KR101848642B1 - System for monitoring of railway station - Google Patents

Abstract

The present invention relates to a system for monitoring a railway station. The system for monitoring a railway station comprises: a database server receiving a power measuring value from an electrical room monitoring device measuring the power measuring value of power devices formed in a railway station in real time and receiving and storing image information photographed by cameras installed in the railway station; a situation analyzing server in the railway station, sensing the occurrence of fire or congestion in the railway station by using the image information stored in the database server and generating emergency report information and emergency-related evacuation information to be output to a mobile terminal; and a monitoring and controlling device in the railway station, redistributing the power in the power device in the railway station by analyzing a power usage pattern in the railway station by using the power measuring value stored in the database server. Therefore, the system for monitoring a railway station redistributes the power by monitoring power facilities installed in the railway station in real time or effectively outputs a monitoring result to the mobile terminal. So, the system for monitoring a railway station can effectively use the power of the railway station or a building and can reliably monitor the inside of the railway station.

Description

SYSTEM FOR MONITORING OF RAILWAY STATION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a history monitoring system, and more particularly, to a system for real-time monitoring of internal and external situations by detecting power status and abnormal conditions in railroad history.

In order to prevent the danger such as the failure of the power equipment and the fire due to the power equipment inside and outside the building or the railroad history in which a lot of electric power equipment is installed, the output value of the electric power equipment installed in the building or railroad history is monitored in real time, When it is detected that the output value is abnormal, it notifies the integrated control room or related organizations of the abnormal situation to maintain the reliability of the electric power equipment inside and outside the building or the railroad history and prevent accidents that may occur in the building or railroad history.

However, there is a problem that reliable real-time monitoring is practically difficult because manpower for monitoring the abnormality of power equipment installed in a large building or a railroad history in one integrated control room must reside in the integrated control room. In addition, there is a limit that can lead to accidents occurring in the history of buildings or railroads because the output value can not be properly received from the monitored power equipment due to communication equipment abnormality, etc. Therefore, it is necessary to develop a system that can reliably monitor electric power facilities It is true.

Korean Patent Publication No. 10-2003-0036286 (Remote Power Monitoring and Control System and Method)

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a method and apparatus for monitoring the output values of power facilities installed in buildings, .

The history monitoring system according to an embodiment of the present invention receives the power measurement value from the electrical room monitoring equipment that measures the power measurement value of the electric power equipment formed in the history in real time, A database server for receiving and storing the data; An in-historical situation analysis server for detecting occurrence of a fire situation or a congestion situation in history using the image information stored in the database server, and generating emergency notification information and emergency situation-related evacuation information to be output to the mobile terminal; And historical monitoring and control equipment for analyzing power usage patterns in history by using the power measurement values stored in the database server and redistributing power to electric power equipment in history.

The database server is a server which is located remotely from the history, receives information on a plurality of histories, matches information received from the history, and stores the information. The history analysis server in the history is a local server located in history .

The in-situ situation analysis server transmits the emergency notification information and emergency situation-related evacuation information to the mobile terminal through short-range wireless communication.

The mobile terminal receives the emergency bell notification control signal and transmits the emergency bell notification control signal to the in-historical situation analysis server. The in-historical situation analysis server controls the emergency bell notification control signal so that the emergency bell formed in the history outputs a notification sound .

The mobile terminal receives the emergency ring notification control signal, and transmits the emergency ring notification control signal to the emergency bell via the emergency bell and the object Internet formed in the history. The emergency bell informs the emergency bell according to the emergency bell notification control signal And outputs a sound.

The in-historical situation analysis server generates the emergency situation-related evacuation information in the form of a moving picture guiding a text-type manual, an image file, or a evacuation route, and delivers the evacuation-related evacuation information to the mobile terminal.

The database server compares the power measurement value with a preset reference value to generate an emergency notification when an error occurs in the power equipment in the history, and when the other mobile terminal receives the emergency notification from the database server through the mobile communication network And outputting the result.

The database server generates the emergency situation notification message including the time at which the emergency situation occurred, the occurrence area of the situation, the generated situation information, or the image information related to the occurrence of the situation, and the other mobile terminal transmits the emergency situation notification message And outputs it in a pop-up form.

Wherein the database server stores account information having a right to confirm power measurement values of the power devices formed in the history, and calculates power measurement values of the power devices formed in the history in the other mobile terminals connected with authorized account information A power measurement value of power equipment formed in the history is output to the other mobile terminal.

A solar power generation module for measuring the power generation amount of the solar power generation module installed in the history, measuring the inverter status of the solar power generation module, transmitting the measured power generation amount of the solar power generation module and the measured inverter status to the database server And module monitoring equipment.

According to this aspect, the history monitoring system according to an embodiment of the present invention realizes monitoring of power facilities installed in and out of a building or a railroad history to redistribute power or efficiently output monitoring results to a mobile terminal, Can be efficiently used, and it is possible to reliably monitor the railway history.

1 is a block diagram illustrating a schematic structure of a history monitoring system according to an embodiment of the present invention.
2 is a block diagram schematically illustrating an electrical room monitoring equipment of a historical monitoring system according to an embodiment of the present invention.
3 is a block diagram schematically illustrating in-historical monitoring and control equipment of a historical monitoring system according to an embodiment of the present invention.
4 is a block diagram schematically illustrating substation monitoring equipment of a historical monitoring system according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

FIG. 1 is a block diagram showing a schematic structure of a history monitoring system according to an embodiment of the present invention, FIG. 2 is a block diagram schematically showing an electrical room monitoring equipment of a history monitoring system according to an embodiment of the present invention, FIG. 3 is a block diagram schematically illustrating an in-historical monitoring and control apparatus of a history monitoring system according to an embodiment of the present invention. FIG. 4 schematically shows a substation monitoring apparatus of a history monitoring system according to an embodiment of the present invention. Fig.

The history monitoring system (S) relates to a system for real-time monitoring of the state of electric power facilities installed inside and outside the railroad history and the emergency situation occurring in the railroad history, and a system for monitoring the power consumption of buildings And it is to be understood that the present invention is applied to railroad history, but it should not be construed as being limited thereto.

In the present embodiment, the history monitoring system S includes a database server 100 for storing information sensed in and out of a railway history (hereinafter referred to as " history "), An analyzing server 300, an electric room monitoring equipment 400 for monitoring the electric room situation in the history, a general control room equipment 500 formed in a remote control room, History In-house monitoring and control equipment (700) for collecting monitoring results of internal equipment and controlling equipment in history, substation surveillance equipment for reducing substation power facilities (800), PV modules for monitoring PV modules A monitoring device 900 and a mobile terminal 200 and 210 for outputting monitoring results or analysis results of electric power facilities in the history, Subject has a structure.

The database server 100 generates the history information from the historical situation analysis server 300, the electric room monitoring equipment 400, the in-house monitoring and control equipment 700, the substation monitoring equipment 800, and the PV module monitoring equipment 900 And transmits the stored data or the processed data to the Internet network 1. The received data is stored as a database or data processing is performed.

The database server 100 stores and stores the information generated in the history and the corresponding history, and stores the information of the mobile terminal 200 or the related institution information to provide the processed information.

The database server 100 may include a mobile server for outputting data to the mobile terminal 200 and may include an image processing server for converting or processing the image received from the in-historical situation analysis server 300 or the like And may be applying a structure for security.

The database server 100 includes a communication module for receiving information via the Internet 1 or transmitting information stored in the database server 100 and a processing unit for processing or matching the received data .

The mobile terminal 200 includes a first mobile terminal 210 and a second mobile terminal 220 that receives an emergency notification and corresponding emergency information from the database server 100 And outputs it.

The first mobile terminal 210 is located at a distance from the history and can receive data from the database server 100 via a mobile communication network or the like. The first mobile terminal 210 may be a smart phone, a PDA, a tablet PC, or the like possessed by those who are required to report abnormal situations occurring in the history in real time.

Alternatively, even if the person possessing the first mobile terminal 210 is located in the history, rather than being located at a remote distance from the history, it is possible to receive the emergency situation notification and emergency situation related image information from the database server 100 via the mobile communication network And outputs it.

The first mobile terminal 210 can output the emergency notification or related image information received from the database server 100 through a web browser installed in the first mobile terminal 210 or a dedicated application, By using the account information of an authorized party who is set to receive and report the situation, a person in a specific history can receive only information on a situation occurring in a specific history through the first mobile terminal 210.

To this end, the database server 100 stores the information of the first mobile terminal 210, which has the authority to monitor a situation occurring in a specific history, or the account information of the web browser or the dedicated application, It is good.

The database server 100 matches the monitoring authority of the first mobile terminal 210 with the monitoring authority of the first mobile terminal 210 or accesses the first mobile terminal 210 through the first mobile terminal 210 And stores them in the database. Accordingly, when the first mobile terminal 210 receives the context-related information generated in the history, the account information of the specific party accessing through the first mobile terminal 210 or the first mobile terminal 210 Only the information generated in the matched space can be received, and the status monitoring task in the manager's history can be effectively shared.

In the case where the first mobile terminal 210 receives and outputs the emergency status notification from the database server 100, the emergency status notification includes a time at which an emergency situation occurs, a status occurrence zone, occurred status information, A notification message including video information can be output in a pop-up form. In addition, the emergency situation notification may output a notification sound to the first mobile terminal 210. [

The second mobile terminal 220 receives the emergency situation notification information or the emergency situation related escape information from the in-historical situation analysis server 300 and outputs the information.

The second mobile terminal 220 is located within the history and can receive data from the in-historical context analysis server 300 via the short-range wireless communication network. The second mobile terminal 220 may be a smart phone, a PDA, a tablet PC, or the like possessed by a passenger in the history who needs abnormal situation information and evacuation related information generated in the history.

In one example, the second mobile terminal 220 receives the emergency status notification information or the emergency redemption-related escape information from the in-historical situation analysis server 300 using a low-power Bluetooth-based beacon.

The second mobile terminal 220 can output the emergency notification information or the emergency situation related evacuation information received from the in-historical situation analysis server 300 through a web browser installed in the second mobile terminal 220 or a dedicated application .

The second mobile terminal 220 provides its location information to the in-historical analysis server 300, and the in-historical situation analysis server 300 determines whether the location information of the second mobile terminal 220 is a history It receives the emergency situation notification information or the emergency situation related evacuation information from the in-historical situation analysis server 300 and outputs it.

The second mobile terminal 220 may generate a control signal for controlling the device in the history through the installed web browser or dedicated application. For example, a passenger in the history who has detected the occurrence of a fire in history generates an emergency bell notification control signal through the second mobile terminal 220, and the emergency bell formed in the history is transmitted from the second mobile terminal 220 to the emergency bell notification control And may be driven to output an emergency notification.

In one example, the second mobile terminal 220 and the emergency bell formed within its history are connected to the Internet of objects IoT; the second mobile terminal 220 may transmit an emergency alarm notification control signal to the in-historical situation analysis server 300 and may transmit the emergency alarm notification control signal to the in- The analysis server 300 may apply a control signal for controlling the operation of the emergency bell formed in the history.

The second mobile terminal 220 can receive and output the status information such as the emergency occurrence position information as text or image as the emergency status notification information from the in-historical situation analysis server 300. Upon receiving the emergency status notification information Emergency sound can be output.

The second mobile terminal 220 transmits the image information photographed by the camera to the history analysis server 300 or the emergency situation related evacuation information from the history analysis server 300 in text form A manual, an image file, or a moving picture guiding the evacuation route.

The second mobile terminal 220 receives a plurality of emergency situation related evacuation information from the in-historical situation analysis server 300 and, according to an input signal input by the passenger holding the second mobile terminal 220, The related escape information can be outputted. Therefore, even if the passenger's position can not be accurately grasped, the evacuation information at various locations is provided to the second mobile terminal 220 at one time, and the second mobile terminal 220 selects one of the plurality of evacuation information received It can be usefully used for evacuation.

The second mobile terminal 220 is held by a passenger located in a train which is stopped in history or traveling between history and history, and is notified from the in-historical situation analysis server 300 of emergency situation notification information or emergency situation related evacuation And transmits the photographed image information or the generated control signal to the in-situ situation analysis server 300.

The second mobile terminal 220 receives the emergency situation notification information and the emergency situation related evacuation information from the in-historical situation analysis server 300 or transmits the generated image information or control signal to the in-historical situation analysis server 300 The emergency situation information generated in the history can be quickly identified and evacuated by the passenger located in the history through the second mobile terminal 220 and the passengers can be provided in the historical situation analysis server 300 Can be used to analyze the situation in the history.

The in-historical situation analysis server 300 generates emergency situation notification information or emergency situation related evacuation information to be transmitted to the second mobile terminal 220 and transmits it to the second mobile terminal 220 through short- Which may be a local server located within history.

The historical situation analysis server 300 receives image information from cameras which are installed in the history and photographs the inside of the history, analyzes the image information in the received history to determine whether an emergency situation has occurred in the history, And transmits the emergency status notification information or the emergency situation related escape information to the second mobile terminal 220 using the determination result.

In the historical situation analysis server 300, when receiving the image information from the cameras photographing the inside of the history, the unique identification numbers assigned to the cameras so as to distinguish the specific positions in the history in which the cameras are installed are matched with the image information The history analyzing server 300 analyzes the unique identification number and the image information received from the camera and generates notification information and emergency evacuation information for an emergency occurring at a specific location in the history.

The historical situation analysis server 300 may include a database for storing the unique identification number of the camera in association with a specific position in the history. When it is determined that the analysis result of the image information matched to the specific identification number is an emergency situation, It can be included as a phrase in the emergency situation notification information that an emergency situation has occurred at a specific position in the history corresponding to the specific unique identification number.

In one example, the in-historical situation analysis server 300 can determine from the image information received from the cameras that photographed inside the history that a fire has occurred in the history or a congestion situation in the history has occurred, 300 may include a processing unit including a video incident detection system (VID) for determining a fire or a congestion situation from an analysis of image information.

The historical situation analysis server 300 transmits the unique identification number of the camera received from the cameras which photograph the inside of the history and the image information photographed by the camera to the database server 100 via the Internet network 1.

The electric room monitoring apparatus 400 collects electric power output values of the electric power equipment provided in the electric room formed in the history and compares the electric power output value of the collected electric power equipment with the predetermined output reference value for each electric power equipment, And whether or not they are normal.

The electric room monitoring equipment 400 assigns unique identification numbers to electric equipment provided in the electric room, stores the electric power output values collected from the respective electric equipment in association with the unique identification number of each electric equipment, An identification number, a power output value of the corresponding power equipment, and a predetermined output reference value of the corresponding power equipment, and a processor for comparing the power output value with a set output reference value.

At this time, the electrical room monitoring equipment 400 can transmit and compare the power output value and the comparison result with the reference value to the database server 100 via the Internet network 1, and the power output value and the comparison result of the power equipment of the electric room And may be output to the first mobile terminal 210.

The electrical room monitoring apparatus 400 includes a digital power protection monitoring apparatus 410, a current transformer 420, a digital centralized display control apparatus 430, an air circuit breaker 440, a transistor temperature sensing unit 450, a grounding relay 460, A temperature sensing unit 470 and a distribution board monitoring unit 480 to monitor the electric room internal electric power equipment, the electric room internal state, the internal state of the distribution board and the power state of the distribution board.

The digital power protection monitoring device 410 displays the power output value of the power equipment of the electric room in the history as a digital value and confirms the power output value of the power equipment of the electric room including the protection relay function, the high frequency analysis function, Analyze and improve quality. At this time, the power output value and its analysis data are transmitted to the database server 100.

The digital convergence display controller 430 includes a real-time power waveform and trend as an analysis display device, and outputs a power output value of power equipment of the electric room as a waveform Generates trend data by analyzing it, and transmits the waveform and analysis trend data to the database server 100.

An air circuit breaker (ACB) 440 is a device that cuts off a circuit in the air, and cuts off electric power to stabilize electric power in the electric room, and transmits blocking time data to the database server 100. The transistor temperature sensing unit 450 senses the temperature of the transistor in the electric room, outputs the sensed value, and transmits the sensed value to the database server 100.

A ground relay (GFR) 460 detects a ground fault of the power equipment of the electric room, protects the power equipment from ground, and transmits time data that performs the ground fault detection and protection operation to the database server 100.

The temperature sensing unit 470 measures the internal temperature of the electric room in the history, and transmits the electric room temperature measurement value to the database server 100. The temperature sensing unit 470 stores the electrical room proper temperature value and compares it with the electrical room temperature measurement value. When the electrical room temperature measurement value deviates from the set electrical room temperature value, the digital power protection monitor 410, The electrical room temperature measurement is transmitted to the ground 440 or ground relay 460 so that the digital power protection monitoring device 410, the air circuit breaker 440 or the ground relay 460 stabilize the electrical equipment in the electrical room.

The distribution board monitoring unit 480 monitors the status of the distribution boards installed in the electric room or in the history and transmits the monitoring results to the database server 100. The distribution board monitoring unit 480 includes a distribution board illumination sensing unit 481, a distribution board temperature sensing unit 482, A distribution board load sensing unit 483, a distribution board leakage circuit breaker 484, and a distribution board leakage monitoring unit 485. [ The distribution board illumination sensing unit 481 senses the on or off state of the illumination in the space where the distribution board is installed and transmits the on or off state of the sensed illumination to the database server 100 as the illumination detection result.

The distribution board illumination sensing unit 410 controls the illumination of the space where the distribution board is installed to be turned on or off according to the illumination on or off control signal received from the database server 100.

The distribution board temperature sensing unit 482 and the distribution board load sensing unit 483 sense the temperature of the space where the distribution board is installed and the load of the distribution board, respectively, and transmit the temperature sensing result and the load sensing result to the database server 100. The distribution board load sensing unit 483 monitors the voltage, current, and power of the power equipment in the space where the distribution board is installed.

The distribution board circuit breaker 484 cuts off the electric power leakage of the power equipment in the space where the distribution board is installed, and transmits the electric leakage cutoff time to the database server 100. The distribution board leakage monitoring unit 485 monitors the leakage current of the power equipment in the space where the distribution board is installed and transmits the monitoring result to the database server 100.

The distribution board monitoring unit 480 monitors the space in the history where the distribution board is installed and transmits the output monitoring results to the database server 100 in association with the unique identification number, The monitoring result of the panel board collected in the space where the distribution board is installed can be confirmed in correspondence with each space and it can be stored as monitoring data so that the electric power status in the history can be efficiently monitored.

The general control room equipment 500 is a monitoring equipment for receiving and outputting data collected from at least one history from the database server 100. The monitoring equipment 500 can output data collected from a plurality of histories, And can control the power equipment formed in each history or control the mobile terminal 200.

The apparatus 600 is a monitoring device that is formed in a single history and receives and outputs data collected from the history. The monitoring device 600 controls power devices formed in the history as the input signal is input, or controls the mobile terminal 200 can do.

The general control room equipment 500 and the branch control room equipment 600 include a monitor device for displaying data collected from history, a speaker for outputting the collected sound, a microphone for receiving an input signal, an input device such as a mouse or a keyboard And receives the data collected in the history from the database server 100 through the Internet network 1 or transmits the input signal to the equipment in the history or the mobile terminal 200. [

The historical monitoring and control equipment 700 includes an in-historical power redistribution unit 710 for redistributing power to electric power equipment in history, and an emergency power equipment monitoring unit 720 for monitoring the status of emergency power equipment in history .

The historical power redistribution unit 710 determines a space consuming a relatively large amount of electric power in history based on the output value of the electric power equipment in the history, And redistributes the power of history to provide enough power to

In one example, the historical power redistribution unit 710 receives from the database server 100 the power measurement values collected from at least one distribution board formed within the historical electrical room or history of the electrical room monitoring equipment 400, Check the status and redistribute the power in the history to distribute the power at the time and place where the power is concentrated by analyzing the trend of increasing power usage or the time of increasing power usage gradually.

The emergency power equipment monitoring unit 720 monitors the power status of the emergency power equipment among the power equipment formed in the history and monitors the power status of the emergency power generator and the emergency elevator, .

The substation monitoring apparatus 800 monitors the substation state formed in the history. The substation monitoring apparatus 800 includes a gas density monitoring apparatus 810 for monitoring the gas density in the substation, a lightning arrester monitoring apparatus 820 for monitoring the state of the lightning arrester of the substation, A partial discharge diagnosis device 830 for diagnosing whether or not partial discharge of the substation equipment is performed by using a sensor and a transformer in-oil gas diagnosis device 840 for diagnosing gas in the substation transformer, ).

The photovoltaic module monitoring apparatus 900 senses the amount of power generated by the photovoltaic power generation module formed in the history and transmits the detected amount of power generation to the database server 100. The photovoltaic module monitoring apparatus 900 senses the states of the inverters included in the photovoltaic power generation module, (100).

As the PV monitoring module (900) monitors the power generation of the PV module, it can efficiently use the power in the history including the PV module, and can quickly check the occurrence of defects in the PV module Which can lead to rapid replacement of the photovoltaic power generation module, leading to loss of power generation amount.

The mobile terminal 200, the historical situation analysis server 300, the electric room monitoring equipment 400, the branch control room equipment 600, the historical monitoring and control equipment 700, the substation monitoring equipment 800, The monitoring device 900 has been described by way of example of transmitting data such as a monitoring result to the database server 100 and performing additional processing or the like using data stored in the database server 100. However, To the remote database server 100, a database server in the history is additionally provided, and a database server provided in the history can store the collected data in the history and form a system to use it There will be.

In this manner, the history monitoring system S can monitor the power output value of historical electric power equipment to maintain a stable state, easily monitor the electric power situation, detect an emergency situation occurring in the history, It is possible to efficiently monitor power and emergency situations in the history.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

S: History monitoring system 1: Internet network
100: database server 200: mobile terminal
300: Historical situation analysis server 400: Electrical room monitoring equipment
500: General control room equipment 600: Branch control room equipment
700: Historical monitoring and control equipment 800: Substation monitoring equipment
900: PV module monitoring equipment

Claims (10)

A database server that receives the power measurement values from an electric room monitoring device that measures power measurement values of electric power equipment formed in the history and receives and stores image information taken from cameras installed in the history;
An in-historical situation analysis server for detecting occurrence of a fire situation or a congestion situation in history using the image information stored in the database server, and generating emergency notification information and emergency situation-related evacuation information to be output to the mobile terminal; And
An in-historical monitoring and control equipment for analyzing power usage patterns in history by using the power measurement values stored in the database server and redistributing power to power equipment in history;
Wherein the database server compares a power measurement value with a set reference value to generate an emergency notification when anomalies in the power facility in the history are generated and the other mobile terminal receives the emergency status from the database server over a mobile communication network And receives the notification and outputs the notification. The method according to claim 1,
The database server is a server which is located remotely from the history, receives information on a plurality of histories, matches information received from the history, and stores the information. The history analysis server in the history is a local server located in history A history monitoring system. The method according to claim 1,
Wherein the history analysis server transmits the emergency notification information and the emergency situation related evacuation information to the mobile terminal through short-range wireless communication. The method according to claim 1,
The mobile terminal receives the emergency bell notification control signal and transmits the emergency bell notification control signal to the in-historical situation analysis server. The in-historical situation analysis server controls the emergency bell notification control signal so that the emergency bell formed in the history outputs a notification sound The history monitoring system comprising: The method according to claim 1,
The mobile terminal receives the emergency ring notification control signal, and transmits the emergency ring notification control signal to the emergency bell via the emergency bell and the object Internet formed in the history. The emergency bell informs the emergency bell according to the emergency bell notification control signal And outputs a sound. The method according to claim 1,
Wherein the historical situation analysis server generates the emergency situation related evacuation information in the form of a moving picture guiding a textual manual, an image file, or a evacuation route, and delivers the evacuation-related evacuation information to the mobile terminal. delete The method according to claim 1,
Wherein the database server generates an emergency situation notification message including an occurrence time of an emergency situation, a situation occurrence area, generated situation information, or image information related to occurrence of a situation, and the other mobile terminal transmits the emergency situation notification message And outputs it in a pop-up form. The method according to claim 1,
Wherein the database server stores account information having a right to confirm power measurement values of the power devices formed in the history, and calculates power measurement values of the power devices formed in the history in the other mobile terminals connected with authorized account information Value to the other mobile terminal, the power measurement value of the power devices formed in the history is output to the other mobile terminal. The method according to claim 1,
A solar power generation module for measuring the power generation amount of the solar power generation module installed in the history, measuring the inverter status of the solar power generation module, transmitting the measured power generation amount of the solar power generation module and the measured inverter status to the database server And a module monitoring device.

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