KR101573832B1 - Computer network system for diagnosing and mornitoring remotely of hybrid generating system using wind power and solar energy, and processing method of the same - Google Patents

Abstract

The present invention relates to a computer network system using a wired / wireless communication network and a processing method thereof for remote diagnosis and monitoring of a hybrid power generation system using wind power and solar light. The computer network system is provided to measure the operation state and generation amount of the plurality of hybrid power generation systems in real time, and to remotely diagnose and monitor the measured information. The computer network system includes a monitoring and monitoring server connected to the hybrid power generation system via a wired or wireless communication network. The monitoring and monitoring server provides measurement information and diagnostic information in real time to a wireless communication terminal and a personal computer. The wireless communication terminal and the personal computer select one of the hybrid power generation systems installed in various areas and remotely diagnose and monitor the hybrid power generation system through the measurement information and the diagnostic information. According to the present invention, the reliability and reliability of the hybrid power generation system can be ensured by remotely diagnosing and monitoring the operation states of a plurality of hybrid power generation systems installed in various areas.

Description

FIELD OF THE INVENTION The present invention relates to a computer network system for remotely diagnosing and monitoring a hybrid power generation system using wind power and solar light, and a computer network system for remotely diagnosing and monitoring the hybrid power generation system using wind power and solar light,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a computer network system, and more particularly, to a computer network system using a wired / wireless communication network and a processing method thereof for remotely diagnosing and monitoring a hybrid power generation system using wind power and solar light.

In recent years, the installation of power generation systems using environmentally friendly new and renewable energy has been increasing in order to prepare for energy depletion and environmental pollution worldwide. Representative new and renewable energy such as wind power, solar power, etc., are increasing in demand for renewable energy from wind power generators and solar power generators in various applications. Therefore, at present, a hybrid power generation system equipped with a wind power generator and a solar power generator in one power generation system has been developed and put into practical use. Wind turbines are largely composed of blades, nacelles, and towers.

In particular, as the demand for stability and reliability of wind turbines increases, continuous maintenance and inspection are required. For example, there is an increasing demand for real-time measurement of various information related to wind power generation from sensors such as a weather vane of a wind power generator, an anemometer, and the like. The technology for diagnosing and monitoring such a wind turbine has already been variously disclosed. Accordingly, there is an increasing need for a monitoring and monitoring system for monitoring and controlling the operation state of the wind turbine generator so as to stably generate electric power from the wind turbine generator.

In addition, in the case of a wind turbine in operation, there is a problem that a worker can not access the wind turbine due to a safety problem. In order to solve this problem, remote control, diagnosis and monitoring of wind turbines are urgently required.

Patent Document 1: Korean Patent Laid-Open No. 10-2011-0024150 (Published on March 03, 2011) Patent Document 2: Korean Patent Registration No. 10-0926959 (Published on Nov. 17, 2009) Patent Literature 3. Korean Patent Registration No. 10-1198194 (Published on Nov. 12, 2012) Patent Document 4: Korean Patent Laid-Open Publication No. 10-2013-0109403 (Published Oct. 10, 2013)

It is an object of the present invention to provide a computer network system and a method of processing the same for remote diagnosis and monitoring of a hybrid power generation system using wind power and solar light.

It is another object of the present invention to provide a computer network system and a method for processing the same that remotely diagnose and monitor a hybrid power generation system having a compact wind turbine installed in a plurality of areas in real time.

It is still another object of the present invention to provide a computer network system for remotely diagnosing and monitoring a hybrid power generation system using a wired / wireless communication network and a method for processing the same.

In order to achieve the above objects, the computer network system of the present invention is characterized by remote diagnosis and monitoring of a hybrid power generation system using a wired / wireless communication network. Such a computer network system can secure the stability and reliability of the hybrid power generation system by remotely diagnosing and monitoring the operation state of the hybrid power generation system installed in various areas in the wireless communication terminal and the personal computer using the wired / wireless communication network.

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According to another aspect of the present invention, there is provided a computer network system including a wired / wireless communication network; A plurality of hybrid power generation systems installed in various areas and each having a wind power generator and a solar generator; A monitoring and monitoring server for receiving diagnostic information in real time from the hybrid power generation system through the wired / wireless communication network in accordance with operation states of the wind power generator and the solar power generator in real time to provide diagnostic information for remote diagnosis and monitoring of the hybrid power generation system; And a wireless communication terminal or a personal computer for receiving the measurement information and the diagnostic information from the monitoring and monitoring server through the wired / wireless communication network in order to remotely diagnose and monitor the hybrid power generation system and to display the measurement information and the diagnostic information in real time.

In one embodiment of this aspect, the hybrid power generation system comprises: A battery for storing power generated from the wind power generator and the photovoltaic generator; An air speed sensor for detecting the wind speed of the wind power generator; An IP camera for photographing an operation state of the wind power generator; A GPS module for generating location information of the hybrid power generation system; A display panel configured to operate and control the power generation of the wind power generator and the solar power generator, and to display the current status of the wind power generator and the solar power generation in real time; Controlling the charging and discharging of the battery and controlling the display panel to display the power generation status of the wind turbine and the solar generator, and controlling the wind speed sensor, the measurement information measured from the IP camera and the GPS module The moving picture information, and the location information and provides the real time information to the monitoring and monitoring server through the wired / wireless communication network.

In another embodiment, the control device comprises: A wired / wireless communication module; A measurement module that measures the measurement information, the moving image information, and the position information in real time according to an operation state of the wind power generator and the photovoltaic generator; An operation panel for setting the charging / discharging time of the battery and for displaying the charging / discharging state of the battery by the wind power generator and the solar generator in real time; And a control module controlling the measurement module in accordance with the information set by the operation panel and controlling the wired / wireless communication module so as to enable mutual data communication with the monitoring and monitoring server through the wired / wireless communication network.

In another embodiment, the monitoring and monitoring server comprises: A wired / wireless communication unit connected to the wired / wireless communication network and provided to enable mutual data communication between the hybrid power generation system, the wireless communication terminal and the personal computers; A storage device for storing a monitoring and monitoring program for receiving the measurement information, the moving picture information, and the location information provided from the hybrid power generation system to remotely diagnose and monitor an operation state of the hybrid power generation system; And a control unit for controlling the hybrid power generation system based on the position information for each of the hybrid power generation systems, the measurement information and the moving image information measured according to the operation state of the hybrid power generation system, A database for storing statistical information generated by statistical analysis of the measurement information and the diagnostic information by period; The wireless communication terminal generates the diagnostic information by receiving the measurement information, the moving picture information, and the location information from the hybrid power generation system by the wired / wireless communication network by controlling the monitoring and monitoring program, And a control unit for controlling the operation of the hybrid power generation system in the personal computer so that the operating state of the hybrid power generation system can be remotely diagnosed and monitored in real time.

In another embodiment, the monitoring and monitoring program comprises: A mobile application version for the wireless communication terminal, and a web version for the personal computer, and the mobile application version is installed in the wireless communication terminal through the wired / wireless communication network.

According to another aspect of the present invention, there is provided a monitoring and monitoring server for remote diagnosis and monitoring of a plurality of hybrid power generation systems including a wind power generator and a solar power generator using a wired / wireless communication network, a plurality of wireless communication terminals and a personal computer There is provided a method of processing a computer network system.

According to another aspect of the present invention, there is provided a method of processing a computer network system, comprising: controlling the wind power generator and the solar generator to develop the hybrid power generation system; The wind speed of the wind turbine is measured by the wind speed sensor, the operating state of the wind turbine and the battery charge / discharge state of the hybrid power generation system are measured in real time, and the state of power generation of the hybrid power generation system is measured Measuring; Providing the measurement information to the monitoring and monitoring server through the wired / wireless communication network in real time; Selecting a location of any one of the areas where the hybrid power generation system is installed in the wireless communication terminal or the personal computer; Providing the measurement information of the hybrid power generation system installed in the area to the wireless communication terminal or the personal computer when any one of the locations is selected; And remotely diagnosing and monitoring the measurement information of the hybrid power generation system.

In one embodiment of this aspect, the step of providing the measurement information to the wireless communication terminal or the personal computer comprises: And further provides moving picture information according to the operating state of the wind power generator.

As described above, the computer network system for remotely diagnosing and monitoring the hybrid power generation system of the present invention remotely diagnoses and monitors the operation state of the hybrid power generation system installed in various areas in a wireless communication terminal and a personal computer using a wired / wireless communication network , It is possible to secure stability and reliability for the hybrid power generation system.

In addition, the computer network system for remote diagnosis and monitoring of the hybrid power generation system of the present invention provides various measurement information in real time, so that it is possible to grasp the abnormality of the hybrid power generation system in real time.

1 is a schematic diagram of a computer network system for remote diagnosis and monitoring of a hybrid power generation system using wind power and solar light according to the present invention;
FIG. 2 is a view showing a configuration of the hybrid power generation system shown in FIG. 1;
3 is a block diagram showing a detailed configuration of the hybrid power generation system shown in FIG. 2;
FIG. 4 is a block diagram showing the configuration of the monitoring and monitoring server shown in FIG. 1; FIG.
5 is a flow chart showing the processing procedure of a computer network system for remote diagnosis and monitoring of a hybrid power generation system according to the present invention; And
6A to 6E are views showing a display screen of a mobile application for remotely diagnosing and monitoring a hybrid power generation system according to an embodiment of the present invention.

The embodiments of the present invention can be modified into various forms and the scope of the present invention should not be interpreted as being limited by the embodiments described below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the components in the drawings are exaggerated in order to emphasize a clearer explanation.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a computer network system for remotely diagnosing and monitoring a hybrid power generation system using wind power and solar light according to the present invention, and FIGS. 2 and 3 are diagrams showing a schematic configuration of a hybrid power generation system Fig.

1, a computer network system 2 according to the present invention includes a wired / wireless communication network and a plurality of hybrid units (not shown) installed in various areas, for remote diagnosis and monitoring of a hybrid power generation system 100 using wind and solar light. A power generation system 100, a monitoring and monitoring server 200, a plurality of wireless communication terminals 300, and a plurality of personal computers 310.

The hybrid power generation system 100 generates and stores power from wind power and solar power. The monitoring and monitoring server 200 is connected to a plurality of hybrid power generation systems 110 via a wired or wireless communication network and communicates with a control device 140 of the hybrid power generation system 100 ), And analyzes, diagnoses, and statistically processes measurement information.

The wireless communication terminal 300 is a mobile device capable of wireless communication such as a smart phone and receives various measurement information and diagnostic information from the monitoring and monitoring server 200 via a wireless communication network to transmit the hybrid power generation system 100 to a remote Diagnosis and monitoring. The personal computer 310 remotely diagnoses and monitors the hybrid power generation system 100 by receiving various measurement information and diagnostic information from the monitoring and monitoring server 200 through a wired communication network.

The computer network system 2 of the present invention includes a wireless communication terminal 300 connected to the monitoring and monitoring server 200 through a wire / wireless communication network and a personal computer 310 connected to the plurality of hybrid power generation systems 100 Remote diagnosis and monitoring of operation status in real time is possible.

2 and 3, the hybrid power generation system 100 includes a tower 102, wind turbines 110 and 120, a solar generator 130, a battery 150, (140). The hybrid power generation system 100 includes a GPS module 160, an IP camera 170, and a display panel 180.

The tower 102 is formed in the form of a hollow pipe and is installed at a constant height on the ground. The wind turbine 110 includes a plurality of blades 112 installed on the outer side of a rotating shaft and a plurality of blades 112 fixed to the upper end of the tower 10 and coupled to a rotating shaft of the blades 112, And a nacelle 120 for converting mechanical energy into electrical energy. The nacelle 120 includes a driving module 120 connected to a rotating shaft on which the blade 112 is installed and driven under a control of the controller 140 to perform stable power generation. The drive module 120 is not shown in the drawings, but includes, for example, a servo motor, a clutch, and a link gear. The wind turbine 110 also includes an air speed sensor 114 for detecting the rotational force of the blade 112 and detecting the wind speed.

The wind turbine 110 is provided such that power generation is not performed in accordance with a no-wind or when an abnormal rotation due to an over-wind speed is generated or braked to stably generate power. That is, when the blade 112 does not rotate, the driving module 120 receives control of the controller 140 and applies power to the servo motor and the clutch at predetermined time intervals to rotate the link gear , And when the rotational speed reaches a predetermined number of revolutions, the servomotor and the clutch are cut off to start the rotation of the blade 112 by centrifugal force.

In addition, when the blade 112 rotates at a predetermined wind speed or a predetermined number of revolutions or more, the wind turbine 110 may be configured such that when the drive module 120 applies power to the clutch by the control device 140 and the power of the servo motor is not applied The braking force of the blade 112 is braked up to a predetermined rotational force through the reverse rotation of the servomotor in a stable state.

The photovoltaic generator 130 includes a plurality of solar panels 132 and converts the solar energy into electrical energy by the converter 134 and stores it in the battery 150.

The battery 150 is controlled by the controller 140 and includes a plurality of battery packs to store power generated from the wind turbine 110 and the solar generator 130.

The GPS module 160 generates location information of each of the hybrid power generation systems 100 and provides the location information to the control device 140.

The IP camera 170 captures a moving picture of the hybrid power generation system 100 and provides it to the control device 140. The IP camera 170 photographs the rotation state of the blade 112, for example, in real time.

The display panel 180 receives the control of the controller 140 and displays the power generation status in real time. The display panel 180 is provided with, for example, a color touch panel, and is operated to control the power generation of the wind power generator 110 and the solar power generator 130. That is, the display panel 180 is configured to set the charging time, charging end time, battery recovery, battery selection, output overcurrent and output overvoltage cutoff, maximum charging current, etc. for power generation of the wind power generator 110 and the solar generator 130 Output current, voltage and wind power rotation frequency of the wind power generator 110 and the solar generator 130 detected by the control device 140 in real time Receive and display.

The control device 140 controls all operations of the hybrid power generation system 100. To this end, the control device 140 includes a measurement module 142, a control module 144, an operation panel 146, and a wired / wireless communication module 148.

The measurement module 142 measures and stores various information in real time according to the operation states of the wind power generator 110 and the solar power generator 130. For example, the measurement module 142 receives and stores wind speed information sensed by the wind speed sensor 114. The measurement module 142 receives position information from the GPS module 160 and stores the received position information. The measurement module 142 receives the image information obtained from the IP camera 170 and stores the image information. Also, the measurement module 142 senses charge / discharge current, voltage, overcurrent, and overvoltage from the wind power generator 110 and the solar generator 130.

The control module 144 controls the measurement module 142 in accordance with the information set by the operation panel 146 and controls the wired and wireless communication module 148 ).

The operation panel 146 is an internal display device of the control device 140, and inputs battery setting and time setting. For example, the battery setting includes a reference voltage setting of the battery 150, a voltage and current setting at the time of charging and discharging, and a constant power-on time setting. The operation panel 146 displays the charging / discharging status of the battery 150, such as the amount of charged power by the wind power generator 110 and the solar generator 130, the voltage and current being charged, and the charging voltage current of the battery 150, do.

The wired / wireless communication module 148 includes a mobile communication module such as CDMA, a TCP / IP transmission / reception module and the like, and is controlled by the control module 144 to control the hybrid power generation system 100, the monitoring and monitoring server 200, Lt; / RTI >

The controller 140 controls the wind turbine 110 and the solar generator 130 to charge the battery 150 with electric power in accordance with information set through the operation panel 146 and the display panel 180, And various kinds of information according to the operating states of the wind power generator 110 and the solar generator 130 are measured in real time and the measured information is outputted to the operation panel 146 and the display panel 180 in real time. The control device 140 provides the measurement information measured by the measurement module 142 to the monitoring and monitoring server 200 in real time via the wired / wireless communication module 148.

4 is a block diagram showing the configuration of the monitoring and monitoring server shown in FIG.

Referring to FIG. 4, the monitoring and monitoring server 200 is a typical computer system, which includes components of a typical computer system, such as a central processing unit, a memory device, a storage device, and an input / output device.

The monitoring and monitoring server 200 of this embodiment includes a control unit 202, a wired / wireless communication unit 204, a monitoring and monitoring program 210, and a database 220.

The control unit 202 controls and processes all operations of the monitoring and monitoring server 200. The control unit 202 includes, for example, hardware such as a central processing unit, a memory and the like, as well as software such as an operating system program and a control program. The control unit 202 controls the control and monitoring program 210 to be connected to the hybrid power generation system 100 by the wired / wireless communication network and receives various measurement information from the hybrid power generation system 100, And the personal computer 310 so that the operation state of the hybrid power generation system 100 can be remotely diagnosed and monitored in real time. Therefore, the control unit 202 remotely diagnoses and monitors the operation state of the hybrid power generation system 100 in real time, and controls the operator to notify the occurrence of an abnormality when an abnormality occurs.

The wired / wireless communication unit 104 is connected to a wired / wireless communication network and is provided under the control of the control unit 202 to enable mutual data communication between the hybrid power generation system 100, the wireless communication terminal 300 and the personal computers 310.

The control and monitoring program 210 is processed to remotely diagnose and monitor the operating state of the hybrid power generation system 100 by receiving various information provided from the hybrid power generation system 100. [ The control and monitoring program 210 is stored in a storage device (not shown) and is controlled by the control unit 202 to read various information from the database 220 or to store various information in the database 120. Also, the monitoring and monitoring program 210 provides the information read from the database 120 to the wireless communication terminal 300 and the personal computers 310 through the wired / wireless communication network. The monitoring and monitoring program 210 is provided as a mobile application version for the wireless communication terminal 300 and as a web version for the personal computer 310. In the case of the mobile application version, the application version is provided to the wireless communication terminal 300 through the wireless communication network and installed inside the wireless communication terminal 300. The detailed processes for this monitoring and monitoring program 210 are described in detail in the following Figures 5 and 6.

The database 220 stores location information 222 for each hybrid power generation system 100 obtained from the GPS module 160 and measurement information 224 measured according to the operation state of the hybrid power generation system 100. [ Diagnostic information 226 for determining the presence or absence of an abnormality in the hybrid electric power generation system 100 through the measurement information 224 and the measurement information 224 and the diagnostic information 226 in a period And statistical information 228 generated by statistical analysis of the data.

The monitoring and monitoring server 200 collects and stores the measurement information of the hybrid power generation system 100 by the monitoring and monitoring program 210 to measure the power generation amount of the wind power generator 110 and the solar power generator 130, The overcurrent, the cumulative generation amount, and the wind speed, thereby enabling remote diagnosis of the hybrid power generation system 100 installed in various areas.

The monitoring and monitoring server 200 also provides the measurement information 224 and the diagnostic information 226 to the wireless communication terminal 300 and the personal computer 310 so that the wireless communication terminal 300 and the personal computer 310 It is possible to remotely diagnose and monitor a plurality of hybrid power generation systems 100 in real time.

5 is a flowchart showing a processing procedure of a computer network system for remotely diagnosing and monitoring the hybrid power generation system according to the present invention.

5, the computer network system 2 for remote diagnosis and monitoring of the hybrid power generation system 100 of the present invention controls the hybrid power generation system 100 via the control device 140 in step S400, It produces and stores electric power by sunlight.

In step S410, the wind speed is measured by the wind speed sensor 114, the operation state of the rotor part (not shown) of the wind power generator 110, the charge / discharge state of the battery 150 and the like are measured in real time, The control device 140 measures the current state of power generation such as wind speed, sunlight power, and accumulated power generation in real time.

In step S420, the measurement information is provided to the monitoring and monitoring server 200 through the wired / wireless communication network in real time. If the location of any one of the areas where the hybrid power generation system 100 is installed in the wireless communication terminal 300 or the personal computer 310 is selected in step S430, the measurement of the hybrid power generation system 100 installed in the corresponding area And provides the information to the wireless communication terminal 300 or the personal computer 310. [ Then, in step S450, the remote diagnosis and monitoring are performed through the measurement information of the hybrid power generation system 100.

Here, the processes of the mobile application version of the monitoring and monitoring program will be described with reference to FIG.

6A to 6E are views showing a display screen of a mobile application version for remotely diagnosing and monitoring a hybrid power generation system according to an embodiment of the present invention. These drawings are displayed on a display panel (not shown) of the wireless communication terminal 300.

6A to 6E, when the monitoring and monitoring program of the mobile application version is executed in the wireless communication terminal 300, the locations of the plurality of hybrid power generation systems 100 installed in various areas are displayed (500). When any one of the plurality of locations 510 is selected, the operation state and generation amount 520 of each of the plurality of hybrid power generation systems 100 installed in the corresponding region 510 are displayed (502). Here, in order to confirm (522) detailed information about the area 510, a plurality of locations 530 in which the hybrid power generation system 100 is installed are displayed (504) for the area 510, If one of the hybrid power generation systems 100 is selected, detailed information 540 about each hybrid power generation system 100 can be obtained. For example, the position of the selected hybrid power generation system 100, the total power generation amount, the wind power generation amount, ) Is displayed (506). At this time, moving image information 542 obtained by imaging the operation state of the wind power generator 110 is displayed.

In addition, the monitoring and monitoring program provides for indicating (508) weather information (550) for the area where the hybrid power generation system (100) is installed, for example, wind speed and the like.

Although the configuration and operation of the computer network system for remotely diagnosing and monitoring the hybrid power generation system according to the present invention have been described in detail and with reference to the drawings, the present invention has been described by way of example only. Various changes and modifications are possible without departing from the scope of the invention.

2: computer network system 100: hybrid power generation system
110: Wind power generator 130: Solar generator
140: Control device 200: Monitoring and monitoring server
300: wireless communication terminal 310: personal computer

Claims (7)

A computer network system comprising:
Wired / wireless communication network;
A plurality of hybrid power generation systems installed in various areas and each having a wind power generator and a solar generator;
A monitoring and monitoring server for receiving diagnostic information in real time from the hybrid power generation system through the wired / wireless communication network in accordance with operation states of the wind power generator and the solar power generator in real time to provide diagnostic information for remote diagnosis and monitoring of the hybrid power generation system;
Selecting any one of the regions in which the hybrid power generation system is installed to remotely diagnose and monitor the hybrid power generation system, select one of the plurality of hybrid power generation systems installed in the selected region, And a wireless communication terminal or a personal computer for receiving the measurement information and the diagnostic information from the monitoring and monitoring server through the wired / wireless communication network for the hybrid power generation system, and displaying the monitored information for remote diagnosis and monitoring in real time;
The hybrid power generation system includes:
A battery for storing power generated from the wind power generator and the photovoltaic generator;
An air speed sensor for detecting the wind speed of the wind power generator;
An IP camera for photographing an operation state of the wind power generator;
A GPS module for generating location information of the hybrid power generation system;
A display panel configured to operate and control the power generation of the wind power generator and the solar power generator, and to display the current status of the wind power generator and the solar power generation in real time;
Controlling the charging and discharging of the battery and controlling the display panel to display the power generation status of the wind turbine and the solar generator, and controlling the wind speed sensor, the measurement information measured from the IP camera and the GPS module The moving picture information, and the location information, and provides the real time information to the monitoring and monitoring server through the wired / wireless communication network in real time. delete The method according to claim 1,
The control device comprising:
A wired / wireless communication module;
A measurement module that measures the measurement information, the moving image information, and the position information in real time according to an operation state of the wind power generator and the photovoltaic generator;
An operation panel for setting the charging / discharging time of the battery and for displaying the charging / discharging state of the battery by the wind power generator and the solar generator in real time;
And a control module controlling the measurement module in accordance with the information set by the operation panel and controlling the wired / wireless communication module so as to enable mutual data communication with the monitoring and monitoring server through the wired / wireless communication network, Computer network system. The method according to claim 1 or 3,
The monitoring and monitoring server comprises:
A wired / wireless communication unit connected to the wired / wireless communication network and provided to enable mutual data communication between the hybrid power generation system, the wireless communication terminal and the personal computers;
A storage device for storing a monitoring and monitoring program for receiving the measurement information, the moving picture information, and the location information provided from the hybrid power generation system to remotely diagnose and monitor an operation state of the hybrid power generation system;
And a control unit for controlling the hybrid power generation system based on the position information for each of the hybrid power generation systems, the measurement information and the moving image information measured according to the operation state of the hybrid power generation system, A database for storing statistical information generated by statistical analysis of the measurement information and the diagnostic information by period;
The wireless communication terminal generates the diagnostic information by receiving the measurement information, the moving picture information, and the location information from the hybrid power generation system by the wired / wireless communication network by controlling the monitoring and monitoring program, And a controller for controlling the operation of the hybrid power generation system in a real-time manner by remote control of the personal computer. 5. The method of claim 4,
The monitoring and monitoring program comprises:
A mobile application version for the wireless communication terminal, and a web version for the personal computer,
And the version of the mobile application is installed in the wireless communication terminal through the wired / wireless communication network. delete delete

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