KR20120017130A - System for verifying special zones reliability using global navigation satellite system unit and method therefor - Google Patents

Abstract

PURPOSE: A specific location reliability providing system of satellite navigation system location information is provided to prevent a user to arrive at uncertain destination by checking inconsistency of present location and terminal offer location. CONSTITUTION: A reliability measuring device(100) draws the location coordinate of a satellite by connecting with a navigation satellite and classifies visible satellite position information and multi-path satellite position information of specific location within three-dimensional geographical information. The reliability measuring device transfers an error message calculated through DOP(Dilution Of Precision) calculation to a user terminal(200) connected through an information network. The user terminal indicates the visible satellite position information, the multi-path satellite position information, and the error message.

Description

Reliability system and method for providing specific area reliability of satellite navigation system location information {SYSTEM FOR VERIFYING SPECIAL ZONES RELIABILITY USING GLOBAL NAVIGATION SATELLITE SYSTEM

The present invention relates to a system and a method for providing reliability of a specific area of satellite navigation system location information. The present invention relates to a technology for providing location reliability to a user in a map form.

The Global Navigation Satellite System (GNSS) is a system that uses satellite networks to accurately track the position of targets on the ground, such as GLONASS, the Galileo Project, and GPS.

In urban areas, buildings around users create bad satellite reception environment, so some satellite signals are blocked and cannot be received. However, even though a specific satellite signal is blocked by the building, the multipath signal reflected by the surrounding building may be received.

In particular, in high-rise buildings, signals from satellites that cannot be secured by buildings are frequently received. As a result, the receiver incorrectly calculates the distance between the satellite and the user, thereby providing a user with location information having a large error.

As a technique for correcting the error of the position information between the satellite and the receiver, a technique for avoiding mutual interference through vertical conversion in the parity space, which is difficult to accurately identify due to mutual interference of error factors, and whether there is an abnormality of the received satellite signal. Multi-path identification technology, 3D geographic information and navigation satellite orbit information, urban area visibility satellite, DOP analysis technology, driving route change to low-congestion road section, GPS There are techniques for correcting common errors in signals.

However, these techniques can detect faults inside the GPS receiver, identify fault signals based on raw data inside the receiver, provide traffic or traffic light information rather than position reliability, or correct some common errors. Frequently, multipaths in urban areas do not have common errors among receivers, making it difficult to improve position accuracy.

An object of the present invention is to provide a satellite navigation receiver in a driving area based on the received reliability information by providing the user with externally calculated reliability information to prevent blind trust in the location information provided by the satellite navigation receiver. The purpose of this is to predict the location accuracy and to prevent accidents that may be caused by incorrect location.

In order to achieve the above technical problem, the system for providing reliability of a specific area of the satellite navigation system location information of the present invention derives the position coordinates of the satellite through the connection with the navigation satellite to determine the visible satellite location information of the specific area located within the 3D geographic information. And a reliability measuring apparatus for classifying multi-path satellite position information and transmitting error information calculated through a dilution of precision (DOP) operation to a user terminal connected through an information communication network. And a user terminal that receives and displays visible satellite position information, multipath satellite position information, and error information.

In addition, in the method for providing reliability of a specific area of the satellite navigation system location information of the present invention based on the above-described system, the reliability measuring device derives the position coordinates of the satellite through the connection with the navigation satellite and locates it in the 3D geographic information. (A) classifying visible satellite position information and multipath satellite position information of a region and calculating error information calculated through a dilution of precision (DOP) operation; And (b) displaying, by the user terminal, visible satellite position information, multipath satellite position information, and error information received from the reliability measuring apparatus connected through the information communication network.

According to the present invention as described above, by using the three-dimensional geographic information in the reliability test system and the satellite coordinates provided by the GNSS receiver, GNSS using the GNSS to analyze the satellite signal that can be received at the user location without obstacles, such as obstacles, In addition to the normal signal received without the received signal is divided into multipath suspicious signal and processed with the DOP value has the effect of providing the position reliability information to the user.

In addition, according to the present invention, when the driver in the city operation in advance to recognize the low reliability of the current position, to confirm that the current position and the terminal providing position inconsistent and to prevent inaccurate arrival of the destination, that is, blind terminal information By preventing the trust has the effect of promoting a safe driving by preventing the driver embarrassing situation.

1 is a block diagram illustrating a system for providing reliability of a specific area of satellite navigation system location information according to the present invention.
2 is a block diagram showing the components of the reliability measuring apparatus of the system for providing reliability of a specific area of satellite navigation system location information according to the present invention;
Figure 3 is an exemplary view showing a check whether or not the reception of the satellite navigation signal using the three-dimensional geographic information of the system for providing reliability of a specific area of the satellite navigation system location information according to the present invention.
4 is a flowchart illustrating a method for providing reliability of a specific area of satellite navigation system location information according to the present invention.
FIG. 5 is a flowchart illustrating a detailed process of step S100 of a method for providing reliability of a specific area of satellite navigation system location information according to the present invention; FIG.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

As shown in FIG. 1, the system S providing reliability of a specific area of the satellite navigation system location information according to the present invention includes a reliability measuring apparatus 100 and a user terminal 200.

Hereinafter, the description will be omitted, but the system for providing reliability of a specific area of the satellite navigation system location information according to the present invention transmits and receives data through an information communication network including wired and wireless, while DMB, Wibro, Digital broadcasting, AM radio or FM radio. It is assumed that data is transmitted through any one of the communication means.

Referring to FIG. 2, the reliability measurement apparatus 100 of the system S providing reliability of a specific area of satellite navigation system location information according to the present invention is as follows.

The reliability measuring apparatus 100 derives the position coordinates of the satellite through the connection with the navigation satellite to classify the visible satellite position information and the multipath satellite position information of a specific region located in the 3D geographic information, and the DOP (Dilution Of Precision) Perform the function of transmitting the error information calculated through the operation to the user terminal 200 connected through the information communication network, GNSS (Global Navigation Satellite System) receiving module 110, satellite signal verification module 120, visible satellite It is configured to include a calculation module 130, DOP calculation module 140 and the transmission module 150.

In detail, the GNSS receiving module 110 derives the position coordinates of the satellite according to the satellite orbit information (Ephemeris) and current time information received by being connected to the navigation satellite.

In addition, the satellite signal verification module 120 calculates the angle between the horizon and the satellite based on the position coordinates of the satellite and the specific position (expected user position) on the three-dimensional geographic information received from the GNSS receiving module 110, As a result of calculation, satellites located below the horizon cannot be received and only the positional coordinates of satellites located above the horizon are separated.

In addition, the visible satellite calculation module 130 indexes a specific position on the position coordinates and three-dimensional geographic information of the satellite and generates a straight line vector connecting the position coordinates and the specific position of the satellite, respectively, as shown in FIG. Visible satellite position information is generated by classifying the position coordinates of satellites connected by straight lines without interfering with the buildings shown in 3D geographic information as visible satellites.

On the other hand, the visible satellite calculation module 130 generates a straight line vector connecting the position coordinates of the satellite and a specific position, respectively, and multipaths the position coordinates of the satellites where the connected linear vectors interfere with the buildings shown in the 3D geographic information. It generates a multipath satellite location information by classifying it into a multipath receiving satellite that can be received in the form.

At this time, the specific position is any position coordinates that the user can be located on the three-dimensional geographic information, it is preferable to understand that the visible satellite position information and the multi-path satellite position information includes the satellite number data, respectively, The invention is not limited to this.

In addition, the visible satellite calculation module 130 performs a task for generating each of the visible satellite position information and the multi-path satellite position information at a specific location, iteratively performing such a task for the peripheral position spaced at a predetermined interval and the map Generates data of type

In addition, the DOP calculation module 140 receives the visible satellite position information and the multipath satellite position information generated by the visible satellite calculation module 130 and calculates the number of visible satellites and the number of multipath receiving satellites, respectively, and the DOP. The calculation generates error information for each of the visible satellite position information and the multipath satellite position information.

At this time, the error information is calculated by calculating the error of the relative geometry to the positioning, it is preferable to understand that the error of the user position coordinates within the preset error range based on the visible satellite position information and the multi-path satellite position information.

In addition, the DOP calculation module 140 repeatedly performs reliability checks on the neighboring locations spaced at a predetermined interval based on the specific location, and then collects the reliability test results of the surrounding areas and processes them into maps to generate reliability map information. do.

In this case, the reliability map information sets the average value of the test results for a plurality of points as a representative value for the region to recognize that the position may be incorrect when the user enters the region.

In addition, the transmission module 150 connects the visible satellite position information and the multipath satellite position information received from the visible satellite calculation module 130 and the error information and the reliability map information received from the DOP calculation module 140 through the information communication network. It is transmitted to the user terminal 200.

On the other hand, the user terminal 200 of the specific area reliability providing system (S) of the satellite navigation system location information according to the present invention is as follows.

The user terminal 200 receives and displays visible satellite position information, multipath satellite position information, error information, and reliability map information from the reliability measuring apparatus 100 connected through the information communication network, and displays each satellite or all satellites. It may be displayed, and may be displayed by dividing it into reliability levels according to whether or not it meets preset error ranges including specific values.

In addition, the user terminal 200 may display a symbol, a number, a flashing signal, or change a color of a corresponding local map or a combination thereof, and the display mechanism may be the same as that of a conventional navigation terminal. The specific description thereof will be omitted.

The user terminal 200 according to the present invention will be assumed to be composed of any one of a mobile phone, PC, PNP or navigation, but the present invention is not limited thereto, and may be connected to an external device and wired or wirelessly to display received data. It is desirable to understand that it includes all equipment.

Meanwhile, referring to FIG. 4, a method for providing reliability of a specific area of satellite navigation system location information according to the present invention is as follows.

First, the reliability measuring apparatus 100 derives the position coordinates of the satellite through the connection with the navigation satellite, classifies the visible satellite position information and the multi-path satellite position information of a specific region located in the 3D geographic information, and the DOP (Dilution Of) Precision) generates the error information calculated through the operation (S100).

In addition, the user terminal 200 connected through the information communication network displays the visible satellite position information, the multipath satellite position information, and the error information received from the reliability measuring apparatus 100 (S200).

Specifically, referring to FIG. 5, the detailed process of step S100 of the method for providing reliability of a specific area of the satellite navigation system location information according to the present invention is as follows.

The GNSS receiving module 110 of the reliability measuring apparatus 100 is connected to the navigation satellite to derive the position coordinates of the satellite according to the received satellite orbit information (Ephemeris) and the current time information (S110).

Subsequently, the satellite signal verification module 120 of the reliability measuring apparatus 100 calculates an angle between the horizon and the satellite based on the position coordinates of the satellite received from the GNSS receiving module 110 and a specific position, and the calculation result is below the horizon. The satellite located at separates only the position coordinates of the satellite existing on the horizon as the reception is impossible (S120).

Subsequently, the visible satellite calculation module 130 of the reliability measuring apparatus 100 stereoscopically uses the height information of the building around the specific position in the 3D geographic information, and generates a straight line vector connecting the satellite position coordinates and the specific position, respectively. The location coordinates of satellites connected by a straight line are generated as visible satellites without generating interference with the buildings shown in the 3D geographic information. The multi-path satellite location information is generated by classifying the location coordinates of the satellite that interferes with the building into a multi-path receiving satellite that can be received in a multipath form (S130).

Subsequently, the DOP calculation module 140 of the reliability measuring apparatus 100 receives the visible satellite position information and the multipath satellite position information generated by the visible satellite calculation module 130 and receives the number of visible satellites and the multipath receiving satellite, respectively. The number of times is calculated and error information for each of the visible satellite position information and the multipath satellite position information is generated through the DOP operation (S140).

In addition, the transmission module 150 of the reliability measuring apparatus 100 receives the visible satellite position information and the multi-path satellite position information and the error information received from the DOP calculation module 140 from the visible satellite calculation module 130. It transmits to the connected user terminal 200 through (S140).

As described above and described with reference to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be understood by those skilled in the art that many modifications and variations can be made to the invention without departing from the scope of the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

S: Satellite system providing reliability of specific area of location information
100: reliability measuring device 110: GNSS receiving module
120: satellite signal verification module 130: visible satellite calculation module
140: DOP calculation module 150: transmission module
200: user terminal

Claims (8)

In the system for providing reliability of a specific area of satellite navigation system location information,
Deriving satellite position coordinates through connection with navigation satellites, classifying visible satellite position information and multipath satellite position information of specific position in 3D geographic information, and calculating error information calculated through DOP (Dilution Of Precision) operation A reliability measuring apparatus for transmitting to a user terminal connected through an information communication network; And
And a user terminal configured to receive and display the visible satellite position information, the multi-path satellite position information, and the error information.
The method of claim 1,
The reliability measuring device,
A satellite signal verification module that calculates an angle formed between the horizon and the satellite based on the position coordinates of the satellite and the specific position, and separates only the position coordinates of the satellite on the horizon as the satellite located below the horizon cannot be received as a result of the calculation;
Index the satellite's position coordinates and 3D geographic information corresponding to a specific position to generate a line vector connecting the satellite position coordinates and a specific position, respectively, and connect the straight line vectors without interfering with the buildings shown in the 3D geographic information. Multi-path capable of receiving satellite position information by classifying the position coordinates of satellites connected to the satellite into visible satellites and receiving the position coordinates of the satellites in which the connected linear vector interferes with the buildings shown in 3D geographic information. A visible satellite calculation module for generating multipath satellite position information by classifying it as a receiving satellite; And
The number of visible satellites and the number of multipath receiving satellites are respectively calculated by receiving the visible satellite position information and the multipath satellite position information, and error information about each of the visible satellite position information and the multipath satellite position information is calculated through a DOP operation. System for providing reliability of a specific area of the satellite navigation system location information comprising a; DOP calculation module for generating.
The method of claim 2,
The specific position is an arbitrary position coordinate where a user can be positioned on 3D geographic information, and the satellite positioning information and the multipath satellite positioning information each include satellite number data. Relevant system for providing local reliability of information.
The method of claim 2,
The reliability measuring device,
A GNSS receiving module for deriving the position coordinates of the satellite according to the satellite orbit information (Ephemeris) and current time information connected to the navigation satellite; And
And a transmission module for transmitting the visible satellite position information, the multi-path satellite position information, and the error information to the user terminal connected through an information communication network.
The method of claim 2,
The DOP calculation module,
Reliability test is repeatedly performed on neighboring locations separated by a predetermined distance based on the specific location, and the reliability test information is generated by collecting the reliability test results of the surrounding area into a map form, and the reliability map information includes a plurality of reliability map information. A specific area of the satellite navigation system location information that sets the average value of the test results for the point as a representative value for the area and guides the user to recognize that the location may be inaccurate when the user enters the area. Reliability System.
The method of claim 1,
The error information is a satellite navigation system position, characterized in that by calculating the error of the relative geometry to the positioning by calculating the error of the user position coordinates within the predetermined error range based on the visible satellite position information and the multi-path satellite position information Relevant system for providing local reliability of information.
In the method for providing reliability of a specific area of satellite navigation system location information,
(a) The reliability measuring device derives the position coordinates of the satellite through the connection with the navigation satellite, classifies the visible satellite position information and the multi-path satellite position information in the 3D geographic information, and calculates the DOP (Dilution Of Precision) operation Generating error information calculated through; And
(b) displaying, by the user terminal, visible satellite position information, multipath satellite position information, and error information received from the reliability measuring apparatus connected through an information communication network; How to provide regional reliability.
The method of claim 7, wherein
In step (a),
(a-1) deriving a position coordinate of a satellite according to the satellite orbit information received by the GNSS receiving module of the reliability measuring apparatus connected to the navigation satellite;
(a-2) removing the information on the satellite located below the horizon by calculating, by the satellite signal verification module of the reliability measuring device, an angle between the horizon and the satellite based on the position coordinates of the satellite and a specific position coordinate;
(a-3) The visible satellite calculation module of the reliability measuring device makes three-dimensional geographic information three-dimensionally by using height information on buildings around a specific location, and creates a straight vector connecting the satellite location coordinates and the specific location, respectively. Visible satellite location information is generated by classifying the position coordinates of satellites connected in a straight line without interference with the buildings shown in the 3D geographic information, and the connected linear vectors interfere with the buildings shown in the 3D geographic information. Generating multipath satellite position information by classifying the position coordinates of the satellites into a multipath receiving satellite capable of receiving a multipath;
(a-4) The DOP calculation module of the reliability measuring device receives the visible satellite position information and the multipath satellite position information to calculate the number of visible satellites and the number of multipath receiving satellites, respectively, and the position of the visible satellite through the DOP operation. Generating error information for each of the information and the multipath satellite position information; And
(a-5) a transmission module of a reliability measuring apparatus, transmitting the visible satellite position information, the multi-path satellite position information, and the error information to the user terminal; How to provide reliability.

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