KR20090050897A - System and method of monitoring for managing the gps observatory all time - Google Patents

Abstract

The present invention relates to a GPS monitoring station operating system and method, the GPS monitoring station including a GPS receiver, a battery, an inclinometer, a communication modem, a thermometer, a hygrometer, a fan, a heater in the GPS monitoring station, the temperature inside the GPS monitoring station pillar A communication device including VPN and ADSL for outputting data including humidity, voltage AC, voltage DC, and gradient information through TCP / IP communication and receiving an operation monitoring processing command from the outside, and receiving the information data from the communication device. GPS monitoring station operating monitoring program of the central processing center for receiving and displaying and monitoring the received information data, and a database located in the central processing center for storing the information data with the time, GPS constantly observation station pillar Real-time monitoring of the operating environment of each GPS station It may be the most appropriate operating temperature and humidity set to GPS CORS stable operations and reduce the time and material waste of resources due to the failure handling field visits.

GPS monitoring station, monitoring, telecommunication control equipment, operation monitoring, temperature, humidity, communication failure

Description

System and method of monitoring for managing the GPS observatory all time}

The present invention relates to a system and a method for monitoring a GPS always-on station operation, and more particularly, to a system and a method for monitoring a state of operation inside a GPS station at a central office, in particular, a panel meter of a thermometer, a hygrometer, a voltmeter, It relates to the storage and output of temperature, humidity, power, gradient data inside the pillar using inclinometer and telecommunication control equipment, and automatic reset of communication equipment using telecommunication control equipment.

1 is a block diagram of a general GPS monitoring station system.

Referring to FIG. 1, the GPS station is generally located inside the GPS receiver 101, the antenna 102, the backup battery 103, the inclinometer 107, the telephone modem 104, the temperature panel meter 211, The humidity panel meter 212, the fan 209, the heater 210 is composed of.

The GPS station is operated unattended for 24 hours, and the GPS satellite signal is received by the GPS receiver 101 and stored therein, and GPS data is acquired by PSTN communication using the telephone modem 104 at the GPS central processing center at a specific time. do.

The GPS data thus obtained is passed through a series of processes, distributed to GPS surveyors, and used to study and monitor the displacement of the tectonic network.

The above equipments are located inside the stainless steel enclosure, and when the temperature inside the stainless steel enclosure rises, the temperature panel meter 211 automatically detects the current temperature, operates the fan 209 to lower the temperature, and the conventional power supply. If supply is not possible, power is supplied from the backup battery 103 to operate the GPS station.

However, when GPS data cannot be obtained due to various obstacles in the GPS central processing center, the operator should visit the permanent observation stations located throughout the country and take measures to deal with the failure.

In the case of a communication failure, the telephone modem 104 is replaced or the telephone modem 104 is reset to solve the communication problem.

However, there is no basis for determining whether the GPS station is stopped due to some cause when a failure occurs, and there is a problem in that it takes a lot of time and money to visit the GPS station.

The present invention is to solve the problem of the waste of resources according to the visit of the GPS monitoring station located in each province of the country due to minor defects, the information of the operating state inside the GPS monitoring station is not known at all before the site visit. Displays, acquires, stores, and manages the operation status information inside the GPS monitoring station in real time using the panel meter (thermometer, hygrometer, voltmeter), inclinometer, and telecommunication control equipment. It is to provide a GPS monitoring station operating monitoring system and method for restoring the communication state by resetting the communication equipment to ensure the smooth transmission and reception of GPS data.

In addition, the present invention measures the temperature, humidity, voltage inside the GPS observation station, and transmits it to the central processing center with an inclination, using the Internet communication network, the temperature, humidity, collected at a specific time interval in the central processing center It is to provide the system and method for remotely monitoring the inside of the GPS station by displaying voltage and slope information in the operating monitoring program and storing it in a database.

GPS permanent station operating monitoring system according to the present invention to achieve the above object, GPS permanent station monitoring system including a GPS receiver, battery, inclinometer, communication modem, thermometer, hygrometer, fan, heater, GPS always Communication device including a VPN modem and an ADSL modem for outputting data including temperature, humidity, voltage AC, voltage DC, gradient information inside the station pillar through TCP / IP communication and receiving operational monitoring processing commands from the outside; GPS monitoring station operating monitoring program of the central processing center for receiving and receiving the information data from the communication device to display and monitor the received information data, and a database located in the central processing center for storing the information data with time; It is characterized by.

In addition, in the GPS monitoring station operating monitoring system according to the present invention, the operating monitoring program of the central processing center sets the maximum temperature inside the GPS station, and the temperature inside the GPS station is raised to reach the maximum temperature set value. If so, the thermometer detects this, and operates a fan connected to a relay interlocked with the thermometer to lower the temperature inside the GPS station.

In addition, in the GPS monitoring station operating monitoring system according to the present invention, the operating monitoring program of the central processing center sets the minimum temperature inside the GPS station, and the temperature inside the GPS station is lowered to reach the minimum temperature set value. If it detects this in the thermometer, it is characterized in that to operate the heater connected to the relay interlocked with the thermometer to increase the temperature inside the GPS station.

In addition, in the GPS monitoring station operating monitoring system according to the present invention, the operating monitoring program of the central processing center sets the maximum humidity inside the GPS station, and the humidity inside the GPS station is increased to reach the maximum humidity set value. If it detects this in the hygrometer it is characterized in that to lower the humidity by operating the fan by a relay interlocked with the hygrometer.

In addition, in the GPS continuous station operating monitoring system according to the present invention, when the communication device including the ADSL modem and the VPN modem has a failure, when the data communication with the operating monitoring program of the central processing center is not smooth, the ADSL modem Or resetting the VPN modem to perform communication communication resumption.

In addition, in the GPS monitoring station operating monitoring system according to the present invention, when the supply of the 220V commercial power is stopped, when the large capacity battery charged by the charger to supply the alternative power for operating the GPS always observation station Monitor the DC power supplied to the station equipment until reaching the lowest voltage set by the monitoring program, and if it is detected that the minimum voltage set point is reached, all the equipment except the GPS receiver of the GPS station is detected from the battery. It is characterized by including a DC voltmeter for stopping the power supply.

On the other hand, the GPS monitoring station operating monitoring method according to the present invention, (a) waiting for the GPS monitoring station connection in the operation monitoring program of the central processing center and confirming the connection attempt, (b) the connection attempt confirmation result is not connected If not, the operation monitoring program continuously waits for the GPS station observation and maintains the connection when the connection attempt is confirmed as the result of the access attempt. (C) The operation monitoring program is the highest through the telecommunication control device to be operated inside the station pillar. (D) monitoring the current temperature inside the station at all times by using the thermometer inside the station; and (e) the current temperature inside the GPS station is increased with respect to the set maximum temperature value. If the temperature is above the maximum set point, the thermometer detects this and drives the relay connected to the thermometer. (F) operating the fan, and (f) if the current temperature inside the GPS station decreases below the minimum temperature setting value with respect to the set minimum temperature value, the thermometer detects this and drives a relay connected to the thermometer. Activating.

On the other hand, the GPS monitoring station operating monitoring method according to the present invention, (a) waiting for the GPS monitoring station connection in the operation monitoring program of the central processing center and confirming the connection attempt, (b) the connection attempt confirmation result is not connected If not, the operation monitoring program continuously waits for the GPS station observation and maintains the connection when the connection attempt is confirmed as a result of the access attempt. (C1) The operation monitoring program is the highest through the telecommunication control device to be operated inside the station pillar. Setting a humidity value, (d1) monitoring the current humidity inside the station at a regular time in the hygrometer inside the station, and (e1) the current humidity inside the GPS station is increased with respect to the set maximum humidity value, thereby increasing the maximum humidity. If it is higher than the setting value, the hygrometer will detect it and drive the relay connected to the hygrometer. And a step of operating the fan.

On the other hand, GPS always operating station monitoring method according to the present invention, (i) a monitoring command is transmitted from the operating monitoring program to the ADSL modem, and transmitting a monitoring command from the ADSL modem to the VPN modem, (ii) the VPN modem After the monitoring command is entered into the telecommunications control device, the telecommunications control device checks whether the ADSL modem or the VPN modem communicates normally to determine whether it is in normal operation, and (i) the ADSL modem and the VPN in step (ii). If all of the modems operate normally, transmitting and receiving data such as temperature, humidity, voltage, and inclination value as monitoring data to the operation monitoring program 220 of the central processing center, and (iii) the ADSL modem or VPN in step (ii). If there is a communication failure in which the modem does not communicate normally, the remote communication control device may be one of the ADSL modem or the VPN modem. It is a step of resetting the communication equipment occurred.

On the other hand, the GPS constant station operating monitoring method according to the present invention, if (A) 220V commercial power is supplied into the GPS receiver pillar, the step of determining whether the AC power is 220V by the AC voltmeter, (B) the power supplied In the case of 220V, the power is supplied to the charger, and the charger operates the equipment inside the GPS always-on station pillar, (C) charging the large capacity battery by the 220V power supplied to the charger, and (D) the ( In step A), if it is determined that the AC power is not 220V by the AC voltmeter, the large capacity battery is operated, and the DC 24V power is output from the large capacity battery.

In addition, in the GPS constant station operating monitoring method according to the present invention, the step of setting the minimum voltage to the DC voltmeter by the operation monitoring program for the continuous operation of the GPS station, and setting the minimum voltage in the DC voltmeter connected to the large capacity battery When it is detected that the value is reached is characterized in that it further comprises the step of stopping the power supply to all equipment except for the GPS receiver of the GPS monitoring station from the battery.

According to the GPS monitoring station operation monitoring system and method according to the present invention, by monitoring the operating environment inside the GPS monitoring station pillars scattered throughout the country in real time, the administrator using the operating monitoring program in the central processing center GPS monitoring station pillar It is possible to check the internal operating environment and to set the most appropriate operating temperature and humidity for each GPS station, so that the GPS station can be operated stably.

In addition, when a communication failure occurs, the telecommunications control equipment automatically recognizes it and resets the communication equipment, thereby reducing the waste of time and material resources caused by the operator and the manager on the site.

In addition, since the GPS measurement station internal measurement data is stored in a database of the GPS monitoring station operation monitoring program, there is an advantage that can be used as a research and experimental data on the GPS operating environment internal operating environment based on this.

Hereinafter, a detailed description of the GPS continuous station operating monitoring system according to the present invention will be described in more detail with reference to the accompanying drawings.

2 is a block diagram of a GPS monitoring station operation monitoring system according to the present invention.

As shown in FIG. 2, the GPS monitoring station operating monitoring system according to the present invention is composed of a GPS monitoring station pillar and a remote monitoring program block diagram of a central processing center.

The GPS always-on station pillars have a power source 200, a GPS receiver 201, a charger 203, a large capacity battery 204, an ADSL modem 205, a VPN device 206, a telecommunication control device 207, and an inclinometer. 107, a fan 209, a heater 210, a panel meter includes a thermometer 211, a hygrometer 212, an AC voltmeter 213, a DC voltmeter 1 214, a DC voltmeter 2 215, The central processing center includes an operation monitoring program 220 and a database 221.

The 220V commercial power supply 200 is used as a power source for driving the entire GPS station.

The GPS station is operated unattended for 24 hours, and the GPS satellite signal is received by the GPS receiver 201 and stored therein, and the TCP using the ADSL modem 205 and the VPN modem 206 at the GPS central processing center at a specific time. Acquire GPS data via / IP communication.

Meanwhile, the temperature, humidity, voltage AC, voltage DC, and slope information data of the GPS constant station pillar are transmitted through TCP / IP communication, and the GPS constant station operating program of the central processing center transmits the received information to the GPS constant station. It is displayed on the operational monitoring program 220 and stored in the database 221 with the set time of the information data.

The information data stored in the database is suitably used as described below in the operation of the GPS station operating motoring system.

7 is an embodiment of the structure of the database 221 of the GPS monitoring station operating monitoring program 220.

In FIG. 7, the data received by the GPS monitoring station operating monitoring program 220 is stored in the database 221 together with the date and time.

When operating the GPS station by the 220V commercial power 200 at normal times, the temperature and humidity inside the GPS station are measured using the thermometer 211 and the hygrometer 212 and the operation monitoring program of the central processing center (220). ).

When the temperature inside the GPS station rises and reaches the maximum temperature setting value, when the thermometer 211 detects this, the fan 209 is operated by a relay interlocked with the thermometer 211 to control the temperature inside the GPS station. To lower it.

In addition, when the temperature inside the GPS station decreases and reaches the minimum temperature set value, when the thermometer 211 detects this, the heater 210 is operated by a relay interlocked with the thermometer 211 to operate the inside of the GPS station. Increase the temperature

On the other hand, when the humidity inside the GPS observation station increases, when the hygrometer 212 detects this, the fan 209 is operated by the relay interlocked with the hygrometer 212 to lower the humidity by the convection inside the station.

In addition, when the ADSL modem 205 or the VPN modem 206 connected to the GPS receiver fails and communication with the operation monitoring program 220 of the central processing center is not smooth, the telecommunication control device 207 is connected to the ADSL modem. 205 or VPN modem 206 is automatically reset to resume communication.

On the other hand, if the AC power is recognized as 220V by the AC voltmeter 213 by the supply of the 220V commercial power 200, all the inside of the GPS station observatory pillar by the voltage output from the charger 203 connected to the 220V commercial AC power The equipment is activated and charging of the large capacity battery 203 is performed.

However, when the supply of the 220V commercial power 200 is stopped, the large capacity battery 204 charged by the charger 203 connected to the 220V commercial power 200 supplies the alternative power.

At this time, the DC voltmeter 2 (215) monitors the voltage until reaching the lowest voltage setting value for uninterrupted operation of the GPS station, the GPS receiver 201 by the large capacity battery 204 until the minimum voltage setting value. Supply 24 V DC power to the station equipment included.

Here, when it is detected that the minimum voltage set value is reached by the DC voltmeter 2 (215), the battery 204 stops supplying power to all equipment except the GPS receiver of the GPS station. Normally, power is maintained for more than three days until all equipment is completely powered off.

 On the other hand, the non-described DC voltmeter 1 (214) is to monitor the DC power inside the station pillar at all times and to stop all the power supply for battery protection when it is detected that the minimum voltage set value is reached.

The operation monitoring program 220 of the central processing center may set the highest temperature, the lowest temperature, the highest humidity for operating the fan and the heater, and adjust the lowest voltage setting value for supplying the lowest necessary voltage required for GPS operation.

In addition, the operation monitoring program 220 of the central processing center displays various measurement data received from the GPS observatory on the screen and stores the value in the database 221 together with the received time.

3 is an embodiment of an operation flowchart of the GPS monitoring station operation monitoring system according to the present invention.

According to Fig. 3, when the temperature inside the GPS station rises and reaches the maximum temperature setting value, the thermometer 211 detects this and operates the fan 209 installed inside the GPS station to monitor the temperature inside the GPS station. On the other hand, the process of raising the temperature inside the GPS station by operating the heater 210 when the temperature inside the GPS station decreases to reach the minimum temperature setting value.

Referring to FIG. 3, first of all, the operation monitoring program 220 of the central processing center waits for access to a GPS station and checks connection attempts (S30 and S31).

At this time, if the connection attempt is not confirmed as a result of the connection, the operation monitoring program 220 continues to wait for the GPS station always connected.

If the connection attempt is confirmed as a result of the connection attempt, the station connection is maintained (S32).

In this case, the operation monitoring program 220 sets the highest and lowest temperature values through the telecommunication control device 207 to be operated in the station pillar, and the set maximum and minimum temperature values are always the thermometer 211 in the station pillar. ) Is set to the highest and lowest temperature values (S33).

After that, the thermometer 211 inside the station constantly monitors the current temperature inside the station (S34).

When the current temperature inside the GPS station always rises above the set maximum temperature value and becomes higher than the maximum temperature set value, when detected by the thermometer 211, the fan 209 is operated by driving a relay connected to the thermometer 211. By lowering the temperature inside the GPS station (S35, S36).

In this case, when the current temperature inside the GPS station is not more than the maximum temperature set value in step S35, the process returns to step S34 to continuously monitor the current temperature inside the station.

In addition, when the current temperature inside the GPS constant station decreases below the minimum temperature set value with respect to the set minimum temperature value and detects it by the thermometer 211, the heater 210 is driven by driving a relay connected to the thermometer 211. Operation to increase the temperature inside the GPS station (S37, S38).

In addition, in step S37, the current temperature inside the GPS station is returned to step S34 unless the current temperature falls below a minimum temperature setting value, thereby continuously monitoring the current temperature in the station.

Figure 4 is another embodiment of the operation flowchart of the GPS monitoring station operating monitoring system according to the present invention.

Referring to FIG. 4, when the humidity inside the GPS station is increased, when the hygrometer 212 detects the humidity, the fan 209 is operated to reduce the humidity by the convection inside the station.

Referring to FIG. 4, first, the operation monitoring program 220 of the central processing center waits for a GPS continuous station connection and checks connection attempts (S40 and S41).

At this time, if the connection attempt is not confirmed as a result of the connection, the operation monitoring program 220 continues to wait for the GPS station always connected.

If the connection attempt is confirmed as a result of the connection attempt, the station connection is maintained (S42).

In this case, the operation monitoring program 220 sets the maximum humidity value to be operated in the station pillar, and the set maximum humidity value is the highest humidity in the hygrometer 212 in the station station pillar through the telecommunication device 207 at all times. It is set to a value (S43).

Thereafter, the hygrometer 212 inside the station constantly monitors the current humidity inside the station (S44).

When the current humidity inside the GPS station always rises above the set maximum humidity value and reaches a maximum humidity set value, when the hygrometer 212 detects this, the fan 209 is operated to lower the humidity inside the GPS station. (S45, S46).

In this case, when the current humidity inside the GPS station is not higher than the maximum humidity setting value in step S45, the process returns to step S44 to continuously monitor the current humidity inside the station.

Figure 5 is another embodiment of the operation flowchart of the GPS monitoring station operating monitoring system according to the present invention.

Referring to FIG. 5, when the ADSL modem 205 or the VPN modem 206 connected to the GPS receiver has a failure and communication with the operation monitoring program 220 of the central processing center is not smooth, the telecommunication control device 207 Automatically resets the ADSL modem 205 or the VPN modem 206 to resume communication.

Referring to FIG. 5, a monitoring command is first transmitted from the operation monitoring program 220 to the ADSL modem 205, and a monitoring command is transmitted from the ADSL modem 205 to the VPN modem 206 (S51 and S52). ).

The monitoring command via the VPN modem 206 enters the telecommunications control device 207, and the telecommunications control device checks whether the ADSL modem 205 or the VPN modem 206 communicates normally to determine whether it is in normal operation. (S53, S54).

If both the ADSL modem 205 and the VPN modem 206 operate normally in the normal operation determination step (S54), data such as temperature, humidity, voltage, and inclination value may be used as monitoring data. And transmits and returns to the ADSL modem 205 (S55).

If there is a communication failure in which the ADSL modem 205 or the VPN modem 206 does not normally communicate in step S54, the telecommunication control device 207 is a communication device having a failure of the ADSL modem 205 or the VPN modem 206. Reset and return (S56).

Figure 6 is another embodiment of the operation flowchart of the GPS monitoring station operating monitoring system according to the present invention.

Referring to FIG. 6, when the AC power is recognized as 220V by the AC voltmeter 213 by the supply of the 220V commercial power 200, the GPS observatory pillar is constantly displayed by the voltage output from the charger 203 connected to the 220V commercial AC power. All the equipment inside is operated, and charging of the large capacity battery 203 is performed.

However, when the supply of the 220V commercial power 200 is stopped, the large capacity battery 204 charged by the charger 203 connected from the 220V commercial power 200 supplies the alternative power.

Referring to FIG. 6, when 220V commercial power 200 is supplied into the GPS constant time station pillar, it is determined by the AC voltmeter 213 whether the AC power is 220V (S61 and S62).

At this time, when the power supplied is 220V, the power is supplied to the charger 203, and the charger 203 operates equipment inside the GPS constantly-observing station pillar (S63 and S64).

In addition, the large capacity battery 204 is charged by the 220V power supplied to the charger 203 (S65).

In the determining step S62, when it is determined that the AC power is not 220V by the AC voltmeter 213, the large capacity battery 204 is operated to output DC 24V power from the large capacity battery 204 to provide equipment inside the GPS permanent observation station pillar. It is activated (S66, S67).

At this time, when the minimum voltage is set in the DC voltmeter by the operation monitoring program 220 for the uninterrupted operation of the GPS receiver, the DC voltmeter 2 (215) to reach the minimum voltage set value for uninterrupted operation of the GPS station Monitor the voltage up to and supply DC power to the station equipment including the GPS receiver 201 by the large capacity battery 204 until the lowest voltage set point.

Here, when it is detected that the minimum voltage set value is reached by the DC voltmeter 2 (215), the battery 204 stops supplying power to all equipment except the GPS receiver of the GPS station.

In addition, by monitoring the DC voltage supplied from the charger 203 by the DC voltmeter 1 (214) and stops the power supply to all the equipment of the GPS observation station when reaching the minimum voltage for protecting the large capacity battery 204.

In the above description, the technical idea of the GPS monitoring station operating system and method of the present invention has been described with the accompanying drawings, but this is by way of example and not by way of limitation.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

1 is a block diagram of a general GPS monitoring station system.

2 is a block diagram of a GPS monitoring station operation monitoring system according to the present invention.

3 is an embodiment of an operation flowchart of the GPS monitoring station operation monitoring system according to the present invention.

Figure 4 is another embodiment of the operation flowchart of the GPS monitoring station operating monitoring system according to the present invention.

Figure 5 is another embodiment of the operation flowchart of the GPS monitoring station operating monitoring system according to the present invention.

Figure 6 is another embodiment of the operation flowchart of the GPS monitoring station operating monitoring system according to the present invention.

7 is an embodiment of a database structure of a GPS monitoring station operating monitoring program.

* Description of the main parts of the drawings *

101, 201: GPS receiver 103, 204: battery

104: telephone modem 107: inclinometer

109, 203 Charger 200: 220V

205: ADSL modem 206: VPN modem

207: remote communication control device 209: fan

210: heater 211: thermometer

212: hygrometer 213: AC voltmeter

214: DC Voltmeter 1 215: DC Voltmeter 2

220: operation monitoring program 221: database

Claims (11)

In the GPS station monitoring system including a GPS receiver, a battery, an inclinometer, a telephone modem, a thermometer, a hygrometer, a fan, and a heater, Communication device including VPN modem and ADSL modem which outputs data including temperature, humidity, voltage AC, voltage DC, and slope information inside GPS constant station pillar through TCP / IP communication and receives operation monitoring processing command from outside. ; A GPS monitoring station operating monitoring program of a central processing center for receiving the information data from the communication device and displaying and monitoring the received information data; And GPS monitoring station operating system, characterized in that it comprises a database located in the central processing center for storing the information data with time. The method of claim 1, The operation monitoring program of the central processing center sets the maximum temperature inside the GPS monitoring station, and when the temperature inside the GPS monitoring station rises to reach the maximum temperature setting value, the thermometer detects this and sends it to a relay linked with the thermometer. GPS station monitoring system, characterized in that to operate the connected fan to lower the temperature inside the GPS station. The method of claim 1, In the monitoring program of the central processing center, the minimum temperature inside the GPS station is set, and when the temperature inside the GPS station decreases to reach the minimum temperature setting value, the thermometer detects this and supplies the relay with the thermometer. GPS continuous station operating monitoring system, characterized in that to increase the temperature inside the GPS station. The method of claim 1, The operating monitoring program of the central processing center sets the maximum humidity inside the GPS monitoring station, and when the humidity rises to reach the maximum humidity setting value, the hygrometer detects this and the fan is connected to the hygrometer. GPS station monitoring system, characterized in that to lower the humidity by operating. The method of claim 1, When the communication device including the ADSL modem or the VPN modem fails, and data communication with the operation monitoring program of the central processing center is not smooth, the remote controller which resets the ADSL modem or the VPN modem and resumes communication GPS station monitoring system further comprising a communication control device. The method of claim 1,  When the supply of the 220V commercial power is interrupted, when the large-capacity battery charged by the charger supplies the alternative power, the continuous observation station reaches the minimum voltage set by the operation monitoring program for uninterrupted operation of the GPS monitoring station. A DC voltmeter which monitors the DC power supplied to the equipment and stops supplying power to all the equipment except the GPS receiver at the GPS station when it is detected that the minimum voltage setting value has been reached. Always-on station operating monitoring system. (a) waiting for a GPS continuous station connection in an operation monitoring program of a central processing center and checking a connection attempt; (b) if the connection attempt result is not connected, the operation monitoring program continuously waits for access to the GPS station and maintains the station connection if the connection attempt result is confirmed; (c) the operation monitoring program setting the highest and lowest temperature values through a telecommunication control device to be operated inside the station pillar; (d) monitoring the current temperature inside the station at any time in a thermometer inside the station; (e) detecting a temperature when the current temperature inside the GPS station is higher than the maximum temperature set value with respect to the set maximum temperature value, and operating a fan by driving a relay connected to the thermometer; And (f) GPS constants including the step of operating the heater by detecting the temperature and operating the relay connected to the thermometer when the current temperature inside the GPS constant station falls below the minimum temperature set value for the set minimum temperature value; How to monitor station operations. (a) waiting for a GPS continuous station connection in an operation monitoring program of a central processing center and checking a connection attempt; (b) if the connection attempt result is not connected, the operation monitoring program continuously waits for access to the GPS station and maintains the station connection if the connection attempt result is confirmed; (c1) the operation monitoring program comprising: setting a maximum humidity value through a telecommunications control device to be operated inside the station pillar; (d1) monitoring the current humidity inside the station at all times by the hygrometer inside the station; And (e1) GPS including the step of operating a fan by detecting a hygrometer when the current humidity inside the GPS station is higher than the maximum humidity setting value with respect to the set maximum humidity value and driving a relay connected to the hygrometer. How to monitor permanent station operations. (Iii) transmitting a monitoring command from the operation monitoring program to the ADSL modem, and transmitting the monitoring command from the ADSL modem to the VPN modem; (Ii) a monitoring command via the VPN modem enters a telecommunications control device, and the telecommunications control device checks whether the ADSL modem or the VPN modem communicates normally to determine whether it is in normal operation; (Iii) transmitting and receiving data, such as temperature, humidity, voltage, and inclination value, to the operation monitoring program 220 of the central processing center as monitoring data when both the ADSL modem and the VPN modem operate normally in step (ii); And (Iii) If there is a communication failure in which the ADSL modem or the VPN modem does not normally communicate in the step (ii), the telecommunications control device operates the GPS constantly observing station including resetting the failed communication device among the ADSL modem or the VPN modem. Monitoring method. (A) if 220V commercial power is supplied into the GPS receiver pillar, determining whether the AC power is 220V by an AC voltmeter; (B) when the power supplied is 220V, the power is supplied to the charger, and the charger operates the equipment inside the GPS always-on station pillar in the charger; (C) charging a large capacity battery by 220V power supplied to the charger; And (D) in the step (A), if it is determined that the AC power is not 220V by the AC voltmeter, the large-capacity battery is activated to output the DC 24V power from the large-capacity battery includes the step of operating the equipment inside the GPS permanent observation station pillar GPS monitoring station operation monitoring method. The method of claim 10, Setting a minimum voltage on the DC voltmeter by an operating monitoring program for uninterrupted operation of the GPS station; And If the DC voltmeter connected to the large capacity battery is detected to reach the lowest voltage setting, the operation of the continuous GPS station, characterized in that further comprising the step of stopping the power supply from the battery to all equipment except the GPS receiver of the GPS station Monitoring method.

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