KR101078273B1 - Ubiquitous Flood Forecasting/Warning System and Method - Google Patents

Abstract

The present invention discloses a ubiquitous flood forecasting and warning system and method.

The ubiquitous flood warning and warning method includes at least one rainfall meter and a river level sensor sensing rainfall and river level in a specific region, a data collection device collecting sensed rainfall and river level data, and predicting The server receives the collected data from the data collection device to generate information including the flood amount, flood level, current river level using the flood prediction program, and the generated information on the mobile communication terminal or the Internet Providing to the step.

According to the present invention, any river flood is predicted from the rainfall data, and if a certain level rise is predicted through the flood prediction program of the prediction server, an alarm is immediately sent to the mobile terminal to the user, and users need this information. At any time, the mobile communication terminal can be contacted to the server to receive information, thereby enabling interactive services.

Ubiquitous, Flood Warning & Warning, CDMA, Data Logger

Description

Ubiquitous Flood Forecasting / Warning System and Method

The present invention relates to a ubiquitous flood warning and warning system and method, and more particularly, the data collection device stores the rainfall and river level data collected by the sensor, and transmits the data to the prediction server. The flood is predicted by linking with the calculation program, and the forecast is directly transmitted to the user's mobile terminal through a message such as SMS (Short Message Service), or the flood is provided by the user by directly connecting with the prediction server. Examples and alarm systems and methods.

Climate change refers to average climate fluctuations for decades or more. An artificial increase in greenhouse gases since the Industrial Revolution is known to accelerate global warming and cause changes in average climate. In a climate prediction research using (Global Circulation Model) GCM, as the amount of CO ₂ increases in the atmosphere is still believed among scholars that it would cause frequent floods and droughts.

According to the IPCC's 2001 report, based on observations over the past 100 years, temperatures have risen by 0.3 to 6 ° C, carbon dioxide concentrations have increased by 30%, and temperatures are expected to rise by 1.4 to 8 ° C by 2100. .

Global warming causes changes in precipitation, precipitation characteristics, and evapotranspiration, which not only affect the water cycle in the watershed, but also affect the change in water resources and the frequency and magnitude of floods and droughts.

According to the study of domestic climate change and water impact, vulnerability of flood and drought, which are extreme events among Korean meteorological disasters, is increasing, and flood damage is expected to increase especially in most basins.

In order to reduce the flood damage caused by climate change, it is necessary to always monitor the river or river level data in all places in real time, and provide data on the flood forecast due to rainfall to the public or customers.

Especially in the recent cases where floods occur due to sudden concentrated rainfall, it is important to predict and warn about the occurrence of floods, and to prepare for them.

However, since the existing flood forecasting and warning was made through the media at the agency in charge, there was a limit in providing information to specific people and the public at the same time.

Therefore, it is necessary to develop a data transmission device that collects data and transmits it to a server, and a ubiquitous technology that can provide a general customer with interactive service anytime, anywhere.

The present invention has been invented to improve the prior art as described above, and provides a flood forecasting, alarming system and method that allows general customers to obtain flood forecasting and warning data interactively anytime, anywhere without place and time constraints through a mobile phone. The purpose is to provide.

Another object of the present invention is to provide a flood warning / alarm system and method which not only enables a user to monitor a site situation but also actively issues a flood alarm when an emergency occurs.

In order to achieve the above object and to solve the problems of the prior art, an embodiment of the present invention provides a ubiquitous flood warning and warning method. The ubiquitous flood warning and warning method includes at least one rainfall meter and a river level sensor sensing rainfall and river level in a specific region, a data collection device collecting sensed rainfall and river level data, and predicting The server receives the collected data from the data collection device to generate information including the flood amount, flood level, current river level using the flood prediction program, and the generated information on the mobile communication terminal or the Internet Providing to the step.

In this case, the predicting server may further include transmitting a text message to the mobile communication terminal when the calculated flood amount, flood level, current river level exceeds a preset criterion.

Another embodiment of the present invention provides a ubiquitous flood warning system. The ubiquitous flood forecasting and warning system includes at least one rainfall meter and river level sensor for detecting rainfall and river level in a specific area, and a data collection device for collecting rainfall and river level data sensed from the rainfall meter and the river level sensor. And a prediction server configured to receive the data collected from the data collection device, generate information including the flood amount, the flood level, and the current river level of the specific area, and provide the generated information on a mobile communication terminal or the Internet. Can be.

At this time, the prediction server delivers a text message to the mobile communication terminal when the calculated flood amount, flood level, current river level exceeds a predetermined criterion.

In this case, the prediction server may receive data collected from the data collection device in real time or periodically.

In addition, the current river level is used to correct the flood level calculated by the flood prediction program.

According to the flood forecasting and warning system and method of the present invention, a flood of any river is predicted from the rainfall data, and if a certain level rise is predicted through the flood forecasting program of the prediction server, an alarm is sent to the mobile terminal immediately. When the users need this information, they can contact the server with the mobile terminal at any time and receive the information, thereby enabling the interactive service.

In addition, another effect of the present invention is that the user can receive on-site rainfall and river water level, and the estimated flood volume and flood level through a text service in real time, not only to monitor the site situation, but also predictive server actively Flood alerts can be issued in case of emergency, so it can be used as a flood forecasting and warning system.

Hereinafter, with reference to the accompanying drawings will be described in detail the ubiquitous flood example, alarm system and method according to an embodiment of the present invention.

1 is a diagram illustrating the configuration of a ubiquitous flood warning and warning system according to an embodiment of the present invention.

The ubiquitous flood warning / alarm system according to an embodiment of the present invention includes components such as a rainfall meter 111, a river level sensor 112, a data collection device 120, and a prediction server 130. These components are described as follows.

The rainfall meter 111 and the river level sensor 112 are installed at a predetermined position (a point for calculating the rainfall amount and the river level) of the river or the river basin. Therefore, these rainfall meters 111 and the river water level sensor 112 sense the rainfall and the river level at the installed place, and transmits it to the data collection device 120.

The installation point of the rainfall meter 111 and the river water level sensor 112 may be made of one or a plurality, and wired communication such as RS-232, Code Division Multiple Access (CDMA), Infrared Data Association (IrDA), The rainfall and river level information sensed using a wireless communication technology such as Bluetooth is transmitted to the data collection device 120.

Accordingly, the data collection device 120 receives and stores rainfall and river water level data from the sensor devices 111 and 112 by wire or wirelessly, and transmits the data to the prediction server 130 through the CDMA module.

As such a data collection device, a general-purpose data logger such as LogoSens or CR1000 may be used. These general-purpose data loggers display output values in terms of voltage and current. RS-232 communication devices, pt100, pulse output, and input channels of water quality measurement data are provided. Not only can it be received as an input, it also has a storage capacity of its own (10,000 MB (extendable to 4 MB) for LogoSense can store 100,000 measurements).

Of course, one embodiment of the present invention illustrates this general-purpose data logger for convenience of understanding, but the present invention is not limited thereto and may be applicable to any device for collecting and transmitting data.

The prediction server 130 receives the rainfall and river level data from the data collection device 120 through the mobile communication network 100 and generates information necessary for calculating the flood amount.

The prediction server 130 may provide the mobile communication terminal 150 with information including the rainfall and the river water level data through a message such as an SMS. Of course, a flood prediction program 131 is installed for this purpose, and a prediction information database 132 for implementing the flood prediction program 131 and providing the predicted information is configured. As the flood prediction program, for example, HEC-1, HEC-RAS, HMS, statistical methods and the like can be used.

 The prediction information database 132 is stored in a storage medium such as a hard disk drive or a tape. In addition, although FIG. 1 includes only the prediction server 130 and the prediction information database 132, a separate server or a backup server managing only the database may be provided.

The prediction information database 132 includes information such as rainfall and river level data sensed by the rainfall meter 111 and the river level sensor 112, location, topography, previous rainfall, evaporation amount, and the like. In addition, an access web page for providing to a user who wants to access the prediction server 130 using the mobile communication terminal 150 or a client computer (not shown), a web page file for providing flood prediction information, and the like are stored.

Here, the web page file includes all web page documents provided by the prediction server 130 by the flood prediction program 131 as well as the web page document that is first encountered when the user accesses the server. Since this type of web page is widely known on the Internet, further description will be omitted for a clear understanding of the present invention.

The web page document here is not necessarily an html file, but may be composed of other languages such as Java, personal home page tools (php), active server pages (XML), and XML.

Thus, the prediction server 130 may provide the rainfall and river water level data to other Internet users through a website on the Internet.

The mobile communication terminal 150 is applicable as long as it is mobile and transmits and receives communication signals. For example, a mobile phone, a personal digital assistant (PDA), a portable multimeida player (PMP), a notebook, and the like may be used.

Of course, the mobile communication terminal 150 is connected to the prediction server 130 through the mobile communication network 140.

Next, a method of executing a flood warning / alarm using the ubiquitous flood warning / alarm system according to an embodiment of the present invention will be described. A diagram showing this is shown in FIG. 2. That is, FIG. 2 is a flowchart showing a process of executing a ubiquitous flood example / alarm using the system diagram shown in FIG.

The rainfall and the river level are sensed using the rainfall meter 111 and the river level sensor 112 (step S200). That is, the rainfall meter 111 and the river level sensor 112 installed in a specific area are installed at a predetermined position (a point for calculating rainfall amount and river level) in a river or river basin, and sense rainfall and river level in real time. In addition, a process of transmitting the sensed rainfall and river level data to the data collection device is performed.

The data collection device 120 collects the sensed rainfall and river level data in real time and stores it in a memory stored therein (S210).

The data collection device 120 transmits the collected data to the prediction server (S220). Of course, the period of transmitting the collected data to the prediction server 131 may be real time, or may be periodically transmitted. Of course, the collected data may include information such as river location, terrain, and the like.

The prediction server 131 generates information for calculating a flood amount based on the data transmitted from the data collection device 120 (S230). That is, the prediction server 131 has a flood prediction program 131 is implemented, based on the data transmitted from the data collection device 120 so that the rainfall and river level in the river or river basin in the region exceeds the limited value. You will get a flood forecast or alert.

In detail, the prediction server 130 may use, for example, a flood prediction program 131 such as HEC-1, HEC-RAS, HMS, or a statistical method to store rainfall, river level, and danger level in the database 132. The estimated flood volume, flood level, current river level, etc. are calculated using the data.

Of course, the prediction server 131 may transmit the generated information to the mobile communication terminal 150 of the pre-registered user as a message or provide the information to the user on the Internet (step S240).

In addition, the river water level data stored in the prediction server 130 may be used to correct the flood level calculated by the flood prediction program.

As another example, when the calculated flood amount, flood level, current river level exceeds a predetermined standard, the prediction server 130 actively transmits an alert message by text through the mobile communication terminal 150 of users.

Of course, the user may directly connect to the prediction server 130 through the mobile communication terminal 150 to check the rainfall, the river level, the predicted flood level, the flood amount, and the like stored in the prediction server 130.

In the ubiquitous flood forecasting and warning system according to an embodiment of the present invention, the user can receive on-site rainfall and river water level, and predicted flood volume and flood level through a text service in real time so that the situation can be monitored. In addition, since the prediction server 130 can actively issue a flood alert when an emergency occurs, it is possible to actively use as a practical flood forecasting / alarm system.

As described above, the present invention has been described by way of limited embodiments and drawings, but the present invention is not limited to the above-described embodiments, which can be variously modified and modified by those skilled in the art to which the present invention pertains. Modifications are possible. Therefore, the spirit of the present invention should be grasped only by the claims described below, and all equivalent or equivalent modifications thereof will belong to the scope of the present invention.

1 is a diagram showing the configuration of a ubiquitous flood warning system according to an embodiment of the present invention.

FIG. 2 is a flow chart showing a process of executing a ubiquitous flood example / alarm using the system diagram shown in FIG.

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

111: rainfall meter

112: river water level sensor

120: data acquisition device

130: prediction server

131: Flood Prediction Program

132: prediction information database

150: mobile communication terminal

Claims (6)

At least one rainfall meter and river level sensor sensing the rainfall and river level in a particular area for which rainfall and stream levels are to be calculated; Collecting the sensed rainfall and river level data by the data collection device; Receiving, by the prediction server, the collected data from the data collection device and generating information including the flood amount, the flood level, and the current river level using the flood prediction program; Providing the generated information on a mobile communication terminal or the Internet; The data collection device becomes a universal data logger, the prediction server receives the data collected from the data collection device in real time or periodically,  The current stream water level is used for correcting the flood level calculated by the flood prediction program, the ubiquitous flood forecasting and warning method. The method of claim 1, And a step of forwarding, by the predicting server, a text message to the mobile communication terminal when the estimated flood, flood level, and current river level exceed a preset criterion. delete At least one rainfall meter and stream level sensor for sensing rainfall and stream levels in a particular region for which rainfall and stream levels are to be calculated; A data collection device configured to collect rainfall and river level data sensed by the rainfall meter and the river level sensor; Receiving data collected from the data collection device to generate information including the flood amount, flood level, current river level of the specific area, and includes a prediction server for providing the generated information on a mobile communication terminal or the Internet, The data collection device is a general-purpose data logger, the prediction server receives the data collected from the data collection device in real time or periodically,  The current stream water level is used for correcting the flood level calculated by the flood prediction program, the ubiquitous flood forecasting and warning system. The method of claim 4, wherein The prediction server is a ubiquitous flood forecasting and warning system that delivers a text message to the mobile communication terminal when the calculated flood, flood level, current river level exceeds a predetermined standard. delete

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