CN108712589B - Intelligent consumption reduction method of self-service copying and printing system based on Internet sharing - Google Patents

Abstract

The invention discloses an intelligent consumption reduction method of a self-service copying and printing system based on Internet sharing, which comprises the following steps: the system comprises a bottom sensing subsystem, a human-computer interaction subsystem and a remote monitoring subsystem, wherein the bottom sensing subsystem and the human-computer interaction subsystem are connected through a USB (universal serial bus) line and transmit data, and the human-computer interaction subsystem and the remote monitoring subsystem are connected through a wireless network and transmit data; the intelligent consumption reduction method can detect the surrounding environment through a plurality of sensors, calculate the appropriate consumption reduction grade by combining the sensor data, and automatically adjust the energy consumption of key equipment according to different consumption reduction grades.

Description

Intelligent consumption reduction method of self-service copying and printing system based on Internet sharing

Technical Field

The invention relates to a self-service copying and printing technology, in particular to an intelligent consumption reduction method of a self-service copying and printing system based on Internet sharing.

Background

With the continuous development of technology, common printing equipment including printers, copiers and scanners has become a necessary equipment for companies to work. However, for most ordinary households, printing equipment is not generally equipped due to low utilization rate, high equipment price, need of regular maintenance and the like; but instead choose to go to the next store when needed to purchase the associated print service. However, due to the high labor cost and house rent, the image-text store must be set up in a place with a large passenger flow, and the number and the scale are limited. Therefore, the phenomenon that the user needs to copy the material urgently and cannot find the image-text store often occurs, the time cost of the user is increased, and even important practical delay is caused.

Disclosure of Invention

In order to solve the problems, the invention provides an intelligent consumption reduction method of a self-service copying and printing system based on Internet sharing.

In order to achieve the purpose, the technical scheme of the invention is as follows:

an intelligent consumption reduction method of a self-service copying and printing system based on Internet sharing comprises the following steps:

(1) detecting whether there is no operation

Recording the number n of key pressing times of the current user on the touch display screen by the airborne controller_tchAnd recording the time t when the user does not operate the touch screen_notchWhen the system is not in the output printing state, the threshold value t of the system non-operation time is calculated according to the following formula_SnothWherein n is_△tchThe value is adjusted according to the field condition, and the value range is 21-34:

t_Snotch＝ln(n_tch+n_Δtch)\*MERGEFORMAT(1)

t obtained by the above calculation_SnothIn combination with the time t when the user does not operate the touch screen_notchThen, the following formula can be used to obtain the identifier F of whether the system is in the non-operation state_nothWherein F is the system in the non-operating state_nothIs 1:

F_noth＝sgn(t_notch-t_Snotch)\*MERGEFORMAT(2)

(2) detecting the intensity of illumination

Obtaining a sensing signal I by a light sensor_lAnd calculating the current illumination intensity lm according to the following formula:

lm＝200+12487.5(I_l-4)\*MERGEFORMAT(3)

the lm obtained by the calculation is combined with the illumination intensity threshold lm_SThe identifier F indicating whether the ambient light intensity is too low can be obtained by_lThe numerical value is adjusted according to the field condition and ranges from 45 to 75, wherein F is obtained when the ambient light intensity is too low_lIs 1:

F_l＝sgn(lm-lm_s)\*MERGEFORMAT(4)

(3) detecting close range personnel

Sensor signal V obtained by infrared detector_rAnd obtaining the identifier F of whether a person exists in the short distance according to the following formula_nhIn which V is_SrThe numerical value of the personnel detection threshold is adjusted according to the field condition, the value range is 2.6-3.8, and F is realized when no personnel are detected in a short distance_nhIs 1:

F_nh＝sgn(V_Sr-V_r)\*MERGEFORMAT(5)

(4) detecting remote persons

Acquiring a real-time video picture in front of the equipment by using an infrared camera, and defining an ith pixel point in the picture at the moment t as

m_t ⁱ(x, y), the average u of the ith pixel at time t can be calculated by the following formula_t ⁱ(x, y) and standard deviation σ_t ⁱ(x, y) wherein α

The efficiency parameter is a value which is adjusted according to the field condition, and the value range is 3-5:

u calculated from the above_t ⁱ(x,y)，σ_t ⁱ(x, y) an identifier F of whether a person is present at a distance is obtained by_fhWherein lambda is a threshold parameter, the numerical value of the lambda is adjusted according to the field condition, the value range is 2-8, and F is obtained when no person is detected in a long distance_fhIs 1:

(5) evaluation of consumption reduction grade

F obtained by the above calculation_noth、F_l、F_nh、F_fhThe consumption reduction level R can be obtained by the following formula, wherein a larger value of R indicates a higher level of consumption reduction:

(6) controlling hardware devices

Controlling corresponding hardware equipment according to the consumption reduction level R obtained by calculation to achieve the purpose of reducing the energy consumption of the system; when R is more than or equal to 1 and less than 4, the touch display screen is set to be 75% of brightness; when R is more than or equal to 4 and less than 5, the touch display screen is set to 55% of brightness, and the infrared distance meter, the paper conveyer and the paper stacker are closed; and when R is more than or equal to 5, setting the touch display screen to have 35% brightness, and closing the infrared distance meter, the paper conveyer, the paper stacker, the high-definition camera and the printer.

Preferably, the self-service copying and printing system based on internet sharing comprises a bottom layer sensing subsystem, a human-computer interaction subsystem and a remote monitoring subsystem, wherein the bottom layer sensing subsystem and the human-computer interaction subsystem are connected through a USB (universal serial bus) line and transmit data, and the human-computer interaction subsystem and the remote monitoring subsystem are connected through a wireless network and transmit data.

Preferably, the bottom sensing subsystem comprises: the device comprises a high-definition camera, a light sensor, a light supplementing lamp, a printer, a carbon powder detector, a paper detector, a fault alarm, an infrared detector, an infrared camera, an infrared distance meter, a paper conveyor and a paper stacker;

wherein, the high-definition camera is connected with the expansion interface through a USB line and transmits data, the light sensor is connected with the expansion interface through a two-wire cable and transmits data, the fill-in light is connected with the expansion interface through a two-wire cable, the printer is connected with the expansion interface through a USB line and transmits data, the carbon powder detector is connected with the expansion interface through a two-wire cable and transmits data, the paper detector is connected with the expansion interface through a two-wire cable and transmits data, the fault alarm is connected with the expansion interface through a two-wire cable and transmits data, the infrared detector is connected with the expansion interface through a two-wire cable and transmits data, the infrared camera is connected with the expansion interface through a two-wire cable and transmits data, the infrared distance meter is connected with the expansion interface through a two-wire cable and transmits data, and the paper conveyor is connected with the expansion interface through a two-wire, the paper stacker and the expansion interface are connected through a two-wire cable and transmit data.

Preferably, the human-computer interaction subsystem comprises an onboard controller, a touch display screen, an online payment device, an internet communication device and a local area network communication device;

the machine-mounted controller is connected with the touch display through a DC 3.5-RJ 45 line and transmits data, the machine-mounted controller is connected with the online payment equipment through a USB line and transmits data, the machine-mounted controller is connected with the Internet communication equipment through the USB line and transmits data, and the machine-mounted controller is connected with the local area network communication equipment through an RJ45 line and transmits data.

Preferably, the remote monitoring subsystem includes: the remote data center and the remote monitoring platform are connected through a wireless network and transmit data.

The invention has the beneficial effects that:

the invention can detect the surrounding environment through a plurality of sensors, calculate the appropriate consumption reduction grade by combining the sensor data, and automatically adjust the energy consumption of key equipment according to different consumption reduction grades.

Drawings

FIG. 1 is a schematic block diagram of the system of the present invention;

FIG. 2 is a flow chart of an intelligent consumption reduction method according to the present invention;

Detailed Description

The preferred embodiments of the present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the intelligent consumption reduction method of the internet-sharing-based self-service copying and printing system comprises a bottom sensing subsystem, a human-computer interaction subsystem and a remote monitoring subsystem, wherein the bottom sensing subsystem and the human-computer interaction subsystem are connected through a USB cable and transmit data, and the human-computer interaction subsystem and the remote monitoring subsystem are connected through a wireless network and transmit data.

In this embodiment, the underlying sensing subsystem includes: the device comprises a high-definition camera, a light sensor, a light supplementing lamp, a printer, a carbon powder detector, a paper detector, a fault alarm, an infrared detector, an infrared camera, an infrared distance meter, a paper conveyor and a paper stacker;

wherein, the high-definition camera is connected with the expansion interface through a USB line and transmits data, the light sensor is connected with the expansion interface through a two-wire cable and transmits data, the fill-in light is connected with the expansion interface through a two-wire cable, the printer is connected with the expansion interface through a USB line and transmits data, the carbon powder detector is connected with the expansion interface through a two-wire cable and transmits data, the paper detector is connected with the expansion interface through a two-wire cable and transmits data, the fault alarm is connected with the expansion interface through a two-wire cable and transmits data, the infrared detector is connected with the expansion interface through a two-wire cable and transmits data, the infrared camera is connected with the expansion interface through a two-wire cable and transmits data, the infrared distance meter is connected with the expansion interface through a two-wire cable and transmits data, and the paper conveyor is connected with the expansion interface through a two-wire, the paper stacker and the expansion interface are connected through a two-wire cable and transmit data.

In this embodiment, the human-computer interaction subsystem includes an onboard controller, a touch display screen, an online payment device, an internet communication device, and a local area network communication device;

the machine-mounted controller is connected with the touch display through a DC 3.5-RJ 45 line and transmits data, the machine-mounted controller is connected with the online payment equipment through a USB line and transmits data, the machine-mounted controller is connected with the Internet communication equipment through the USB line and transmits data, and the machine-mounted controller is connected with the local area network communication equipment through an RJ45 line and transmits data.

In this embodiment, the remote monitoring subsystem includes: the remote data center and the remote monitoring platform are connected through a wireless network and transmit data.

As shown in fig. 2, the intelligent consumption reduction method of the self-service copy printing system based on internet sharing includes the following steps:

(1) detecting whether there is no operation

Recording the number n of key pressing times of the current user on the touch display screen by the airborne controller_tchAnd recording the time t when the user does not operate the touch screen_notchWhen the system is not in the output printing state, the threshold value t of the system non-operation time is calculated according to the following formula_SnothWherein n is_△tchThe value is adjusted according to the field condition, and the value range is 21-34:

t_Snotch＝ln(n_tch+n_Δtch)\*MERGEFORMAT(1)

t obtained by the above calculation_SnothIn combination with the time t when the user does not operate the touch screen_notchThen, the following formula can be used to obtain the identifier F of whether the system is in the non-operation state_nothWherein F is the system in the non-operating state_nothIs 1:

F_noth＝sgn(t_notch-t_Snotch)\*MERGEFORMAT(2)

(2) detecting the intensity of illumination

Obtaining a sensing signal I by a light sensor_lAnd calculating the current illumination intensity lm according to the following formula:

lm＝200+12487.5(I_l-4)\*MERGEFORMAT(3)

the lm obtained by the calculation is combined with the illumination intensity threshold lm_SThe identifier F indicating whether the ambient light intensity is too low can be obtained by_lThe numerical value is adjusted according to the field condition and ranges from 45 to 75, wherein F is obtained when the ambient light intensity is too low_lIs 1:

F_l＝sgn(lm-lm_s)\*MERGEFORMAT(4)

(3) detecting close range personnel

Sensor signal V obtained by infrared detector_rAnd obtaining the identifier F of whether a person exists in the short distance according to the following formula_nhIn which V is_SrThe numerical value of the personnel detection threshold is adjusted according to the field condition, the value range is 2.6-3.8, and F is realized when no personnel are detected in a short distance_nhIs 1:

F_nh＝sgn(V_Sr-V_r)\*MERGEFORMAT(5)

(4) detecting remote persons

Acquiring a real-time video picture in front of the equipment by using an infrared camera, and defining an ith pixel point in the picture at the moment t as m_t ⁱ(x, y), the average u of the ith pixel at time t can be calculated by the following formula_t ⁱ(x, y) and standard deviation σ_t ⁱ(x, y), wherein α is an efficiency parameter, the numerical value of the efficiency parameter is adjusted according to the field situation, and the value range is 3-5:

u calculated from the above_t ⁱ(x,y)，σ_t ⁱ(x, y) an identifier F of whether a person is present at a distance is obtained by_fhWherein lambda is a threshold parameter, the numerical value of the lambda is adjusted according to the field condition, the value range is 2-8, and F is obtained when no person is detected in a long distance_fhIs 1:

(5) evaluation of consumption reduction grade

F obtained by the above calculation_noth、F_l、F_nh、F_fhThe consumption reduction level R can be obtained by the following formula, wherein a larger value of R indicates a higher level of consumption reduction:

(6) controlling hardware devices

Controlling corresponding hardware equipment according to the consumption reduction level R obtained by calculation to achieve the purpose of reducing the energy consumption of the system; when R is more than or equal to 1 and less than 4, the touch display screen is set to be 75% of brightness; when R is more than or equal to 4 and less than 5, the touch display screen is set to 55% of brightness, and the infrared distance meter, the paper conveyer and the paper stacker are closed; and when R is more than or equal to 5, setting the touch display screen to have 35% brightness, and closing the infrared distance meter, the paper conveyer, the paper stacker, the high-definition camera and the printer.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any minor modifications, equivalent replacements and improvements made to the above embodiment according to the technical spirit of the present invention should be included in the protection scope of the technical solution of the present invention.

Claims (1)

1. An intelligent consumption reduction method of a self-service copying and printing system based on Internet sharing is characterized by comprising the following steps:

(1) detecting whether there is no operation

Recording the number n of key pressing times of the current user on the touch display screen by the airborne controller_tchAnd recording the time t when the user does not operate the touch screen_notchWhen the system is not in the output printing state, the threshold value t of the system non-operation time is calculated according to the following formula_SnotchWherein n is_△tchThe value is adjusted according to the field condition, and the value range is 21-34:

t_Snotch＝ln(n_tch+n_Δtch)\*MERGEFORMAT (1)

t obtained by the above calculation_SnothIn combination with the time t when the user does not operate the touch screen_notchThen, the following formula can be used to obtain the identifier F of whether the system is in the non-operation state_notchWherein F is the system in the non-operating state_notchIs 1:

F_notch＝sgn(t_notch-t_Snotch)\*MERGEFORMAT (2)

(2) detecting the intensity of illumination

Obtaining a sensing current signal I by a light sensor_lAnd calculating the current illumination intensity lm according to the following formula:

lm＝200+12487.5(I_l-4)\*MERGEFORMAT (3)

the lm obtained by the calculation is combined with the illumination intensity threshold lm_SThe identifier F indicating whether the ambient light intensity is too low can be obtained by_l，lm_SThe value is adjusted according to the field condition, the value range is 45-75 lux, wherein F is when the ambient light intensity is too low_lIs 1:

F_l＝sgn(lm-lm_s)\*MERGEFORMAT (4)

(3) detecting close range personnel

Sensor signal V obtained by infrared detector_rAnd obtaining the identifier F of whether a person exists in the short distance according to the following formula_nhIn which V is_SrThe numerical value of the personnel detection threshold is adjusted according to the field condition, the value range is 2.6-3.8 m, and F is realized when no personnel are detected in a short distance_nhIs 1:

F_nh＝sgn(V_Sr-V_r)\*MERGEFORMAT (5)

(4) detecting remote persons

Acquiring a real-time video picture in front of the equipment by using an infrared camera, and defining an ith pixel point in the picture at the moment t as m_t ⁱ(x, y), the average u of the ith pixel at time t can be calculated by the following formula_t ⁱ(x, y) and standard deviation σ_t ⁱ(x, y), wherein α is an efficiency parameter, the numerical value of the efficiency parameter is adjusted according to the field situation, and the value range is 3-5:

u calculated from the above_t ⁱ(x,y)，σ_t ⁱ(x, y) an identifier F of whether a person is present at a distance is obtained by_fhWherein, the lambda is a threshold parameter, the value of the lambda is adjusted according to the field condition, the value range is 2 to 8,when no person is detected at a distance F_fhIs 1:

(5) evaluation of consumption reduction grade

F obtained by the above calculation_notch、F_l、F_nh、F_fhThe consumption reduction level R can be obtained by the following formula, wherein a larger value of R indicates a higher level of consumption reduction:

(6) controlling hardware devices

Controlling corresponding hardware equipment according to the consumption reduction level R obtained by calculation to achieve the purpose of reducing the energy consumption of the system; when R is more than or equal to 1 and less than 4, the touch display screen is set to be 75% of brightness; when R is more than or equal to 4 and less than 5, the touch display screen is set to 55% of brightness, and the infrared distance meter, the paper conveyer and the paper stacker are closed; and when R is more than or equal to 5 and less than 8, the touch display screen is set to be 35% of brightness, and the infrared distance meter, the paper conveyer, the paper stacker, the high-definition camera and the printer are closed.

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