KR20130074371A - Localization system and the method thereof - Google Patents

Abstract

PURPOSE: A positioning system and a method thereof are provided to reduce positioning time of a global positioning system (GPS) by connecting a satellite information server using wireless fidelity (Wi-Fi) and by using the updated satellite information for position measurement after downloading predicted satellite information from the connected satellite information server. CONSTITUTION: A positioning system (100) comprises a Wi-Fi access point (AP) (40), a satellite information server (30) which receives satellite information from a GPS satellite and stores it, and a position measurement terminal (50) which stores the satellite information through the Wi-Fi AP.

Description

Localization system and the method

GPS (Global Positioning System) is a global positioning system using satellites. It is a system that finds the position of the observation point by receiving the radio wave from the satellite that knows the exact position and observing the time required to the observation point. That is, GPS surveying is a method of surveying by a resection method that determines a location of an unknown point in which a receiver is installed using a plurality of satellites whose known positions are known points.

In addition, the GPS system is a system for positioning a position, the GPS receiver is a system for receiving the GPS satellite information related to the GPS satellites ephemeris, almanac, GPS time, etc. from the GPS satellites, to position the GPS receiver.

In the GPS satellite positioning, the user who wants to measure the location tracks the GPS satellite signal to obtain necessary information from the received GPS satellite signal, and then calculates the user's location based on the extracted information to determine the user's current location. (Fix) The user equipment that performs this process is called a GPS receiver.

Conventional GPS adopts a method of receiving satellite information from a satellite and measuring its own location. However, this conventional technology has a problem that it takes a long time to perform the position measurement because the time to receive satellite information from the satellite ranges from tens of seconds to several minutes.

In addition, in the conventional GPS, a method of updating the latest satellite information by using the GPS in a sleep mode and periodically switching to a wake-up mode has been used. However, such a prior art has to periodically set the wake-up mode, so that even when GPS is not used at all, the power of the system is quickly consumed and the battery is quickly discharged. In addition, there was a problem that the satellite information must be updated when in the wake-up mode, and if it is not updated within a maximum of 4 hours, the GPS operates in the cold start mode, thereby increasing the position measurement time. .

The present invention relates to a position measuring system and a method thereof, and more particularly, to a position measuring system and method for receiving predicted satellite information from a satellite information server using Wi-Fi (WiFi).

The present invention is to solve the problems of the prior art as described above, the position measuring system and the method according to an embodiment of the present invention is connected to the satellite information server using the Wi-Fi, the satellite information is connected to the predicted satellite information The purpose is to reduce GPS positioning time by using updated satellite information downloaded from the server for positioning.

In addition, it is an object to prevent unnecessary power consumption by performing a position measurement when the signal level of the GPS is above a certain level set by the user, and by terminating the position measurement when the GPS level is below a certain level.

Position measuring system according to an embodiment of the present invention is a Wi-Fi (Access Wi-Fi) Access Point (AP); A satellite information server for receiving satellite information from a GPS satellite and storing the satellite information; And a location measurement terminal that receives the satellite information through the Wi-Fi AP.

The location measurement terminal may download the predicted satellite information by accessing the satellite information server, and update the satellite information measuring the location of the user using the updated satellite information.

In this case, the positioning terminal updates the satellite information by downloading the predicted satellite information by accessing the satellite information server even if there is no separate turn-on signal according to the user's setting operation, and using the updated satellite information. The position of can be measured.

In addition, the location measurement terminal may determine whether to measure the location by checking the sensitivity of the signal received from the satellite information server.

On the other hand, the location measuring terminal is a part of the video equipment, can display the user's location as separate information.

In this case, the video equipment may be a camera or a camcorder.

Position measuring terminal according to an embodiment of the present invention the position measuring terminal power supply; A receiver which accesses the satellite information server, downloads the predicted satellite information, and updates the satellite information; A GPS (Global Positioning System) unit for measuring a user's location using the updated satellite information; And a controller connected between the receiver and the GPS unit and controlling to measure the location of the user using the updated satellite information.

The receiver includes a Wi-Fi power supply unit; A satellite information server connection unit for accessing the satellite information server to download predicted satellite information; And a satellite information storage unit for storing the downloaded satellite information to update satellite information.

The GPS unit GPS power unit; A location measuring unit which measures a current location of a user using the updated satellite information; And a display unit displaying the measured current position.

In this case, the satellite information server access unit may update the satellite information by downloading the predicted satellite information by accessing the satellite information server even if there is no separate turn-on signal according to the user's setting operation.

In addition, the location measuring unit may measure the location of the user using the updated satellite information even if there is no separate turn-on signal according to the user's setting operation.

In this case, the controller may determine whether to measure the location by checking the sensitivity of the signal received from the satellite information server.

The Wi-Fi power supply may be automatically turned on when the terminal power supply is turned on.

In this case, the GPS power supply may be automatically turned on when the terminal power supply is turned on.

The location measuring terminal may display a location of a user as separate information as part of an imaging device.

In this case, the video equipment may be a camera or a camcorder.

Position measuring method according to an embodiment of the present invention comprises the steps of turning on the power of the position measurement terminal (Turn-On); Turning on the Wi-Fi power and the GPS power when the position measurement terminal power is turned on; Updating the satellite information by downloading the predicted satellite information from the satellite information server; And measuring the location of the user using the updated satellite information.

The updating of the satellite information may include: authenticating and accessing an access point (AP) to a location measurement terminal; And accessing the satellite information server.

In the step of accessing the satellite information server, it is determined whether to permit access to the satellite information server, and when the connection is not allowed, an authentication number is input to allow access.

After the Wi-Fi power and the GPS power is turned on, the GPS may further include a step of measuring a user's position using a conventional satellite information or a cold start.

After the GPS is measured using the existing satellite information or the step of cold start, if the signal level of the GPS is greater than or equal to the value set by the user, attempting location measurement; And when the signal level of the GPS is less than a value set by the user, terminating the location measurement.

In the step of updating the satellite information, even if there is no separate turn-on signal according to the user's setting operation, the predicted satellite information is downloaded by being connected to the satellite information server, and the separate turn-on signal according to the user's setting operation. Even if there is no, the location of the user can be measured using the updated satellite information.

The turning on the Wi-Fi power and the GPS power may be automatically turned on even if there is no separate turn-on signal according to the user's setting operation when the terminal power is turned on.

After measuring the position may further include displaying the user's position as a separate information on the display of the video equipment.

According to the present invention, a GPS location measurement time can be shortened by connecting to a satellite information server using Wi-Fi, downloading predicted satellite information from a connected satellite information server, and using updated satellite information for location measurement. have.

In addition, if the GPS signal level is above a certain level set by the user, the position measurement is performed, and if the GPS level is lower than the predetermined level, unnecessary power consumption can be prevented.

1 is a conceptual diagram of a position measuring system according to an embodiment of the present invention.
2 is a block diagram of a positioning terminal according to an embodiment of the present invention.
3 is a flow chart of a position measuring method according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, this is merely an example and the present invention is not limited thereto.

In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intention or custom of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

The technical idea of the present invention is determined by the claims, and the following embodiments are merely a means for effectively explaining the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs.

Hereinafter, the present invention will be described with reference to the accompanying drawings.

1 is a conceptual diagram of a position measuring system according to an embodiment of the present invention.

Referring to FIG. 1, a location measurement system 100 according to an embodiment of the present invention includes a Wi-Fi AP (Access Point) 40; A satellite information server (Server) 30 for receiving satellite information from the GPS satellites 20 and storing it; And a location measurement terminal 50 for receiving the satellite information through the Wi-Fi AP 40.

The satellite information may include satellite position information (Ephemeris) for accurate position and velocity calculation and almanac of satellites used for rough position and velocity calculation.

The location measurement terminal 50 accesses the satellite information server 30 to download predicted satellite information, and updates satellite information for measuring a user's location using the updated satellite information. can do. The predicted satellite information may be predicted satellite information for several days. In this way, the GPS position measurement time can be shortened by downloading the predicted satellite information for several days from the connected satellite information server 30 and using the updated satellite information for position measurement.

In this case, the location measuring terminal 50 updates the satellite information by downloading the predicted satellite information by accessing the satellite information server 30 even if there is no separate turn-on signal according to the user's setting operation. Satellite information can be used to measure a user's location.

In addition, the position measuring terminal 50 may determine whether to measure the position by checking the sensitivity of the signal received from the satellite information server 30. In this case, the user may set a signal level at which the signal can be detected. If the sensitivity of the signal is greater than or equal to the set signal level, the position measurement terminal 50 may perform position measurement. If the sensitivity of the signal is less than the set signal level, the position measurement terminal 50 may terminate the position measurement. Can be. In this case, the set signal level may be set to -158 dB. As such, when the GPS signal is equal to or higher than a predetermined signal level set by the user, the position measurement is performed. When the GPS signal is lower than the predetermined signal level, the position measurement is terminated, thereby preventing unnecessary power consumption.

Meanwhile, the location measuring terminal 50 may display a user's location as separate information as part of an image device. In this case, the video equipment may be a camera or a camcorder.

2 is a block diagram of a location measurement terminal according to an embodiment of the present invention.

2, the position measuring terminal 50 according to an embodiment of the present invention includes a position measuring terminal power supply 110; A receiver 120 accessing the satellite information server to download the predicted satellite information and update the satellite information; A GPS (Global Positioning System) unit 140 for measuring a location of a user using the updated satellite information; And a controller 130 connected between the receiver and the GPS unit and controlling to measure the location of the user using the updated satellite information.

The predicted satellite information may be predicted satellite information for several days.

The receiving unit 120 includes a Wi-Fi power supply unit 121; A satellite information server access unit 122 for accessing the satellite information server to download predicted satellite information; And a satellite information storage unit 123 for storing the downloaded satellite information to update satellite information.

The GPS unit 140 includes a GPS power supply unit 141; A location measuring unit 142 for measuring a current location of a user using the updated satellite information; And a display unit 143 displaying the measured current position.

In this case, the satellite information server connection unit 122 may update the satellite information by downloading the predicted satellite information by accessing the satellite information server even if there is no separate turn-on signal according to the user's setting operation. In addition, the position measuring unit 142 may measure the position of the user using the updated satellite information even if there is no separate turn-on signal according to the user's setting operation. In this way, the GPS positioning time can be shortened by downloading the predicted satellite information for several days from the connected satellite information server and using the updated satellite information for positioning.

In this case, the controller 130 may determine whether to measure the location by checking the sensitivity of the signal received from the satellite information server. In this case, the user may set a signal level at which the signal can be detected. If the sensitivity of the signal is greater than or equal to the set signal level, the position measurement terminal 50 may perform position measurement. If the sensitivity of the signal is less than the set signal level, the position measurement terminal 50 may terminate the position measurement. Can be. In this case, the set signal level may be set to -158 dB. As such, when the GPS signal is equal to or higher than a predetermined signal level set by the user, the position measurement is performed. When the GPS signal is lower than the predetermined signal level, the position measurement is terminated, thereby preventing unnecessary power consumption.

The Wi-Fi power supply unit 121 may be automatically turned on when the terminal power supply unit 110 is turned on. In this case, the GPS power supply unit 141 may be automatically turned on when the terminal power supply unit 110 is turned on.

The position measuring terminal 50 may display a user's position as separate information as part of an image device. In this case, the video equipment may be a camera or a camcorder.

3 is a flowchart illustrating a position measuring method according to an embodiment of the present invention.

Referring to Figure 3, the position measuring method according to an embodiment of the present invention (S210) is the turn-on (Turn-On) of the position measurement terminal power; Turning on the Wi-Fi power and the GPS power when the position measurement terminal power is turned on (S220, S231); The satellite information is updated by downloading the predicted satellite information from the satellite information server (S225, S226); And measuring the location of the user by using the updated satellite information (S236). In this way, the GPS positioning time can be shortened by downloading the predicted satellite information for several days from the connected satellite information server and using the updated satellite information for positioning. In this case, the predicted satellite information may be predicted satellite information for several days.

The step of updating the satellite information (S226) comprises the step of authenticating and accessing an access point (AP) for the location measurement terminal (S221); And accessing the satellite information server (S222). In this case, in the step S222 of accessing the satellite information server, it is determined whether the access to the satellite information server is allowed (S223). If the connection is not allowed, the authentication number is input (S224) and the connection can be recognized. have. Therefore, only the user who is allowed to access the satellite information server can access the satellite information server.

After the Wi-Fi power and the GPS power is turned on (S220, S231), the GPS further comprises the step of measuring the user's location using the existing satellite information or cold start (S232). It may include.

In general, the case where the GPS terminal measures the position without both the effective position information and the orbit information of the satellite is called cold start, and the case where the position is measured using only the effective orbit information of the satellite is called warm start ( Warm start) is called hot start when the position is measured immediately in the presence of both satellite's valid position information and orbit information.

The GPS measures the position if the GPS signal level SN_level is greater than or equal to the value set by the user after the step of measuring the user's location using the existing satellite information or the cold start step (S232). This attempted step (S234); And if the signal level of the GPS is less than the value set by the user step of terminating the location (S250); may further include. In this case, the set signal level may be set to -158 dB. On the other hand, if the sensitivity of the signal is above a certain level may be set to SN_flag = 1, otherwise it may be set to SN_flag = 0. As such, when the GPS signal is equal to or higher than a predetermined signal level set by the user, the position measurement is performed. When the GPS signal is lower than the predetermined signal level, the position measurement is terminated, thereby preventing unnecessary power consumption.

On the other hand, if the GPS signal level is greater than the value set by the user, the position measurement is attempted and the position measurement may be completed when the position measurement is completed (S236). However, if the position measurement is attempted and the position measurement is not completed, the position measurement may be retried using the updated satellite information (S240). In this case, the number of retries can be set by the user. If the number of retries is greater than or equal to the number set by the user, the location measurement is terminated (S250), and the GPS power may be turned off (Surn-off) (S251).

In the step of updating the satellite information (S226), even if there is no separate turn-on signal according to the user's setting operation, the satellite information server is connected (S222) and the predicted satellite information is downloaded (S225). Even if there is no separate turn-on signal according to the operation, the location of the user may be measured using the updated satellite information (S236).

The step of turning on the Wi-Fi power and the GPS power (S220, S231) is automatically turned on even if there is no separate turn-on signal according to the user's setting operation when the terminal power is turned on (S210). have.

After the measuring of the position (S236), the method may further include displaying the user's position as separate information on the display of the video equipment.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the present invention. I will understand.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

20: GPS satellite 30: satellite information server
40: Wi-Fi access point 50: location measuring terminal
100: position measuring system 110: position measuring terminal power supply
120: receiver 121: wifi power unit
122: satellite information server connection unit 123: satellite information storage unit
130 control unit 140 GPS unit
141: GPS power unit 142: position measuring unit
143: display unit

Claims (24)

WiFi Access Point (AP);
A satellite information server for receiving satellite information from a GPS satellite and storing the satellite information; And
A location measurement terminal for receiving the satellite information through the Wi-Fi AP;
Position measuring system comprising a.
The method of claim 1,
The positioning terminal is connected to the satellite information server to download the predicted satellite information, and using the updated satellite information to update the satellite information for measuring the location of the user (Update).
3. The method of claim 2,
The location measuring terminal updates the satellite information by downloading the predicted satellite information by accessing the satellite information server even if there is no separate turn-on signal according to the user's setting operation, and uses the updated satellite information to adjust the location of the user. Position measuring system to measure.
3. The method of claim 2,
The position measuring terminal determines the position of the position measurement system by checking the sensitivity of the signal received from the satellite information server.
The method according to claim 3 or 4,
The position measuring terminal is a part of the video equipment, the position measuring system for displaying the user's position as separate information.
The method of claim 5, wherein
The imaging device is a camera or a camcorder.
Position measuring terminal power unit;
A receiver which accesses the satellite information server, downloads the predicted satellite information, and updates the satellite information;
A GPS (Global Positioning System) unit for measuring a user's location using the updated satellite information; And
A control unit connected between the reception unit and the GPS unit and controlling to measure the position of the user using the updated satellite information;
Position measurement terminal comprising a.
The method of claim 7, wherein
The receiving unit
WiFi power unit;
A satellite information server connection unit for accessing the satellite information server to download predicted satellite information; And
A satellite information storage unit for storing the downloaded satellite information to update satellite information;
Position measurement terminal comprising a.
The method of claim 7, wherein
The GPS unit
GPS power supply;
A location measuring unit which measures a current location of a user using the updated satellite information; And
A display unit displaying the measured current position;
Position measurement terminal comprising a.
The method of claim 8,
The satellite information server access unit is connected to the satellite information server to download the predicted satellite information and update the satellite information even if there is no separate turn-on signal according to the user's setting operation.
The method of claim 9,
The position measuring unit measures the position of the user using the updated satellite information even if there is no separate turn-on signal according to the user's setting operation.
10. The method according to claim 8 or 9,
The control unit determines the location of the location measurement terminal by checking the sensitivity of the signal received from the satellite information server.
The method of claim 9,
The Wi-Fi power supply is a position measurement terminal that is automatically turned on when the terminal power is turned on (Turn-On).
The method of claim 9,
And the GPS power supply unit is automatically turned on when the terminal power unit is turned on.
13. The method of claim 12,
The location measuring terminal is a part of the video equipment, the location measuring terminal for displaying the user's location as separate information.
The method of claim 15,
The imaging device is a camera or a camcorder.
Turning on the position measurement terminal power;
Turning on the Wi-Fi power and the GPS power when the position measurement terminal power is turned on;
Updating the satellite information by downloading the predicted satellite information from the satellite information server;
Measuring the location of the user using the updated satellite information;
Position measuring method comprising a.
The method of claim 17,
The step of updating the satellite information
An access point (AP) for the location measurement terminal is authenticated and connected; And
Accessing the satellite information server;
Position measuring method comprising a.
The method of claim 18,
The step of accessing the satellite information server
And determining whether to permit access to the satellite information server, and if the access is not allowed, an authentication number is input and the connection is recognized.
The method of claim 17,
After the Wi-Fi power and GPS power is turned on,
GPS further comprises the step of measuring the user's location using the existing satellite information or the cold start (Cold start).
21. The method of claim 20,
The GPS is after the user's location is measured or the cold start using the existing satellite information,
Attempting location measurement when the signal level of the GPS is equal to or greater than a value set by a user; And
If the signal level of the GPS is less than the value set by the user, the location measurement is terminated;
Position measuring method further comprising.
The method of claim 17,
The step of updating the satellite information
Even if there is no separate turn-on signal according to the user's setting operation, the predicted satellite information is downloaded by being connected to the satellite information server,
And a user's location is measured using the updated satellite information even if there is no separate turn-on signal according to the user's setting operation.
The method of claim 17,
The step of turning on the Wi-Fi power and GPS power is automatically turned on when the terminal power is turned on even if there is no separate turn-on signal according to the user's setting operation.
The method of claim 17,
And measuring the position of the user on the display of the video equipment after the measuring the position as separate information.

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