KR101185409B1 - Apparatus for processing weather and environment information using moving device and method thereof - Google Patents

Abstract

A weather information providing system is provided. Weather information providing system according to an embodiment of the present invention, the information receiving unit for receiving weather information and unit area information from the moving body; An information storage unit for storing the received weather information and unit region information for each unit region; A determination unit to determine the number of moving objects for each unit region; And an information adopting unit adopting weather information of the unit area according to the number of moving objects of each unit area.

Description

Apparatus and method for processing meteorological and environmental information using a mobile sensor {APPARATUS FOR PROCESSING WEATHER AND ENVIRONMENT INFORMATION USING MOVING DEVICE AND METHOD THEREOF}

The present invention relates to an apparatus and method for processing meteorological and environmental information using a moving object sensor.

In general, a mobile body is often used to measure and transmit weather information of a unit area. However, there is a case that an error occurs depending on the characteristics of the mobile sensor measurement equipment, there is a problem that the criterion is ambiguous in which case the measured data to be classified as the error data in order to provide error-free information.

One embodiment of the present invention is to provide a system and method that can easily and conveniently determine the error of the moving object according to the number of moving objects to check the error of the moving object.

According to an aspect of the present invention, there is provided a weather information providing system comprising at least one moving object, an information receiving unit for receiving weather information and unit area information from the moving object; An information storage unit storing the received weather information and unit region information for each unit region; A determination unit to determine the number of moving objects for each unit region; And an information adopting unit for adopting weather information of the unit area according to the number of moving objects for each unit area.

In addition, when the number of first moving objects located in the first unit area is less than or equal to N (N is a natural number), the information adopting unit may include weather information respectively adopted in the first proximate areas, which are unit areas proximate to the first unit area. When the first error comparing the average of the average data and the average value of the weather information data received from the first moving objects is within the first allowable range, the average value of the weather information data of the first moving objects is the weather of the first unit area. If the information is selected and is outside the first allowable range, the average data of the weather information respectively adopted in the first neighboring regions may be adopted as the weather information of the first unit region.

Further, when the number of first moving objects located in the first unit area exceeds N + 1 (N is a natural number), the information adopting unit may have a comparison error between weather information received from the first moving objects, respectively. 2 is within the allowable range, the average value of the weather information data received from the first moving object is adopted as the weather information of the first unit area, and if outside the second allowable range, the unit close to the first unit area When the error comparing the average data of the weather information adopted in each of the first proximate regions, which is an area, and the average value of the weather information data received from the first moving objects is within a third allowable range, the first weather of the first moving objects If the average value of the information data is adopted as the weather information of the first unit area, and if it is outside the third allowable range, the average data of the weather information respectively adopted in the first neighboring areas is recalled. It can be adopted as weather information of the first unit area.

The apparatus may further include an error checking unit for determining whether an error is provided for the moving object that provides the weather information outside the allowable range.

In addition, the error check unit may determine that there is an error in the moving object providing the weather information outside the allowable range more than a specified number of times.

Embodiments of the present invention can easily and accurately determine whether the moving object is error, thereby providing a processing apparatus and method that can provide reliable information and check the moving object.

1 illustrates a weather information providing system using a mobile device according to an embodiment of the present invention.
2 illustrates a configuration of the movable body of FIG. 1.
FIG. 3 is a flowchart illustrating a process of adopting weather information by the information adopting unit of FIG. 1.

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 an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Hereinafter, with reference to the drawings will be described in detail with respect to the weather information providing system according to an embodiment of the present invention.

1 illustrates a weather information providing system using a mobile device according to an embodiment of the present invention.

1 is a weather information providing system according to an embodiment of the present invention, includes three moving objects (100-1, 100-2, 100-3) and the server (900).

The server 900 includes an information receiving unit 200, an information storing unit 300, a determining unit 400, an information adopting unit 500, an information transmitting unit 600, a display device, and an error checking unit 800.

The information receiving unit 200 receives unit area information and weather information from each of the three moving objects 100-1, 100-2, and 100-3. The number of the moving objects 100-1, 100-2, and 100-3 is not limited thereto, and only the at least one moving object 100-1 may constitute a weather information providing system. The information receiving unit 200 receives unit area information and weather information from each of the moving objects 100-1, 100-2, and 100-3 by wireless communication.

The information storage unit 300 stores unit area information and weather information received from the information receiving unit 200 for each unit area.

The determination unit 400 determines the number of moving objects for each unit area according to the unit area information of each of the three moving objects 100-1, 100-2, and 100-3. The unit area means one area when the whole unit area detected by the weather information providing system is divided into a plurality of areas by a predetermined area unit.

The determination unit 400 determines the number of moving objects for each unit region. The number of vehicles per unit area is used to determine the error of the vehicle. As an example of the error of the moving object, there may be a sensor error provided in the moving object.

The information adopting unit 500 adopts weather information of the unit area according to the number of moving objects for each unit area. The process of adopting the weather information of the unit area according to the number of moving bodies will be described later in detail with reference to FIG. 3.

The information transmitter 600 transmits the weather information of the adopted unit area to the display apparatus 700.

The display device 700 displays weather information received from the information adopting unit 500. Since the method of displaying the weather information is obvious to those skilled in the art, it will be omitted here.

In addition, although FIG. 1 illustrates that the display device 700 is provided in the server 900, the display device 700 may be provided as another device separate from the server 900 according to an environment to which the present invention is applied. In this case, the information transmitter 600 may transmit weather information of a unit area through known wired, wireless or short-range communication.

The error checking unit 800 determines whether there is an error for a moving object that provides information other than an allowable range in the process of adopting weather information for each unit region of the information adopting unit 500. A process of determining a moving object that provides information other than the allowable range will be described in detail later with reference to FIG. 3.

With reference to FIG. 2, the structure of the mobile body 100-1 is demonstrated.

2 is a view showing the configuration of a moving body 100-1 according to an embodiment of the present invention. The configuration of the other two movable bodies 100-2 and 100-3 is the same as that of the movable body 100-1, and thus description thereof will be omitted.

The moving object 100-1 is a measurement device mounted on a vehicle or the like and may include a GPS unit 110, a transmitter 120, and an information collector 130.

The GPS unit 110 detects a position that changes according to the movement of the moving object 100-1 by using a global positioning system (GPS), and collects unit area information indicating the current position of the moving object 100-1 from the satellite. do.

The information collecting unit 130 collects weather information of a unit area in which the moving object 100-1 is located by using a predetermined temperature sensor or humidity sensor. The method of collecting the information of each unit area is obvious to those skilled in the art, so it will be omitted here.

The transmitter 120 transmits weather information and unit area information of the information collector 130 to the information receiver 200 of the server 900 using wireless communication. The wireless communication technology may be in any form, such as communication using Zigbee, Bluetooth, and the Internet, but is not limited thereto.

3 is a flowchart illustrating a process of adopting weather information by the information adopting unit 500 of FIG. 1 according to an exemplary embodiment of the present invention.

Referring to FIG. 3, the determination unit 400 determines the number of moving objects 100-1, 100-2, and 100-3 in a unit area (S50). When the number of moving objects 100-1, 100-2, and 100-3 is one in a unit area, the information adopting unit 500 collects weather information collected by the moving objects 100-1, 100-2, and 100-3. Is compared with the average data of the weather data of the adjacent unit area, and it is determined whether the error is within the allowable range (S100).

Here, the average data means at least two unit regions close to the unit region where the first mobile unit is located when only the first mobile unit 100-1 is located in the first unit region (that is, when there is one mobile unit in the unit region). The data is calculated by averaging weather information.

Hereinafter, for convenience of explanation, the adjacent unit area is referred to as "proximity area".

In the above-described example, if there is no moving object in the vicinity of the unit area in which the first moving object is located, the weather information of the unit area is determined by the first moving object for the weather information determined immediately before the unit area in which the first moving object is located. As the information, the information adopting unit 500 adopts the weather information determined by the information adopting unit 500 immediately before or near the determined area, and calculates the average as the weather information of the unit area where the first moving object is located. It will also be apparent to those skilled in the art in view of the technical spirit of the present invention.

The determination as to whether or not it is within the allowable range may use a statistical tool F-Test and the like, but is not limited thereto. That is, the determination of whether or not within the allowable range can be applied to various statistical tools known at the time of application of the present invention, the detailed description thereof will be omitted.

 If the determination result of step S100 is within the allowable range, the collected weather information is adopted as unit region weather information of the corresponding unit region (S200), and the unit region weather information is transmitted to the information transmitter 600 (S800).

If the determination result of the step (S100) is out of the allowable range, the proximity area average data is adopted as the unit area weather information (S700), and the unit area weather information is transmitted to the information transmitter 600 (S800).

If the number of moving objects 100-1, 100-2, and 100-3 for each unit region determined by the determination unit 400 is two or more, the moving bodies 100-1, 100-2, 100-3 are located in the same unit area. In step S500, it is determined whether the difference comparing the collected weather information is within the allowable range.

If the determination result of the step (S500) is within the allowable range, the average value of the weather information collected by the moving object (100-1, 100-2, 100-3) is adopted as the unit area weather information (S600), unit area weather information The information is transmitted to the transmission unit 600 (S800).

If the determination result of the step (S500) is out of the allowable range, it is determined whether the average value of the weather information collected by the moving objects (100-1, 100-2, 100-3) is within the allowable range by comparing with the average data of the adjacent region (S300). .

If the determination result of the step (S300) is within the allowable range, the average value of the collected weather information is adopted as the unit area weather information (S400), and the unit area weather information is transmitted to the information transmitter 600 (S800).

If the determination result of the step (S300) is outside the allowable range, the adjacent area average data is adopted as the unit region weather information (S700), and the adopted unit region weather information is transmitted to the information transmitter 600 (S800).

The information transmitter 600 transmits the information adopted as weather information of a predetermined unit area by the information adopter 500 to the display apparatus 700.

The display apparatus 700 receives and displays weather information of a predetermined unit region transmitted from the information transmitter 600 to display the weather of the unit region.

When the weather information of a specific unit region is adopted as described above, the error checking unit 800 determines that there is an error with respect to the moving object 100 which collected the unused weather information for the unused weather information.

The moving object 100 determined to have an error is checked. The inspection may be performed by any method such as remote or retrieval inspection, but is not limited thereto.

In addition, when the error checking unit 800 exceeds the predetermined number by counting the number of times the weather information of the moving object is not adopted, it may be determined that an error has occurred in the moving object.

So far, the process of adopting the unit area weather information by the information adopting unit 500 has been described with reference to FIG. 3, but it is clear that the present invention is not limited to the embodiment illustrated in FIG. 3.

For example, in FIG. 3, in operation S50, the information adopting unit 500 is divided into one or two or more moving objects for each unit area, but the number of moving objects for each unit area varies depending on the environment to which the present invention is applied. Can be changed. For example, according to the size of the designated unit area, in step S50, when the information adopting unit 500 has 10 or less moving objects in the same unit area, the information adopting unit 500 performs a step after step S100, and has 10 moving objects in the same unit area. If present in excess, step S500 may be performed. In this case, in step S100, the average region and the comparison target may be average values of weather data received from 10 or less moving objects.

Furthermore, in order to facilitate the understanding and explanation of the present invention, according to the embodiments described above with reference to FIGS. 1 to 3, the GPS unit 110 provided in the mobile body includes local information in which the mobile body is located, It has been described that the transmitter 120 transmits the unit area information together with the above-described weather information to the server 900 by determining which unit area the mobile object is located by using the preset information. However, the present invention is not limited thereto, and the GPS unit 110 may calculate only the corresponding location information. In this case, the server 900 may be a unit in which the moving object is located by using the received location information and preset information. Local information can be calculated, which will be apparent to those skilled in the art in view of the technical spirit of the present invention.

According to the embodiment of the present invention as described above, it is possible to easily determine what information to be adopted as the unit area weather information, and also it is possible to check the moving object at any time to collect more accurate weather information .

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It belongs to the scope of right.

100-1, 100-2, 100-3: Moving object 110: GPS unit
120: transmitting unit 130: information collecting unit
200: information receiving unit 300: information storing unit
400: judging unit 500: information adopting unit
600: information transmitter 700: display device
800: error checker 900: server

Claims (5)

In the weather information providing system comprising at least one moving object,
An information receiver configured to receive weather information and unit area information from the moving object;
An information storage unit storing the received weather information and unit region information for each unit region;
A determination unit to determine the number of moving objects for each unit region; And
An information adopting unit adopting weather information of the unit area according to the number of moving objects of each unit area;
Weather information providing system comprising a. The method of claim 1,
When the number of the first moving bodies located in the first unit area is less than or equal to N (N is a natural number), the information adopting unit
The first error comparing the mean data of the weather information and the mean value of the weather information data received from the first moving objects respectively adopted in the first proximal areas that are unit areas close to the first unit area is
If within the first allowable range, the average value of the weather information data of the first mobile body is adopted as the weather information of the first unit area,
And a weather data of the first unit area is adopted as the average data of weather information respectively adopted in the first proximate regions when the distance is outside the first allowable range. The method of claim 1,
When the number of the first moving bodies located in the first unit area is more than N + 1 (N is a natural number), the information adopting unit
The comparison error between the weather information received from each of the first moving objects
If within the 2nd tolerance range,
Adopting an average value of weather information data received from the first moving bodies as weather information of the first unit area,
If it is outside the second allowable range,
An error comparing the average data of the weather information adopted in each of the first proximate regions, which are unit regions close to the first unit region, with the average value of the weather information data received from the first moving bodies,
If within the third allowable range, the average value of the weather information data of the first mobile body is adopted as the weather information of the first unit area,
And a mean data of weather information adopted in each of the first proximate regions as weather information of the first unit region, when outside the third allowable range. The method according to claim 2 or 3,
Weather information providing system further comprises an error check unit for determining whether or not the error for the moving object provided with weather information outside the allowable range. The method of claim 4, wherein
The error check unit
A weather information providing system, characterized in that it is determined that there is an error in a moving object that has provided weather information outside the allowable range more than a specified number of times.

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