different functions, including one or more central processing units (Central Processing Unit, CPU), a microprocessor, a digital processing chip, a graphics processor, a combination of various control chips, and so on. The processor 10 is a Control Unit (Control Unit) of the electronic device 1, and connects various components of the entire electronic device using various interfaces and lines, and executes various functions of the electronic device and processes data by executing or executing programs or modules stored in the memory 11 (for example, executing a dynamic power consumption adjustment method program of an intelligent certification machine, etc.), and calling data stored in the memory 11.

The memory 11 includes at least one type of readable storage medium including flash memory, a removable hard disk, a multimedia card, a card type memory (e.g., SD or DX memory, etc.), a magnetic memory, a magnetic disk, an optical disk, etc. The memory 11 may in some embodiments be an internal storage unit of the electronic device, such as a mobile hard disk of the electronic device. The above-mentioned memory 11 may also be an external storage device of the electronic device in other embodiments, for example, a plug-in mobile hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card) or the like, which are provided on the electronic device. Further, the memory 11 may also include both an internal storage unit and an external storage device of the electronic device. The memory 11 may be used not only for storing application software installed in an electronic apparatus and various types of data such as codes of an aluminum ion removal method program under multi-cycle purification of waste liquid, but also for temporarily storing data that has been output or is to be output.

The communication bus 12 may be a peripheral component interconnect standard (Peripheral Component Interconnect, PCI) bus, an extended industry standard architecture (Extended Industry Standard Architecture, EISA) bus, or the like. The bus may be classified as an address bus, a data bus, a control bus, etc. The bus is arranged to enable a connection communication between the memory 11 and at least one processor 10 etc.

The communication interface 13 is used for communication between the electronic device 1 and other devices, including a network interface and a user interface. Optionally, the network interface may include a wired interface and/or a wireless interface (e.g., WI-FI interface, bluetooth interface, etc.), typically used to establish a communication connection between the electronic device and other electronic devices. The user interface may be a Display (Display), an input unit (such as a Keyboard), or alternatively, a standard wired interface, a wireless interface. Alternatively, in some embodiments, the display may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch, or the like. The display may also be referred to as a display screen or display unit, as appropriate, for displaying information processed in the electronic device and for displaying a visual user interface.

Fig. 6 shows only an electronic device with components, and it will be appreciated by a person skilled in the art that the structure shown in fig. 6 does not constitute a limitation of the above-described electronic device 1, and may comprise fewer or more components than shown, or may combine certain components, or may be arranged in different components.

For example, although not shown, the electronic device 1 may further include a power source (such as a battery) for supplying power to each component, and the power source may be logically connected to the at least one processor 10 through a power management device, so that functions of charge management, discharge management, power consumption management, and the like are implemented through the power management device. The power supply may also include one or more of any of a direct current or alternating current power supply, recharging device, power failure detection circuit, power converter or inverter, power status indicator, etc. The electronic device 1 may further include various sensors, bluetooth modules, wi-Fi modules, etc., which are not described herein.

It should be understood that the above-described embodiments are for illustrative purposes only and are not limited to this configuration in the scope of the patent application.

The dynamic power consumption adjustment method program of the intelligent certification authority stored in the memory 11 of the electronic device 1 is a combination of a plurality of instructions, and when running in the processor 10, it can be implemented:

when an infrared signal in the adjacent area of the intelligent certificate handling machine is detected by the infrared sensor, or when a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected, the intelligent camera is started; the adjacent area is the peripheral area of the display screen configured on the intelligent certificate handling machine;

Acquiring images of the adjacent areas through the intelligent camera to obtain target images; determining the current number of certificates in the adjacent area based on the target image; judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors or not;

after the current number of the certificate sponsors is determined to be larger than the threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and

performing old person identification on the persons contained in the adjacent area based on the target image, and determining display control parameters corresponding to the target intelligent mode if no old person exists in the persons contained in the adjacent area in the old person identification result;

and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refresh frequency of the display screen configured on the intelligent certificate handling machine.

In particular, the specific implementation method of the above instructions by the processor 10 may refer to the description of the relevant steps in the corresponding embodiment of the drawings, which is not repeated herein.

Further, the above-described modules/units integrated in the electronic device 1 may be stored in a computer-readable storage medium if implemented in the form of software functional units and sold or used as separate products. The computer readable storage medium may be volatile or nonvolatile. For example, the computer readable medium described above may include: any entity or device, recording medium, USB flash disk, removable hard disk, magnetic disk, optical disk, computer Memory, read-Only Memory (ROM) capable of carrying the computer program code described above.

The present application also provides a computer readable storage medium storing a computer program which, when executed by a processor of an electronic device, can implement:

when an infrared signal in the adjacent area of the intelligent certificate handling machine is detected by the infrared sensor, or when a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected, the intelligent camera is started; the adjacent area is the peripheral area of the display screen configured on the intelligent certificate handling machine;

acquiring images of the adjacent areas through the intelligent camera to obtain target images; determining the current number of certificates in the adjacent area based on the target image; judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors or not;

After the current number of the certificate sponsors is determined to be larger than the threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and

performing old person identification on the persons contained in the adjacent area based on the target image, and determining display control parameters corresponding to the target intelligent mode if no old person exists in the persons contained in the adjacent area in the old person identification result;

and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refresh frequency of the display screen configured on the intelligent certificate handling machine.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus, device, and method may be implemented in other manners. For example, the above-described embodiments of the apparatus are merely illustrative, and for example, the division of the modules is merely a logical function division, and other division manners are possible when actually implemented.

In addition, each functional module in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit. The integrated units can be realized in a form of hardware or a form of hardware and a form of software functional modules.

The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Finally, it should be noted that the above embodiments are merely for illustrating the technical solution of the present application and not for limiting, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application.

Claims (10)

1. The dynamic power consumption adjustment method for the intelligent certificate handling machine is characterized by being applied to the intelligent certificate handling machine, and comprises the following steps:

When an infrared signal in the adjacent area of the intelligent certificate handling machine is detected by the infrared sensor, or when a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected, the intelligent camera is started; the adjacent area is a peripheral area of the display screen configured on the intelligent certificate handling machine;

acquiring images of the adjacent areas through the intelligent camera to obtain target images; determining the current number of certificates in the adjacent area based on the target image; judging whether the current number of the certificate sponsors is larger than a threshold value of the number of the certificate sponsors or not;

after the current number of the certificate sponsors is determined to be larger than a threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and

performing old people identification on the people contained in the adjacent area based on the target image, and if no old people exist in the people contained in the adjacent area in the old people identification result, determining display control parameters corresponding to the target intelligent mode;

And adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

2. The method for adjusting dynamic power consumption of an intelligent certificate handling machine according to claim 1, wherein adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter comprises:

determining the sum of the certificate handling personnel parameter and the display control parameter as a comprehensive parameter; or, determining the value of the weighted summation of the certificate handling personnel parameter and the display control parameter as the comprehensive parameter;

and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the comprehensive parameter, wherein the comprehensive parameter and the adjusting amplitude for adjusting the at least one power consumption parameter form positive correlation.

3. The method for adjusting dynamic power consumption of an intelligent certificate handling machine according to claim 2, wherein the adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the comprehensive parameter comprises:

Determining a target adjustment amplitude matched with the comprehensive parameter from a plurality of candidate adjustment amplitudes, wherein the target adjustment amplitude and the comprehensive parameter form a positive correlation; and is combined with

And carrying out reduction processing on the at least one power consumption parameter based on the target adjustment amplitude, and controlling the intelligent certification machine according to the at least one power consumption parameter subjected to the reduction processing.

4. The method for dynamic power consumption adjustment of an intelligent certification authority according to claim 3, wherein the step of performing the reduction process on the at least one power consumption parameter based on the target adjustment amplitude comprises:

determining a current parameter value of a first power consumption parameter, and determining a parameter difference value between the current parameter value and the target adjustment amplitude, wherein the first power consumption parameter is any power consumption parameter in the at least one power consumption parameter; if the parameter difference value is larger than or equal to a preset parameter value, the current parameter value of the first power consumption parameter is adjusted to be the parameter difference value; if the parameter difference value is smaller than a preset parameter value, the current parameter value of the first power consumption parameter is adjusted to be the preset parameter value; or (b)

Based on the target adjustment amplitude, adjusting a second power consumption parameter according to the following formula, wherein the second power consumption parameter is any power consumption parameter in at least one power consumption parameter: con1=con0× (a-B); wherein, con0 is the parameter value of the second power consumption parameter before adjustment, and Con1 is the parameter value of the second power consumption parameter after adjustment; a is a preset reference value, B is the target adjustment amplitude, A and B are both values larger than 0, and B is a value smaller than A.

5. The method for dynamic power consumption adjustment of an intelligent evidence-handling machine according to claim 1, wherein the determining the current number of evidence-handling persons in the vicinity based on the target image includes:

face detection is carried out on the target image, and the number of detected faces is determined to be the current number of evidence handling persons in the adjacent area; or (b)

And detecting the human body of the target image, and determining the number of detected human bodies as the current number of certificates in the adjacent area.

6. The method for dynamic power consumption adjustment of an intelligent evidence machine according to claim 1, wherein the plurality of candidate intelligent modes includes a general mode, a low intelligent mode, a medium intelligent mode, and a high intelligent mode; the at least one preset people number threshold comprises a first people number threshold, a second people number threshold and a third people number threshold which are sequentially increased, and the adjustment amplitude of the at least one power consumption parameter are in positive correlation;

determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes, and determining certificate sponsor parameters corresponding to the target intelligent mode, wherein the method comprises the following steps:

If the current number of the certificate sponsors is smaller than or equal to the first threshold, determining that the target intelligent mode is a general mode, and determining that the certificate sponsor parameters corresponding to the general mode are first personnel parameters;

if the current number of the certificate sponsors is greater than the first person number threshold and the current number of the certificate sponsors is less than or equal to the second person number threshold, determining that the target intelligent mode is a low intelligent mode, and determining that a certificate sponsor parameter corresponding to the low intelligent mode is a second person parameter;

if the current number of the certificate sponsors is larger than the second number of people threshold and the current number of the certificate sponsors is smaller than or equal to the third number of people threshold, determining that the target intelligent mode is a medium intelligent mode, and determining that a certificate sponsor parameter corresponding to the medium intelligent mode is a third personnel parameter;

if the current number of the certificate sponsors is larger than the third number threshold, determining that the target intelligent mode is a high intelligent mode, and determining that the certificate sponsor parameter corresponding to the high intelligent mode is a fourth personnel parameter;

wherein the first personnel parameter, the second personnel parameter, the third personnel parameter and the fourth personnel parameter are sequentially increased.

7. The method for adjusting dynamic power consumption of an intelligent evidence-handling machine according to claim 1, wherein after the person included in the vicinity is identified by the elderly person based on the target image, further comprising:

if the old person identification result is a first identification result, the current brightness value of the display brightness in the at least one power consumption parameter is directly set as a preset brightness value; wherein:

the preset brightness value is larger than or equal to the current brightness value, and the first identification result represents that old people exist in people contained in the adjacent area.

8. The method for adjusting dynamic power consumption of an intelligent certification machine according to claim 1, wherein the display control parameter and an adjustment amplitude for adjusting the power consumption parameter are positively correlated; the plurality of candidate smart modes includes a general mode, a low-smart mode, a medium-smart mode, and a high-smart mode,

if no elderly person exists in the persons included in the adjacent area in the old person identification result, determining the display control parameters corresponding to the target intelligent mode includes:

if the old person identification result is a second identification result and the target intelligent mode is the general mode, determining that the display control parameter is a first display parameter;

If the old person identification result is a second identification result and the target intelligent mode is the low intelligent mode, determining that the display control parameter is a second display parameter;

if the old person identification result is a second identification result and the target intelligent mode is the middle intelligent mode, determining that the display control parameter is a third display parameter;

if the old person identification result is a second identification result and the target intelligent mode is the high intelligent mode, determining that the display control parameter is a fourth display parameter;

and the second identification result characterizes that no old person exists in the personnel contained in the adjacent area, and the first display parameter, the second display parameter, the third display parameter and the fourth display parameter are sequentially increased.

9. The method for dynamic power consumption adjustment of an intelligent document handling machine according to any one of claims 1 to 8, wherein the intelligent document handling machine is a device for handling borrowed documents in an intelligent book management system;

after determining that the current number of the certificate sponsors is greater than the threshold value of the number of the certificate sponsors, the method further comprises the following steps:

responding to a target certificate handling mode selected by a current user from a plurality of certificate handling modes, and controlling other certificate handling modes operated in the intelligent certificate handling machine to enter a dormant state, wherein the other certificate handling modes are other certificate handling modes except the target certificate handling mode in the plurality of certificate handling modes; the plurality of evidence handling modes comprise at least two of two-dimensional code evidence handling modes triggered by two-dimensional codes, intelligent borrowing modes triggered by specific borrowing interfaces and face evidence handling modes triggered by faces;

Based on the certificate handling information triggered by the current user through the target certificate handling mode, borrowing certificates are handled for the current user; and is combined with

The current user is started to check the borrowed certificate, and the current user is started to check the borrowed certificate; and controlling the intelligent certificate handling machine to enter a dormant state until an infrared signal in a neighboring area of the intelligent certificate handling machine is detected through an infrared sensor or a starting signal triggered by a display screen arranged on the intelligent certificate handling machine is detected.

10. The dynamic power consumption adjusting system of the intelligent certificate handling machine is characterized by at least comprising the intelligent certificate handling machine provided with a display screen, an infrared sensor and an intelligent camera, wherein the intelligent certificate handling machine is equipment for handling borrowed certificates in an intelligent book management system; wherein:

the infrared sensor, the intelligent camera and the intelligent evidence-handling machine are integrated equipment, or at least one of the infrared sensor and the intelligent camera is independent of the intelligent evidence-handling machine;

when the infrared sensor detects an infrared signal in a neighboring area of the intelligent certificate handling machine or the intelligent certificate handling machine detects a starting signal triggered by the display screen, the intelligent camera is started; the adjacent area is a peripheral area of the display screen configured on the intelligent certificate handling machine;

The intelligent camera performs image acquisition on the adjacent area to obtain a target image; transmitting the target image to the intelligent certificate handling machine;

the intelligent certificate handling machine determines the current certificate handling number in the adjacent area based on the target image, and judges whether the current certificate handling number is larger than a certificate handling number threshold; after the current number of the certificate sponsors is determined to be larger than a threshold value of the number of the certificate sponsors, determining a target intelligent mode matched with the current number of the certificate sponsors from a plurality of candidate intelligent modes according to at least one preset threshold value of the number of the certificate sponsors, and determining parameters of the certificate sponsors corresponding to the target intelligent mode; and identifying the old people of the people contained in the adjacent area based on the target image, and if the old people do not exist in the people contained in the adjacent area in the old people identification result, determining display control parameters corresponding to the target intelligent mode; and adjusting at least one power consumption parameter of the intelligent certificate handling machine according to the certificate handling personnel parameter and the display control parameter, wherein the at least one power consumption parameter comprises at least one parameter of display brightness and refreshing frequency of the display screen configured on the intelligent certificate handling machine.

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