KR101048852B1 - Environmental information collection system - Google Patents

Abstract

Atmospheric, climate, soil, and noise data collected through mobile environmental measurement equipment are transmitted to the mobile terminal device for field survey, which is a gateway using ZigBee-based wireless communication technology, and the transmitted environmental information is verified by the field surveyor. Through the process, it is transmitted to server or control center by using wired / wireless communication.

Environmental Information, Movement Monitoring, Sensors, Sensor Networks

Description

System Information Collecting Environment Data

The present invention relates to a method for measuring environmental information, and more particularly, to a system for collecting environmental information for mobile monitoring point measurement using short range wireless communication technology.

Urban rapid growth and reckless development are major causes of urban environmental problems, degrading human quality of life and threatening the sustainability of urban environmental ecosystems.

Efforts to solve these problems have been variously attempted in urban environment and ecology, but there is a lack of concrete methods for systematic and scientific analysis of urban environmental problems.

In recent years, advanced urban development projects such as U-City are considering the introduction of environmental ecological urban design and management facilities, and the development and practical use of element technology applied with U-IT-based technology for pleasant and sustainable urban environment management in urban space. It is becoming.

In particular, domestic and foreign demand for environmental monitoring services continues to grow with the government's policy of low-carbon green growth, and the demand for integrated technologies between environmental ecology and U-IT technologies is increasing.

Until now, environmental information has been collected mainly from fixed measuring stations. Existing stationary stations have limitations that cannot be accurately measured in areas with severe air pollution or in cities because they are installed on independent rooftops or in regular spaces in areas with good vegetation environment.

In addition, the fixed measuring station occupies a certain space, it is difficult to install the facilities throughout the city.

In order to solve such a problem, the present invention is to provide an environmental information collection system that selects a measurable environmental ecological indicator and collects, transmits and displays environmental information through a mobile information collection device.

According to an aspect of the present invention, there is provided a system for collecting environmental information including: a GPS receiver for receiving a GPS signal from a GPS system and calculating a current position; An environmental ecology indicator generator configured to determine whether the environmental ecology information is a mobile measurement indicator or a fixed measurement indicator based on time-varying variability of environmental ecology information and a variation in unit time per hour of the environmental ecology information; A sensor for generating a normalized ecological indicator by considering information of at least one of the natural feature and the artificial feature, the density, and the height, and determining the sensor position based on the mobile measurement indicator, the fixed measurement indicator, and the environmental ecology indicator. A position calculator; And a plurality of sensors for sensing the ecological information, and integrating the plurality of sensors to transmit output values of the sensors and the calculated current location to a mobile terminal device serving as a gateway using a wireless communication technology. It includes an information processing unit.

According to an aspect of the present invention, a system for collecting environmental information generates a sensor detection signal for detecting a sensor, transmits the sensor detection signal to a surrounding area, and receives the sensor detection signal. The mobile environment information collection device includes a natural object and an artificial body. Receiving a sensor search result corresponding to the sensor detection signal from the environmental ecological indicator is generated in consideration of information on at least one of the location, density, and height of the feature and the sensor is determined based on the generated environmental ecological indicator. An environment information acquisition unit for transmitting an environment information request message requesting environment information to the mobile environment information collection device and receiving the environment information from the mobile environment information collection device; A location information processor for receiving a GPS signal from a GPS system and calculating a current location; And an environment information transmission unit for transmitting the environment information received by the environment information acquisition unit and the current location calculated by the location information processing unit to an environment information collection management system managing the environment information.

By the above-described configuration, the present invention can easily access an area requiring an environmental accident and measurement, such as a yellow dust source, to obtain the air environment data in real time at the intermediate point between the pollutant and the station.

According to the present invention, the user can receive and search data corresponding to specific environmental ecological information and spatial information among various environmental ecological information, thereby pioneering the environmental service market area.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is said to "include" a certain component, it means that it can further include other components, without excluding other components unless specifically stated otherwise.

1 is a view showing the configuration of the environment monitoring system for measuring the movement monitoring point according to an embodiment of the present invention.

An environment collection system for measuring mobile monitoring points according to an embodiment of the present invention includes a mobile environment information collection device 100, a mobile terminal device 200, and an environment information collection management system 300.

The mobile environment information collecting device 100 measures air, climate, soil, and noise data from a sensor measuring environmental ecology information and transmits the air, climate, soil, and noise data to a mobile terminal device 200 serving as a gateway using a ZigBee wireless communication technology. .

The mobile environment information collecting device 100 receives a GPS signal, calculates a current position of the sensor, and calculates an optimal position of the sensor using the calculated position and previously stored ecological indicators.

The mobile environment information collecting device 100 displays an appropriate position of the sensor on an output unit (not shown) when the optimal position of the sensor and the current position of the sensor calculated using the GPS signal differ by more than an error range.

The mobile terminal device 200 includes a personal terminal device capable of wireless communication such as PDA (Personal Digital Assistants), UMPC (Ultra Mobile PC), Hand Held Phone (Hand Held Phone).

The mobile terminal device 200 receives a GPS signal, calculates a current location of the terminal, executes an environment information collection application, collects and displays environment information received from the mobile environment information collection device 100, and collects the collected environment information and current. The location is transmitted to the environmental information collection management system 300 using a wireless network.

The environment information collection management system 300 collects, analyzes, and stores, in real time, environment information received from the mobile terminal device 200 or the mobile environment information collection device 100 through a wireless network.

The environment information collection management system 300 queries the collected environment information and performs efficient management of environment information in a database.

2 is a block diagram showing the internal configuration of a mobile environment information collection device according to an embodiment of the present invention.

The mobile environment information collection device 100 according to the embodiment of the present invention includes a GPS receiver 110, an environment ecology indicator generator 120, a sensor location calculator 130, and an environment information processor 140.

The GPS receiver 110 receives a GPS signal and calculates a current position of the mobile environment information collecting device 100.

The environmental ecological indicator generation unit 120 uses positive (negative) and negative indicators (sensitive, using the following equations (1), (2) and (3) for each environmental ecology information. Vulnerability). Here, the environmental ecology information includes sensing climate information such as climate information such as temperature, humidity, and wind direction, atmospheric information such as NO2 and SO2, soil information such as soil temperature and soil humidity, and vegetation information such as species diversity and vegetation cover. For the subject.

Here, a is the slope of the trend line with respect to the unit time variability, b is the y intercept of the trend line with respect to the unit time variability, Y is the variability of the ecological information of X time, X is the unit time.

Positive indicators represent the variability of unit time changes in environmental and ecological information.

The change tendency of environmental ecological information represents the slope (a) of the unit time variation variability and a is used as an index to interpret the environmental ecological information as adaptability and non-adaptive over time.

Positive slope indicates Less Adaptative and negative slope indicates More Adaptative.

Negative indicators represent the amount of change in unit time of environmental ecological information.

Where i is the start time, j is the last time, n is the total time (ij), Sn is the variability of the ecological information in n periods, Vi is the average value of the ecological information in the i period, and Vn is n Mean value of environmental and ecological information).

Vulnerability among negative indicators is calculated using the positive indicator of adaptability and the negative indicator of sensitivity.

Here, V means Vulnerability, S: Sensitivity, and A: Adaptation.

The environmental ecology indicator generation unit 120 determines whether it is a fixed measurement indicator or a mobile measurement indicator as shown in [Table 1] by using a positive indicator (adaptability) and a negative indicator (sensitivity, vulnerability).

The sensor location calculator 130 classifies and classifies the non- vegetation area and the vegetation area, and generates and stores a normalized second environmental ecology index considering the location, density, and height of natural and artificial lands. Here, the second environmental ecological index is calculated in consideration of the location and density of the object that may affect the actual sensing such as buildings, forests, grassland, and the height and height of each point.

The sensor position calculator 130 calculates an optimal position of the sensor based on the mobile measurement index, the fixed measurement index, and the normalized second environmental ecology index for the environmental information.

The sensor position calculating unit 130 outputs an appropriate position of the sensor when the optimum position of the sensor calculated by the sensor position calculation differs from the position of the sensor calculated using the GPS signal by more than an error range. ).

The environmental information processor 140 integrates the PM10, PM2.5, CO, CO2, TVOC, O3, NO2, SO2, solar radiation, wind direction / speed, noise, atmospheric pressure, precipitation, and temperature / humidity sensors to ZigBee. It transmits to the mobile terminal device 200 using a wireless communication technology.

3 is a block diagram illustrating an internal configuration of a mobile terminal device according to an embodiment of the present invention.

Mobile terminal device 200 according to an embodiment of the present invention is a user authentication unit 210, environmental information acquisition unit 220, environmental information input unit 230, location information processing unit 240, user interface unit 250, The environment setting manager 260 and the environment information transmitter 270 are included.

The user authentication unit 210 receives an ID and password information and performs a user authentication process by comparing the user information previously stored in the user database.

After performing the user authentication process, the environment information acquisition unit 220 generates a sensor detection signal for detecting a sensor using a ZigBee wireless communication technology, transmits the sensor detection signal to the surrounding area, and receives the sensor detection signal. The sensor search result corresponding to the sensor detection signal is received from the collection device 100.

For example, as illustrated in (a) of FIG. 4, the environment information acquisition unit 220 automatically searches for a peripheral sensor after user authentication and outputs a sensor list screen.

The environment information acquisition unit 220 generates an environment information request message for requesting environment information, transmits the generated environment information request message to the mobile environment information collection device 100 including a plurality of sensors, and receives the environment information from the mobile environment information collection device 100. . Here, the environmental information means an output value of the sensor measuring the environmental ecology information.

For example, as shown in FIG. 4B, when one sensor information is selected on the output sensor list screen, environment information is received from the corresponding sensor information.

As shown in (c) of FIG. 4, the environmental information acquisition unit 220 manages detailed items for each field of environmental ecology information, shows detailed items as a list when selecting a corresponding field, and adds an item when an add button is pressed. It adds a new item in the dialog box and modifies or deletes the selected item in the dialog box.

When the environment information input unit 230 does not receive the environment information from the mobile environment information collection device 100, the environment information input unit 230 receives a sensor value manually from the user.

The location information processor 240 receives a GPS signal and calculates a current location of the mobile terminal device 200.

The user interface 250 configures a user interface by dividing the environmental ecology information corresponding to the environmental information into fields in order to input or confirm the environmental information received from the mobile environment information collection device 100 (FIG. 5A). )).

The user interface 250 displays a screen configuration necessary for searching and collecting environmental information such as sensor list information output, sensor search, information input, and environment setting on an output unit (not shown).

The user interface 250 may receive and output the environmental information of the environmental ecology information from the input / confirmation page of the environmental ecology information, or may manually modify the input of data. For example, as shown in (b) of FIG. 5, when the "atmosphere information" is selected, data of detailed items of the environmental ecology information may be received and displayed from the sensor, or the user may input and modify the data.

The environment setting manager 260 sets an application environment related to connection information and the Zigbee reception with the environment information collection management system 300.

For example, as shown in FIG. 6, if the environment setting menu is selected, the environment setting manager 260 transmits a user ID and password when processing login authentication and receives a result of the authentication. Provide a Locator (URL) path.

When the environment setting manager 260 transmits the received environment information to the environment information collection management system 300, the environment setting manager 260 provides a URL path of a script page that receives and processes the environment information.

The environment information transmitter 270 transmits the environment information received from the mobile environment information collection device 100 and the current location received from the location information processor 240 to the environment information collection management system 300 using the HTTP protocol. .

The embodiments of the present invention described above are not implemented only by the apparatus and / or method, but may be implemented through a program for realizing functions corresponding to the configuration of the embodiment of the present invention, a recording medium on which the program is recorded And such an embodiment can be easily implemented by those skilled in the art from the description of the embodiments described above.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a view showing the configuration of the environment monitoring system for measuring the movement monitoring point according to an embodiment of the present invention.

2 is a block diagram showing the internal configuration of a mobile environment information collection device according to an embodiment of the present invention.

3 is a block diagram illustrating an internal configuration of a mobile terminal device according to an embodiment of the present invention.

4 is a diagram illustrating a user interface screen for searching for a peripheral sensor, outputting a sensor list, and selecting and displaying sensor information according to an exemplary embodiment of the present invention.

5 is a diagram illustrating a user interface screen required for searching and collecting environment information according to an exemplary embodiment of the present invention.

6 is a diagram illustrating a user interface screen required for setting an environment according to an embodiment of the present invention.

Claims (6)

An environment information collection system comprising an environment information collection device, an environment information collection management system, and a mobile terminal device serving as a gateway. A GPS receiver configured to receive a GPS signal from a GPS system and calculate a current position; A plurality of sensors for collecting environmental ecological information; Storing the environmental ecology information, and determining whether the environmental ecology information is a mobile measurement indicator or a fixed measurement indicator, based on the variability of the environmental ecology information with time and a variation in unit time per hour of the environmental ecology information, and a natural feature and an artificial feature. An environmental ecological indicator generator for generating a normalized environmental ecological indicator in consideration of any one or more pieces of information of a location, a density, and a height thereof; A sensor position calculator for determining a sensor position based on the mobile measurement indicator, the fixed measurement indicator, the environmental ecology indicator, and the calculated current position; And An environment information processor for transmitting at least one output value of the plurality of sensors, the GPS receiver, the environment ecology indicator generator, and the sensor location calculator to the mobile terminal device using a wireless communication technology. Environmental information collection system comprising a. The method according to claim 1, The sensor position calculation unit compares the determined sensor position and the calculated current position to display the sensor position when there is a difference of more than the error range. An environment information collection system including an environment information collection device, a mobile terminal device, and an environment information collection management system for collecting environment information through a plurality of sensors, the mobile terminal device comprising: Generates a sensor detection signal for detecting a sensor, transmits it to the surrounding area, receives a sensor search result corresponding to the sensor detection signal from the environment information collecting device that receives the sensor detection signal, and sends an environment information request message to the environment information. An environment information obtaining unit which transmits to the collection device to receive environment information from the environment information collecting device; A user interface unit for dividing and outputting environmental ecology information corresponding to the environmental information for each field and providing a screen for inputting or modifying the environmental information; A location information processor for receiving a GPS signal from a GPS system and calculating a current location; And An environment information transmission unit for transmitting the environment information and the current position calculated by the location information processing unit to the environment information collection management system Including; The apparatus for collecting environmental information collects environmental information through the plurality of sensors, generates an environmental ecological indicator in consideration of any one or more information among positions, densities, and heights of natural and artificial features, and based on the generated environmental ecological indicators. Environmental information collection system to determine the position of the sensor. delete The method of claim 3, When the function mode of the environment setting is selected, the URL of the script page to receive and process the environment information is provided by providing the URL path of the script page to send the user ID and password and receive the authentication result during the login authentication process. Preference management unit that provides the path Environmental information collection system further comprising. The method according to claim 3 or 5, The environment information acquisition unit, Receives and outputs sensor list information including a sensor ID and a sensor type from the environment information collecting device, and when one sensor information is selected from the output sensor list information, the sensor corresponding to the selected sensor information is controlled to output an output value of the sensor. System for collecting environmental information.

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