KR20050068709A - Accident monitoring system - Google Patents

Abstract

The present invention discloses a disaster monitoring system.

Disaster monitoring system according to the present invention is installed in a mountainous region, the observer for detecting and collecting changes in rainfall detection, rainfall, wind speed, air pressure, noise, temperature, humidity, wind direction and the like; A data collector connected to the observer to receive data and performing data transmission / reception with a central control server located at a remote location using a CDMA2000-based wireless mobile communication modem; A terminal for enabling voice transmission and reception with a central control server using the wireless mobile communication modem; A warning light operated by receiving a control signal of the data collector; It is configured to include a solar power supply which is provided integrally with these devices by supplying power to the observer, the data collector, the terminal and the warning light.

The disaster monitoring system configured and operated as described above may be useful for emergency rescue of mountaineers in case of distress by installing in national parks where many mountaineers go, and there is an advantage that immediate response can be made in case of forest fire. In addition, by establishing a nationwide network of disaster occurrences, combined with satellites, nationwide disaster prediction, monitoring and response are possible.

Description

Accident monitoring system

The present invention relates to a disaster monitoring system, and more particularly, a plurality of unmanned observation transceivers capable of transmitting forest fire and weather surveillance and rescue signals of distressed persons are connected to a local area network, and these observation transceivers are located at remote locations. The present invention relates to a disaster monitoring system that enables interworking with a disaster prevention center server through wireless mobile communication.

In today's society, there are rapid environmental changes caused by global warming and El Niño, which are rising in temperature due to increased emissions of pollutants such as carbon dioxide due to industrialization and industrialization, and deforestation. Extreme weather events, such as heavy snow, heavy rain or wildfires, are frequently occurring.

Such extreme weather not only reduces business facilities by increasing production facilities damage, production disruptions, and logistics costs, but also causes local damage in a very short time.

While the current weather forecasting system that monitors the above extreme weather forecasts for a wide range of regions through meteorological satellites, detailed weather information cannot be delivered to local places such as mountain valleys and riverside amusement parks. It remains defenseless.

For example, if there is heavy rain or heavy snow due to extreme weather when going to bed late at night, such as mountain valleys, the management office receives primary weather notification from the central control agency and delivers it again within a short time. It was not possible to prepare for the floods that occurred.

In addition, since the central control agency provides most of the weather information of the current time, and the weather information is also provided for a comprehensive area, it is practical for local weather anomalies that may occur at a specific place as described above. It does not have a great effect on disaster prevention.

In summary, weather-related information is a weather forecast that depends on weather satellites and weather sites, and its effects are insignificant, and it is difficult to transmit real-time information in extreme weather conditions in disaster prevention areas. In addition, in order to provide real-time meteorological disaster-related information using a wired communication network, it is necessary to actively install a weather observation system in a specific area. However, since the installation location of the weather observation system is limited, it is difficult for accurate weather observation and forecast for the area. There is a problem.

In other words, there are ways to monitor visible disasters such as forest fires, such as a person directly climbs the watch tower or using a satellite, but the situation is not able to properly monitor forest fires due to the cost and inefficiency of the equipment.

In addition, the flooding of the valleys due to heavy rains, avalanches, earthquakes, and other disasters do not have a communication network, so it is very difficult for hikers to recognize them, and it is very difficult to report them.

The present invention has been made to solve the above problems, and an object of the present invention is to apply a solar cell power supply method to a local area such as a mountain valley or a disaster risk zone, and to transmit and receive data through an RF local area network. An observation transmitter and receiver, and at least one of these observers is equipped with a CDMA2000-based wireless mobile communication modem to enable real-time data transmission and reception with a meteorological central control server. It is to provide a disaster monitoring system to minimize the damage caused by weather changes.

Disaster monitoring system according to the present invention for realizing the above object is installed in a mountain area, an observer for detecting and collecting changes in rainfall detection, rainfall, wind speed, air pressure, noise, temperature, humidity, wind direction, etc. Wow; A data collector connected to the observer to receive data and performing data transmission / reception with a central control server located at a remote location using a CDMA2000-based wireless mobile communication modem; A terminal for enabling voice transmission and reception with a central control server using the wireless mobile communication modem; A warning light operated by receiving a control signal of the data collector; It is characterized in that it comprises a solar power supply which is provided integrally with these devices to supply power to the observer, the data collector, the terminal and the warning light.

As a preferred feature of the invention, the observer, and the sensor unit for collecting weather information; It is comprised by the sensor control part which controls the said sensor part, and processes the information input from a sensor part and applies it to a data collector.

In another preferred aspect of the present invention, the data collector comprises: a receiver for collecting data transmitted from the observer; A data storage unit for storing the information collected through the receiving unit; A transmitting unit for transmitting the information stored in the data storage unit to a weather central control server through a wireless communication modem; It is comprised from the control part which controls the operation | movement of the said receiving part and a transmitter part.

As another preferable feature of the present invention, the solar power supply is composed of a solar cell, a charge controller and a battery.

In another preferred aspect of the present invention, the transmitting unit includes an RF short-range wireless communication modem.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are consistent with the technical spirit of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to explain the invention in the best way. It must be interpreted as meaning and concept.

Hereinafter, a preferred embodiment of a disaster monitoring system according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing the overall configuration of the disaster monitoring system according to the present invention, Figure 2 is a block diagram showing the connection configuration of the observer in the disaster monitoring system according to the present invention.

And, Figure 3 is a block diagram showing the connection configuration of the data collector in the disaster monitoring system according to the present invention.

As shown therein, the disaster monitoring system according to the present invention comprises a plurality of observation transmitting and receiving apparatuses, and the several observation transmitting and receiving apparatuses are interworked with each other by RF short-range communication, and any one of these observation transmitting and receiving apparatuses is CDMA2000. Equipped with a wireless mobile communication modem based on the configuration of the data transmission and reception in real time with the weather central control server 60 located in a remote place.

Looking at the configuration of the observation transmitting and receiving device in the disaster monitoring system as described above, the observer 10 for collecting weather information, the data collector 20 for receiving the data from the observer 10 and the wireless mobile communication modem The warning lamp 40 and the observer 10 and the data collector 20 which operate by receiving the control signal of the terminal 30 and the data collector 20 which enable the voice transmission and reception with the central control server 60 using It is composed of a solar power supply 50 for supplying power to.

The observer 10 detects changes in rainfall detection, rainfall, wind speed, barometric pressure, noise, temperature, humidity, wind direction, and collects them and outputs them. The sensor unit collects various weather information and fire related information. (11) and the sensor control part 12 which controls the sensor part 11, processes the information input from the sensor part 11, and applies it to the data collector 20. As shown in FIG. Here, the sensor of the observer 10 may include a camera.

The data collector 20 is a device that collects the weather information applied from the observer 10 and relays the weather information to the weather central control server 60. The data collector 20 is equipped with a CDMA2000-based wireless mobile communication modem to perform real-time remote data transmission and reception. .

The data collector 20 includes a receiver 21 for collecting data transmitted from the observer 10 and a data storage 22 for storing information collected through the receiver 21. Transmitter 23 for transmitting the weather information stored in the data storage unit 22 to the meteorological central control server 60 via a wireless mobile communication network, and a control unit for controlling the operation of the receiver 21 and the transmitter 23 ( 24).

The terminal 30 is connected to the central control server 60 using the CDMA2000-based wireless mobile communication, the terminal 30 is utilized for rescue requests.

The beacon 40 is a flashing light that is operated under the control signal of the data collector 20, so that the hiker can safely move to the descending or safety area 51 after sunset. The control method of such a warning light 40 may be variously changed.

The solar power supply 50 supplies power to the above-described devices, and in the present invention, the observer 10, the data collector 20, the terminal 30, the warning light 40, and the solar power supply 50 are provided. ) To be integrally packaged to increase installation and mobility.

The solar power supply 50 is composed of a solar cell 51, a charge controller 52 (charge controller) and a battery 53, basically through the solar cell 51, the observer 10 and the data collector ( It is preferable to be integrated with each device so as to supply the power necessary for 20, and when the surplus power is charged to the battery 53, which is the storage battery 51, when the use of the solar cell 51 is impossible (night, rainy weather) Etc.) to maintain a stable power supply.

Meanwhile, the present invention proposes that a plurality of observation transmitting and receiving devices are basically configured, and these observation transmitting and receiving devices are preferably configured as shown in FIG. 2.

That is, when a plurality of observation transmitting and receiving devices are installed in adjacent locations, they are connected in parallel through an RF short-range wireless communication network, and at least one of the observation transmitting and receiving devices is a wireless mobile communication network with the weather control center 60 located at a remote location. This configuration is connected via (CDMA2000). In this case, the plurality of observation transmitting and receiving devices are assigned a unique code number, and the collected information is preferably processed for each observation transmitting and receiving device.

By such a configuration, the plurality of observation transceivers are networked through RF short-range wireless communication, and the networked group observation transceivers are connected to the weather central control server 60 through at least one CDMA2000-based wireless mobile communication network. .

The disaster monitoring system configured as described above is operated as follows.

First, it is preferable that the disaster monitoring system according to the present invention be installed and operated in a region where an accident occurs frequently or in an expected region among mountain regions. Each of the observation transceivers is connected to each other via RF short-range wireless communication, and at least one of the observation transmission / reception apparatuses is linked to a meteorological central control server 60 located at a remote location through a wireless mobile communication network based on CDMA2000. do.

With this configuration, each of the observation transmitting and receiving devices acquires weather and disaster information and transmits weather information to other observation transmitting and receiving devices connected to short-range wireless communication. Finally, the wireless mobile communication modem based on CDMA2000 is installed. Observation is transmitted to the transceiver.

Subsequently, the observation transmission / reception apparatus equipped with the wireless mobile communication modem transmits weather information collected from various observation transmission / reception apparatuses to the meteorological central control server 60 located at a remote location.

In this way, the weather information transmitted to the meteorological central control server 60 provides a corresponding information to the disaster response system and the meteorological institution server when an abnormal occurrence is detected so that quick and appropriate disaster prevention can be performed.

In addition, since the warning light 40 and the terminal 30 are integrally provided, the hiker who is hiking may use the rescue light to prevent a distress accident.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

The disaster monitoring system configured and operated as described above may be useful for emergency rescue of mountaineers in case of distress by installing in national parks where many mountaineers go, and there is an advantage that immediate response can be made in case of forest fire.

In addition, by establishing a nationwide network of disaster occurrences, combined with satellites, nationwide disaster prediction, monitoring and response are possible.

1 is a block diagram schematically showing the overall configuration of a disaster monitoring system according to the present invention,

2 is a block diagram showing the connection configuration of the observer in the disaster monitoring system according to the present invention,

3 is a block diagram showing the connection configuration of the data collector in the disaster monitoring system according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: observer 11: sensor

12: sensor control unit 20: data collector

21: receiver 22: storage

23 transmission unit 24 control unit

30: terminal 40: warning lights

50: solar power supply 51: solar cell

52: Charge Controller 53: Battery

60: central control server

Claims (5)

An observer which is installed in a mountain area and detects changes in rainfall detection, rainfall, wind speed, air pressure, noise, temperature, humidity, wind direction, and collects them and outputs them; A data collector connected to the observer to receive data and performing data transmission / reception with a central control server located at a remote location using a CDMA2000-based wireless mobile communication modem; A terminal for enabling voice transmission and reception with a central control server using the wireless mobile communication modem; A warning light operated by receiving a control signal of the data collector; A solar power supply which is integrated with these devices to supply power to the observer, the data collector, the terminal, and the beacon; Disaster monitoring system, characterized in that configured to include. The method of claim 1, wherein the observer, A sensor unit for collecting weather information; A sensor control unit which processes the information input from the sensor unit and controls the sensor unit and applies the information to the data collector; Disaster monitoring system, characterized in that consisting of. The method of claim 1, wherein the data collector, A receiver for collecting data transmitted from the observer; A data storage unit for storing the information collected through the receiving unit; A transmitting unit for transmitting the information stored in the data storage unit to a weather central control server through a wireless communication modem; A controller for controlling operations of the receiver and the transmitter; Disaster monitoring system, characterized in that consisting of. The disaster monitoring system of claim 1, wherein the solar power supply comprises a solar cell, a charge controller, and a battery. 4. The disaster monitoring system according to claim 3, wherein the transmitter includes an RF short range wireless communication modem.