CN108712589A - Intelligent consumption-reducing method based on the self-service reprographic printing system that internet is shared - Google Patents

Intelligent consumption-reducing method based on the self-service reprographic printing system that internet is shared Download PDF

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Publication number
CN108712589A
CN108712589A CN201810413230.9A CN201810413230A CN108712589A CN 108712589 A CN108712589 A CN 108712589A CN 201810413230 A CN201810413230 A CN 201810413230A CN 108712589 A CN108712589 A CN 108712589A
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China
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transmission data
connect
expansion interface
subsystem
consumption
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CN108712589B (en
Inventor
刘唯
徐志鹏
靳西朋
王西龙
朱雨
张卜中
祁露露
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Xuzhou Yisichen Intelligent Technology Co.,Ltd.
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Jiangsu Institute of Architectural Technology
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/00885Power supply means, e.g. arrangements for the control of power supply to the apparatus or components thereof
    • H04N1/00888Control thereof
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/00002Diagnosis, testing or measuring; Detecting, analysing or monitoring not otherwise provided for
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/0035User-machine interface; Control console
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/00835Detecting external or ambient light
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N1/00Scanning, transmission or reproduction of documents or the like, e.g. facsimile transmission; Details thereof
    • H04N1/00885Power supply means, e.g. arrangements for the control of power supply to the apparatus or components thereof
    • H04N1/00888Control thereof
    • H04N1/00896Control thereof using a low-power mode, e.g. standby
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N7/00Television systems
    • H04N7/18Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast

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  • Engineering & Computer Science (AREA)
  • Multimedia (AREA)
  • Signal Processing (AREA)
  • Health & Medical Sciences (AREA)
  • Biomedical Technology (AREA)
  • General Health & Medical Sciences (AREA)
  • Control Or Security For Electrophotography (AREA)
  • User Interface Of Digital Computer (AREA)

Abstract

The invention discloses the intelligent consumption-reducing methods for the self-service reprographic printing system shared based on internet, including:Bottom sensing subsystem, human-machine interaction subsystem, remote monitoring subsystem three parts, by USB line connection and transmission data between the bottom sensing subsystem and human-machine interaction subsystem, pass through wireless network connection and transmission data between the human-machine interaction subsystem and remote monitoring subsystem;The intelligence consumption-reducing method can detect ambient enviroment by multiple sensors, and suitable consumption reduction grade is calculated in conjunction with sensing data, and the energy consumption of key equipment is automatically adjusted according to different consumption reduction grades.

Description

Intelligent consumption-reducing method based on the self-service reprographic printing system that internet is shared
Technical field
The present invention relates to a kind of self-service reprographic printing technologies, the self-service reprographic printing system specifically shared based on internet Intelligent consumption-reducing method.
Background technology
With the continuous development of science and technology, the common print business equipment including printer, duplicator, scanner has become The necessary equipment of corporate office.However for most average families, it is low due to the use of rate, equipment price is high, need The reasons such as periodic maintenance are not equipped with print business equipment generally;But selection arrives close on the relevant print business of picture and text shop purchase when needed Service.But due to surging cost of labor and house rent so that picture and text shop must be chosen to be at the big place of the volume of the flow of passengers and open up, number Amount has received limitation with scale.Therefore often there is user and be badly in need of the phenomenon that photocopying materials but can not find picture and text shop, increase The time cost of user even results in important practice delay.
Invention content
To solve the above-mentioned problems, the present invention provides the intelligence consumption reduction for the self-service reprographic printing system shared based on internet Method.
To achieve the goals above, the technical scheme is that:
Intelligent consumption-reducing method based on the self-service reprographic printing system that internet is shared, the intelligence consumption-reducing method includes such as Lower step:
(1) no operation is detected whether
By touch potential n of the on-board controller record active user in touch display screentch, and record user and do not operate The time t of touch screennotch, when system is not when exporting print state, then threshold values of the system without the operating time is calculated as follows out tSnoth, wherein n△tchFor touch potential adjusted value, numerical value is adjusted according to field condition, value range 21-34:
tSnotch=ln (ntch+nΔtch)\*MERGEFORMAT(1)
By the t obtained by above-mentioned calculatingSnoth, in conjunction with the time t of the non-operation touch-screen of usernotch, can be obtained by following formula and be System whether the identifier F in no mode of operationnoth, wherein the F when system is in no mode of operationnothIt is 1:
Fnoth=sgn (tnotch-tSnotch)\*MERGEFORMAT(2)
(2) intensity of illumination is detected
Transducing signal I is obtained by light sensorl, and current light intensity lm is calculated according to the following formula:
Lm=200+12487.5 (Il-4)\*MERGEFORMAT(3)
By the lm obtained by above-mentioned calculating, in conjunction with intensity of illumination threshold values lmS, can whether environment illumination intensity be obtained by following formula Too low identifier Fl, numerical value is adjusted according to field condition, value range 45-75, wherein working as environment illumination intensity F when too lowlIt is 1:
Fl=sgn (lm-lms)\*MERGEFORMAT(4)
(3) short distance personnel are detected
Sensor signal V is obtained by infrared detectorr, and the identifier for closely whether having personnel is obtained according to the following formula Fnh, wherein VSrFor personnel's detection threshold, numerical value is adjusted according to field condition, and value range 2.6-3.8 works as detection F when to short distance without personnelnhIt is 1:
Fnh=sgn (VSr-Vr)\*MERGEFORMAT(5)
(4) remote personnel are detected
Real-time video picture in front of equipment is obtained by infrared camera, defining ith pixel point in the picture of t moment is
mt i(x, y) can then be calculated the mean value u of t moment ith pixel point by following formulat i(x, y) and standard deviation sigmat i(x, Y), wherein α
For efficiency parameters, numerical value is adjusted according to field condition, value range 3-5:
By the u obtained by above-mentioned calculatingt i(x, y), σt iWhether (x, y), can be obtained by following formula has personnel's appearance at a distance Identifier Ffh, wherein λ is threshold parameter, and numerical value is adjusted according to field condition, value range 2-8, remote when detecting F when distance is without personnelfhIt is 1:
(5) evaluation consumption reduction grade
By the F obtained by above-mentioned calculatingnoth、Fl、Fnh、Ffh, consumption reduction grade R, the wherein bigger expression of R values can be obtained by following formula The rank that lowers consumption is higher:
(6) hardware device is controlled
Corresponding hardware device is controlled by the consumption reduction grade R obtained by above-mentioned calculating, achievees the purpose that reduce system energy consumption;When 1≤R<It sets touch display screen to 75% brightness when 4;As 4≤R<It sets touch display screen to 55% brightness when 5, and closes Close infrared range-measurement system, paper transport device, paper piling device;As 5≤R<When set touch display screen to 35% brightness, and close Infrared range-measurement system, paper transport device, paper piling device, high-definition camera, printer.
Preferably, the self-service reprographic printing system shared based on internet includes bottom sensing subsystem, man-machine friendship Mutual subsystem, remote monitoring subsystem three parts, pass through USB between the bottom sensing subsystem and human-machine interaction subsystem Line connection and transmission data, by wireless network connection and are transmitted between the human-machine interaction subsystem and remote monitoring subsystem Data.
Preferably, the bottom sensing subsystem includes:High-definition camera, light sensor, light compensating lamp, printer, Carbon dust detector, paper detection, fault alarm, infrared detector, infrared camera, infrared range-measurement system, paper feeder, Paper piling device;
Wherein, high-definition camera connect simultaneously transmission data, light sensor and expansion interface with expansion interface by USB line It is connect by two-line cable with expansion interface by two-line cable connection and transmission data, light compensating lamp, printer and extension Interface is by USB line connection and transmission data, and carbon dust detector is connect by two-line cable with expansion interface and transmission data, Paper detection is connect by two-line cable with expansion interface and transmission data, and fault alarm passes through two lines with expansion interface Cable connection processed and transmission data, infrared detector is connect by two-line cable with expansion interface and transmission data, infrared to take the photograph Picture head is connect by two-line cable with expansion interface and transmission data, and infrared range-measurement system passes through two-line cable with expansion interface Connect and transmission data, paper feeder and expansion interface connects simultaneously transmission data by two-line cable, paper piling device and Expansion interface passes through two-line cable connection and transmission data.
Preferably, the human-machine interaction subsystem include on-board controller, touch display screen, on-line payment equipment, mutually Networked communication device, local area network communication equipment;
Wherein, on-board controller and touch display turn RJ45 lines by DC3.5 and connect and transmission data, on-board controller It is connect by USB line with on-line payment equipment and transmission data, on-board controller is connect with internet communication equipment by USB line And transmission data, on-board controller is connect by RJ45 lines with local area network communication equipment and transmission data.
Preferably, the remote monitoring subsystem includes:Remote data center and remote monitoring platform, the two pass through nothing Line network connection and transmission data.
The beneficial effects of the present invention are:
The present invention can detect ambient enviroment by multiple sensors, and suitable consumption reduction etc. is calculated in conjunction with sensing data Grade, and according to the energy consumption of different consumption reduction grade automatic adjustment key equipments.
Description of the drawings
Fig. 1 is the system principle diagram of the present invention;
Fig. 2 is the intelligent consumption-reducing method flow chart of the present invention;
Specific implementation mode
Preferred embodiment of the invention is described in further detail below in conjunction with the accompanying drawings.
As shown in Figure 1, the intelligent consumption-reducing method for the self-service reprographic printing system shared based on internet, the internet is total The self-service reprographic printing system enjoyed, including bottom sensing subsystem, human-machine interaction subsystem, three big portion of remote monitoring subsystem Point, pass through USB line connection and transmission data, the human-computer interaction between the bottom sensing subsystem and human-machine interaction subsystem Pass through wireless network connection and transmission data between subsystem and remote monitoring subsystem.
In the present embodiment, bottom sensing subsystem includes:High-definition camera, light sensor, light compensating lamp, printer, Carbon dust detector, paper detection, fault alarm, infrared detector, infrared camera, infrared range-measurement system, paper feeder, Paper piling device;
Wherein, high-definition camera connect simultaneously transmission data, light sensor and expansion interface with expansion interface by USB line It is connect by two-line cable with expansion interface by two-line cable connection and transmission data, light compensating lamp, printer and extension Interface is by USB line connection and transmission data, and carbon dust detector is connect by two-line cable with expansion interface and transmission data, Paper detection is connect by two-line cable with expansion interface and transmission data, and fault alarm passes through two lines with expansion interface Cable connection processed and transmission data, infrared detector is connect by two-line cable with expansion interface and transmission data, infrared to take the photograph Picture head is connect by two-line cable with expansion interface and transmission data, and infrared range-measurement system passes through two-line cable with expansion interface Connect and transmission data, paper feeder and expansion interface connects simultaneously transmission data by two-line cable, paper piling device and Expansion interface passes through two-line cable connection and transmission data.
In the present embodiment, human-machine interaction subsystem include on-board controller, touch display screen, on-line payment equipment, mutually Networked communication device, local area network communication equipment;
Wherein, on-board controller and touch display turn RJ45 lines by DC3.5 and connect and transmission data, on-board controller It is connect by USB line with on-line payment equipment and transmission data, on-board controller is connect with internet communication equipment by USB line And transmission data, on-board controller is connect by RJ45 lines with local area network communication equipment and transmission data.
In the present embodiment, remote monitoring subsystem includes:Remote data center and remote monitoring platform, the two pass through nothing Line network connection and transmission data.
As shown in Fig. 2, the intelligent consumption-reducing method for the self-service reprographic printing system shared based on internet, the intelligence consumption reduction Method, step flow are as follows:
(1) no operation is detected whether
By touch potential n of the on-board controller record active user in touch display screentch, and record user and do not operate The time t of touch screennotch, when system is not when exporting print state, then threshold values of the system without the operating time is calculated as follows out tSnoth, wherein n△tchFor touch potential adjusted value, numerical value is adjusted according to field condition, value range 21-34:
tSnotch=ln (ntch+nΔtch)\*MERGEFORMAT(1)
By the t obtained by above-mentioned calculatingSnoth, in conjunction with the time t of the non-operation touch-screen of usernotch, can be obtained by following formula and be System whether the identifier F in no mode of operationnoth, wherein the F when system is in no mode of operationnothIt is 1:
Fnoth=sgn (tnotch-tSnotch)\*MERGEFORMAT(2)
(2) intensity of illumination is detected
Transducing signal I is obtained by light sensorl, and current light intensity lm is calculated according to the following formula:
Lm=200+12487.5 (Il-4)\*MERGEFORMAT(3)
By the lm obtained by above-mentioned calculating, in conjunction with intensity of illumination threshold values lmS, can whether environment illumination intensity be obtained by following formula Too low identifier Fl, numerical value is adjusted according to field condition, value range 45-75, wherein working as environment illumination intensity F when too lowlIt is 1:
Fl=sgn (lm-lms)\*MERGEFORMAT(4)
(3) short distance personnel are detected
Sensor signal V is obtained by infrared detectorr, and the identifier for closely whether having personnel is obtained according to the following formula Fnh, wherein VSrFor personnel's detection threshold, numerical value is adjusted according to field condition, and value range 2.6-3.8 works as detection F when to short distance without personnelnhIt is 1:
Fnh=sgn (VSr-Vr)\*MERGEFORMAT(5)
(4) remote personnel are detected
Real-time video picture in front of equipment is obtained by infrared camera, it is m to define ith pixel point in the picture of t momentt i (x, y) can then be calculated the mean value u of t moment ith pixel point by following formulat i(x, y) and standard deviation sigmat i(x, y), wherein α are Efficiency parameters, numerical value are adjusted according to field condition, value range 3-5:
By the u obtained by above-mentioned calculatingt i(x, y), σt iWhether (x, y), can be obtained by following formula has personnel's appearance at a distance Identifier Ffh, wherein λ is threshold parameter, and numerical value is adjusted according to field condition, value range 2-8, remote when detecting F when distance is without personnelfhIt is 1:
(5) evaluation consumption reduction grade
By the F obtained by above-mentioned calculatingnoth、Fl、Fnh、Ffh, consumption reduction grade R, the wherein bigger expression of R values can be obtained by following formula The rank that lowers consumption is higher:
(6) hardware device is controlled
Corresponding hardware device is controlled by the consumption reduction grade R obtained by above-mentioned calculating, achievees the purpose that reduce system energy consumption;When 1≤R<It sets touch display screen to 75% brightness when 4;As 4≤R<It sets touch display screen to 55% brightness when 5, and closes Close infrared range-measurement system, paper transport device, paper piling device;As 5≤R<When set touch display screen to 35% brightness, and close Infrared range-measurement system, paper transport device, paper piling device, high-definition camera, printer.
The above, only presently preferred embodiments of the present invention, are not intended to limit the invention, every skill according to the present invention Art essence should be included in technical solution of the present invention to any trickle amendment, equivalent replacement and improvement made by above example Protection domain within.

Claims (5)

1. the intelligent consumption-reducing method based on the self-service reprographic printing system that internet is shared, which is characterized in that the intelligence consumption reduction Method includes the following steps:
(1) no operation is detected whether
By touch potential n of the on-board controller record active user in touch display screentch, and record user and do not operate touch The time t of screennotch, when system is not when exporting print state, then threshold values of the system without the operating time is calculated as follows out tSnoth, wherein n△tchFor touch potential adjusted value, numerical value is adjusted according to field condition, value range 21-34:
tSnotch=ln (ntch+nΔtch)\*MERGEFORMAT (1)
By the t obtained by above-mentioned calculatingSnoth, in conjunction with the time t of the non-operation touch-screen of usernotch, can show that system is by following formula The no identifier F in no mode of operationnoth, wherein the F when system is in no mode of operationnothIt is 1:
Fnoth=sgn (tnotch-tSnotch)\*MERGEFORMAT (2)
(2) intensity of illumination is detected
Transducing signal I is obtained by light sensorl, and current light intensity lm is calculated according to the following formula:
Lm=200+12487.5 (Il-4)\*MERGEFORMAT (3)
By the lm obtained by above-mentioned calculating, in conjunction with intensity of illumination threshold values lmS, can show whether environment illumination intensity is too low by following formula Identifier Fl, numerical value is adjusted according to field condition, value range 45-75, wherein when environment illumination intensity is too low When FlIt is 1:
Fl=sgn (lm-lms)\*MERGEFORMAT (4)
(3) short distance personnel are detected
Sensor signal V is obtained by infrared detectorr, and the identifier F for closely whether having personnel is obtained according to the following formulanh, Middle VSrFor personnel's detection threshold, numerical value is adjusted according to field condition, value range 2.6-3.8, when detecting low coverage F when from no personnelnhIt is 1:
Fnh=sgn (VSr-Vr)\*MERGEFORMAT (5)
(4) remote personnel are detected
Real-time video picture in front of equipment is obtained by infrared camera, defining ith pixel point in the picture of t moment is The mean value of t moment ith pixel point can be then calculated by following formulaAnd standard deviationWherein α is efficiency parameters, Its numerical value is adjusted according to field condition, value range 3-5:
Obtained by above-mentioned calculatingThe remote identifier for whether there are personnel to occur can be obtained by following formula Ffh, wherein λ is threshold parameter, and numerical value is adjusted according to field condition, value range 2-8, when detecting remote nothing F when personnelfhIt is 1:
(5) evaluation consumption reduction grade
By the F obtained by above-mentioned calculatingnoth、Fl、Fnh、Ffh, consumption reduction grade R, the wherein bigger expression consumption reduction of R values can be obtained by following formula Rank is higher:
(6) hardware device is controlled
Corresponding hardware device is controlled by the consumption reduction grade R obtained by above-mentioned calculating, achievees the purpose that reduce system energy consumption;As 1≤R <It sets touch display screen to 75% brightness when 4;As 4≤R<It sets touch display screen to 55% brightness when 5, and closes red Outer rangefinder, paper transport device, paper piling device;As 5≤R<When set touch display screen to 35% brightness, and close infrared Rangefinder, paper transport device, paper piling device, high-definition camera, printer.
2. the intelligent consumption-reducing method of the self-service reprographic printing system according to claim 1 shared based on internet, special Sign is, the self-service reprographic printing system shared based on internet include bottom sensing subsystem, human-machine interaction subsystem, Remote monitoring subsystem three parts, between the bottom sensing subsystem and human-machine interaction subsystem simultaneously by USB line connection Transmission data passes through wireless network connection and transmission data between the human-machine interaction subsystem and remote monitoring subsystem.
3. the intelligent consumption-reducing method of the self-service reprographic printing system shared based on internet according to claim 2, special Sign is that the bottom sensing subsystem includes:High-definition camera, light sensor, light compensating lamp, printer, carbon dust detection Device, paper detection, fault alarm, infrared detector, infrared camera, infrared range-measurement system, paper feeder, paper are stacked Device;
Wherein, high-definition camera is connect with expansion interface by USB line and transmission data, light sensor pass through with expansion interface Simultaneously transmission data, light compensating lamp are connect with expansion interface by two-line cable for two-line cable connection, printer and expansion interface By USB line connection and transmission data, carbon dust detector is connect by two-line cable with expansion interface and transmission data, paper Detector is connect by two-line cable with expansion interface and transmission data, and fault alarm passes through two-wire system electricity with expansion interface Cable connection and transmission data, infrared detector is connect by two-line cable with expansion interface and transmission data, infrared camera It is connect by two-line cable with expansion interface and transmission data, infrared range-measurement system is connect with expansion interface by two-line cable And transmission data, paper feeder is connect by two-line cable with expansion interface and transmission data, paper piling device and extension Interface passes through two-line cable connection and transmission data.
4. the intelligent consumption-reducing method of the self-service reprographic printing system shared based on internet according to claim 2, special Sign is that the human-machine interaction subsystem includes on-board controller, touch display screen, on-line payment equipment, internet communication Equipment, local area network communication equipment;
Wherein, on-board controller and touch display turn RJ45 lines by DC3.5 and connect and transmission data, on-board controller with Line payment devices are connect and are passed by USB line with internet communication equipment by USB line connection and transmission data, on-board controller Transmission of data, on-board controller is connect by RJ45 lines with local area network communication equipment and transmission data.
5. the intelligent consumption-reducing method of the self-service reprographic printing system shared based on internet according to claim 2, special Sign is that the remote monitoring subsystem includes:Remote data center and remote monitoring platform, the two are connected by wireless network Connect simultaneously transmission data.
CN201810413230.9A 2018-05-03 2018-05-03 Intelligent consumption reduction method of self-service copying and printing system based on Internet sharing Active CN108712589B (en)

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Inventor after: Xu Zhipeng

Inventor after: Liu Wei

Inventor after: Jin Xipeng

Inventor after: Wang Xilong

Inventor after: Zhu Yu

Inventor after: Zhang Bozhong

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