KR101491764B1 - Detecting toxic substance system using base station - Google Patents

Abstract

The present invention relates to a system for detecting a toxic substance using a base station, capable of predicting a moving course of a toxic substance with a sensor which is installed in every base station to detect the toxic substance in the air. The system of the present invention comprises: a toxic substance detector which is installed in a base station to detect a toxic substance in the air and to generate an alarm signal; and a control center to receive the alarm signal from the toxic substance detector, thereby predicting a moving course of the toxic substance in the air, surely taking an initial action on the toxic substance which is moved in the air by outputting an alarm in the predicted course (point), and minimizing damage which may be caused due to the toxic substance.

Description

TECHNICAL FIELD [0001] The present invention relates to a detection system for detecting toxic substances using a base station,

The present invention relates to a system for detecting a toxic substance using a base station, and more particularly, to a system for detecting a toxic substance using a base station capable of predicting a path of a toxic substance, .

The current international situation is increasing the frequency and severity of terrorism. In Korea, too, the probability of terrorism increases due to various reasons such as troop dispatch to Iraq and the confrontation between North and South Korea, and there is also danger of sabotage according to the rigidity of the labor market. Especially, the countermeasures against chemical terrorism and its strategy are very minimal.

In 1995, there were about 6,300 victims of SARIN gas in Japan, a so-called omniscient affair. In 2013, about 1,300 victims were reported to be caused by SARIN gas in Damascus, the Syrian capital. As such, the danger of chemical terrorism is increasing and especially Korea is exposed to the threat of North Korea, so the risk of chemical terror is high.

In addition to these chemical terrorist attacks, the recent epidemic of livestock epidemics has raised socioeconomic problems and has become a major issue both domestically and internationally. Domestically, livestock diseases are frequently caused by the grouping of livestock breeding and dense breeding, and the international trade volume is increasing due to the opening of the world livestock market outside the country. As a result, human and material exchanges have expanded, , The problem of livestock hygiene and disinfection has become a social issue.

The outbreak of livestock epidemics results in direct damages related to the payment of costs in terms of demand and supply of the livestock and indirect damage due to reduced sales and demand of the related industries. For example, pig cholera and foot-and-mouth disease caused by the inflow of foreign infectious diseases in Korea became a problem. Recently, avian influenza has become popular and a large amount of chickens have been disposed of.

It is common that the pathogen of gas and livestock infectious diseases caused by the above chemical terrorism is contained in the air and is transmitted through human respiratory tract. It is time to develop a system that can detect toxic gases and pathogens contained in air.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a method for predicting a movement route of toxic substances contained in air such as sarin gas and avian influenza, And a system for detecting a toxic substance using the base station.

According to an aspect of the present invention, there is provided a system for detecting a toxic substance using a base station, the system comprising: a toxic substance detector installed in a base station for detecting a toxic substance in the air and generating an alarm signal; And a control center for receiving an alarm signal from the toxic substance detector, wherein the toxic substance detector comprises: a sensor unit for detecting a toxic substance contained in the air; A signal generator for generating an alarm signal when the sensor unit detects a toxic substance; And a transceiver for receiving the alarm signal from the signal generator and transmitting an alarm signal to a communication network connected to the base station, wherein the control center comprises: a signal receiver for receiving an alarm signal from the transceiver; A weather information section for updating the weather information in real time; A terrain information part for storing terrain information on the terrain around the base station; And a route predicting unit for predicting the route of the toxic substance by synthesizing the alarm signal transmitted from the signal receiving unit, the weather information provided from the weather information unit, and the terrain information provided from the terrain information unit. .

The system for detecting toxic bogies using a base station according to the present invention can detect a toxic substance contained in air such as sarin gas and avian influenza, (Point), it is possible to reliably and initially respond to toxic substances contained in the air and move, thereby minimizing the damage.

1 is a block diagram of a toxic substance detection system using a base station according to the present invention;
FIG. 2 is a schematic view of a toxic substance detector according to the present invention
Fig. 3 is a diagram showing the configuration of a control center according to the present invention

Hereinafter, a toxic substance detection system using a base station according to the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram of a toxicant detection system using a base station according to the present invention. The toxicant detection system using a base station according to the present invention is installed in a base station B to detect toxic substances in the air and generate an alarm signal And a control center 200 receiving an alarm signal from the toxic substance detector 100 and the toxic substance detection unit 100.

The base station B is a wireless communication facility for connecting a network and a terminal for wireless communication services, and connects a cellular phone with an access network of mobile communication such as CDMA, GSM, and WCDMA. In addition, base station (B) is used for wireless communication such as WLL telephone, Wi-Fi, WiMAX, and WAN.

A range in which one base station is allocated to provide a service is referred to as a cell. As shown in FIG. 1, the base stations B are formed adjacent to each other, thereby covering the entire service providing area as a honeycomb so that a user moves from one cell to another Even if you do, you can continue to receive services.

As the communication technology develops recently, a base station B is formed in a major region of the country. The system for detecting a toxic substance using a base station according to the present invention is characterized in that a toxic substance detector 100 is installed in each base station and the thus installed toxic substance detector 100 detects toxic substances in the air, Lt; / RTI >

In addition, the toxic substance detector 100 is installed in the base station B and is operated by the power of the base station B, so that no separate power source is required.

FIG. 2 is a block diagram of a toxic substance sensing unit according to the present invention. The toxic substance sensing unit 100 includes a sensor unit 110 for sensing a toxic substance contained in air. A signal generator 120 for generating an alarm signal when the sensor unit 110 senses a toxic substance; And a transmitting and receiving unit 130 receiving an alarm signal from the signal generating unit 120 and transmitting an alarm signal to a communication network connected to the base station B. [

The sensor unit 110 is a component for detecting toxic substances contained in the air. Examples of the toxic substances include pathogenic substances such as nerve gas represented by sarin gas and VX, avian influenza and swine influenza.

Therefore, it is preferable that a plurality of sensors of various kinds are installed in the sensor unit 110, not a single sensor. A paper sensor capable of detecting nerve gas such as sarin gas and VX can be installed. In addition, a sensor including nanoparticles developed according to recent development of nanotechnology may be installed.

As described above, a plurality of sensors of various kinds are installed in the sensor unit 110 to detect various pathogens such as sarin gas, VX, etc., nerve gas contained in the air, avian influenza and swine influenza.

The signal generating unit 120 is a component for generating an alarm signal when the sensor unit 110 detects a toxic substance. The alarm signal is composed of data that can be transmitted wirelessly via the transmission / reception unit 130. [

The transmitting and receiving unit 130 transmits an alarm signal generated by the signal generating unit 120 and transmits an alarm signal to the control center 200 through the communication network N connected to the base station B.

FIG. 3 is a block diagram of a control center according to the present invention. The control center 200 includes a signal receiving unit 210 receiving an alarm signal from the transmitting / receiving unit 130; A weather information unit 220 for updating the weather information in real time; A terrain information unit 230 for storing terrain information on a terrain around the base station; A route predictor 240 for estimating a route of the toxic substance by synthesizing the alarm signal received from the signal receiver 210, the weather information received from the weather information unit 220, and the terrain information received from the terrain information unit 230, .

Further, when the toxic substance detector 100 detects a toxic substance, the toxic substance detector 100 further includes an alarm notification unit 250 for transmitting an alarm signal to the user's portable terminal within the coverage of the base station B provided with the toxic substance detector 100 .

The signal receiving unit 210 is a component that receives an alarm signal from the transmitting / receiving unit 130 through a communication network N connected to the base station B.

The weather information unit 220 is a component for updating weather information in real time, and is connected to a weather station to receive weather information from a weather station, stores the weather information, and updates the weather information in real time.

The terrain information unit 230 is a component for storing terrain information on the terrain around the base station B. [

The route predictor 240 is a component for predicting the route of the toxic substance by combining the weather information provided from the weather information unit 220 and the terrain information provided from the terrain information unit 230.

Toxic substances contained in air move together with the movement of air. Therefore, toxic substances contained in air are most affected by wind, especially weather. Also, in the rainy weather, toxic substances in the air are diluted with the rain, and most of it is absorbed into the ground. Thus, the possibility of infecting airborne nerve gas and pathogens such as sarin gas, VX, etc., to the respiratory tract is greatly reduced.

Air movement is affected not only by the weather but also by the surrounding terrain. When there is a large mountain around the base station (B), for example, a part of the air rises in the mountain or moves around the rim of the mountain. That is, the toxic substance contained in the air can be changed by the surrounding terrain.

To predict this air flow, the following equation can be calculated.

P _r and T _h are explained by the generation and dissipation of turbulent energy due to wind dispersion and thermal stratification, and Q _e and Q _ε are defined as the local terms for the occurrence and dissipation of turbulence in the vegetation. The term P _r , which represents mechanical generation, is used as a three-dimensional deformation variable of the local wind.

The T _h term for buoyancy generation is given by

To correct the epsilon-equation, the standard value c ₁ = 1.44, c ₂ = 1.92, c ₃ = 1.44.

In this manner, the route predictor 240 can predict the route of the toxic substance by synthesizing the weather information provided from the weather information unit 220 and the terrain information provided from the terrain information unit 230. In this way, the path predicting unit 240 predicts the movement path of the toxic substance and the possibility of movement to another area, thereby preventing the damage caused by the toxic substance in advance.

The control center 200 according to the present invention may further include an alarm notification unit 250. When the alarm signal is received and the alarm signal is received, the alarm notification unit 250 transmits an alarm signal to the user's portable terminal within the coverage of the corresponding base station (the cell range of the hexagonal shape of one base station shown in FIG. 1) . The alarm signal transmitted to the portable terminal is preferably in the form of a text message, and may be configured to generate an alarm sound while a character is transmitted to the portable terminal.

For example, when a toxic substance is detected in the toxic substance detection unit 100 installed in a certain base station, an alarm signal is transmitted to the control center 200, and the control center 200 transmits all the base station users And transmits the alarm signal to the portable terminal. Therefore, the user who receives the alarm signal to the portable terminal can quickly evacuate to the safe area, thereby minimizing the damage caused by toxic substances transmitted through the air.

The alarm notifying unit 250 also transmits an alarm signal to the user's portable terminal within the coverage of all the base stations included in the predicted path in the predicted path by the path predicting unit 240, in addition to the area where the toxic substance is detected. As in the above case, the user on the predicted path that has received the alert signal to the portable terminal can evacuate to a safe area in advance.

If a user within the coverage of the base station in the area where the toxic substance is detected receives an alarm signal to the portable terminal and evacuates, the user moves along the predicted path of the toxic substance in the absence of information on the predicted path of the toxic substance Problems may arise.

In order to prevent this, the alarm issuing unit 250 delivers the predicted path signal to the area where the toxic substance is detected. The predicted path signal is a signal including a predicted path of the toxic substance predicted by the path predictor 240. That is, the user of the area where the toxic substance is detected receives the alarm signal for the first time and receives the predicted path signal for the second time. Therefore, when the user in the area where the toxic substance is detected is evacuated, it helps to escape from the predicted route and to a safe place.

100: toxic substance detection unit 110: sensor unit
120: Signal generator 130: Transmitting /
200: control center 210: signal receiver
220: weather information section 230: terrain information section
240: path predicting unit 250:

Claims (4)

A toxic substance detector 100 installed in the base station B for detecting toxic substances in the air and generating an alarm signal; And
And a control center 200 receiving an alarm signal from the toxic substance detector 100,
The toxic substance detector (100)
A sensor unit 110 composed of a paper sensor for detecting a sarin gas contained in the air and a toxic substance of VX;
A signal generator 120 for generating an alarm signal when the sensor unit 110 senses a toxic substance;
And a transmitting and receiving unit 130 receiving the alarm signal from the signal generating unit 120 and transmitting an alarm signal to the communication network N connected to the base station B,
The control center 200
A signal receiving unit 210 receiving the alarm signal from the transceiver 130;
A weather information unit 220 for updating the weather information in real time;
A terrain information unit 230 for storing terrain information on a terrain around the base station;
A predicted path that predicts the movement path of the toxic substance by synthesizing the alarm signal received from the signal receiving unit 210, the weather information provided from the weather information unit 220, and the terrain information provided from the terrain information unit 230, A path predicting unit 240 for generating a path prediction signal; And
When the toxic substance detector 100 senses a toxic substance, the toxic substance detector 100 senses the toxic substance and transmits an alarm signal to the user's portable terminal within the coverage of the base station B equipped with the toxic substance detector 100, And an alarm notification unit (250) for delivering a predictive path signal including a toxic substance to the user's portable terminal within the coverage of the base station (B) equipped with the toxic substance sensor (100)
Wherein the alert notification unit (250) transmits an alert signal to a user's portable terminal within the coverage of the base station (B) in the predicted path. delete delete delete

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