KR100594497B1 - A system of decreasing cold start time of GPS in a navigation system and a method thereof - Google Patents

Abstract

GPS cold start time reduction system of navigation system and method thereof, GPS cold start time reduction system of GPS of navigation system is a mobile communication having the location information of the base station closest to the current position A terminal and a GPS configured to receive location information from a GPS satellite or location information of the base station to determine its current location, and a method for shortening a cold start time of a GPS of a navigation system includes a current location in a GPS. When a request for determining is received, the GPS checks whether it is a cold start, and if the result of the check is a cold start, comprising: determining a current position through location information of a base station transmitted from a mobile communication terminal. The cold start time of the GPS of the navigation system can be greatly reduced.

Navigation system, GPS, GPS engine, mapper, mobile terminal

Description

System for reducing cold start time of GPS in a navigation system and a method thereof

1 is a block diagram showing a GPS of a navigation system according to the prior art.

Figure 2 is a block diagram showing a cold start time reduction system according to the present invention.

Figure 3 is a flow chart showing the operation of the cold start time reduction system according to the present invention.

* Explanation of Codes on Major Parts of Drawings *

200: Global Positioning System (GPS) 250: Interface

300: mobile communication terminal 400: mapper

The present invention relates to a GPS of a navigation system, and more particularly, to a cold start time shortening system and a method of a GPS of a navigation system.

In general, GPS (Global Positioning System) means that you can place four or five satellites on each orbit along the earth's equator at a 55-degree slope, and communicate with four or more satellites anywhere on Earth. A system that receives a signal containing a specific code (C / A code, Coarse / Acquisition code) sent from a GPS satellite and calculates its current position (longitude, latitude, altitude) at a given point in time. Say Such GPS is usually used in a navigation system is a great help in the driving of vehicles such as vehicles, aircraft, ships.

This GPS will be described in more detail with reference to the accompanying drawings.

1 is a block diagram showing a GPS of the navigation system according to the prior art.

As shown, the GPS includes an antenna 110 for receiving a high frequency satellite signal, a high frequency receiver 120 for demodulating the received high frequency signal, and processing the received satellite signal to the GPS and the satellite. GPS engine 130 for calculating a pseudo-range and a CPU 140 for estimating the position of GPS using the calculated pseudo range.

The operation of the GPS configured as described above will be described.

First, the high frequency signal including the C / A code is received from the satellite through the antenna 110 at the high frequency receiver 120. In this case, the high frequency receiver 120 demodulates the received signal, converts the received signal into a digital signal and a baseband signal, and transmits the converted signal to the GPS engine 130.

Then, the GPS engine 130 generates the same code as the transmitted C / A code, compares the two C / A codes, calculates a correlation, and the received satellite signal arrives at the GPS after leaving the satellite. The time taken is measured, and the pseudo distance between the phase and the GPS is calculated by multiplying the measured time by the speed of the satellite signal (for example, the speed of light).

The CPU 140 receives the pseudoranges calculated by the GPS engine 130 from four satellites, and applies their latitude, longitude, altitude, three coordinates, and four unknowns of clock error to various algorithms to finally apply their positions. Decide

On the other hand, when the GPS of the navigation system as described above is operated for the first time, the GPS finds its current position from a position fixed by the manufacturer. This process, that is, the time for finding its own location, is called a cold start time. For example, if the location fixed by the manufacturer is Seoul and the current user's location is Busan, the GPS searches from Seoul to the current user's location. Therefore, since the search time at this time, that is, the time required for the GPS to be initialized is 15 minutes or more on average, the placenta has a problem that it takes too much time.

Therefore, the GPS stores a received last position in a predetermined memory (not shown) and adopts a method of starting a search from the last position stored in the memory when the GPS is restarted, thereby providing a cold start time. Could shorten.

However, when using a GPS again after moving a considerable distance without using the GPS, there is a problem that the cold start time is long because the current distance is far from the last position stored in the memory.

In addition, since the memory is volatile and the stored last position disappears after a long time, the memory is scanned again from the position fixed by the manufacturer at random, thus causing a long cold start time.

The present invention has been drawn to solve the above problems, an object of the present invention is to provide a system and method for reducing the cold start time of the GPS by interlocking the mobile communication terminal to the GPS.

In order to achieve the above object, the cold start time reduction system of the GPS of the navigation system according to the present invention is a mobile communication terminal having the location information of the base station closest to the current location, the location information from the GPS satellites or the location information of the base station It is characterized in that it comprises a GPS to receive the input and determine its current location.

Here, the GPS includes an antenna for receiving a high frequency satellite signal, a high frequency receiver for demodulating the received high frequency signal, and processing the received satellite signal to calculate a pseudo-range between the GPS and the satellite. A GPS engine, a mapper that receives the location information of the base station and converts the location information required for the GPS, and a location of the GPS using a pseudo distance calculated by the GPS engine or location information transmitted from the mapper. It characterized in that it comprises a CPU for estimating.

In addition, the cold start time reduction system of the GPS of the navigation system according to the present invention is a mobile communication terminal having the location information of the base station closest to the current location, and receives the location information from the GPS satellite or the location information of the base station GPS to determine the current location, and receives the location information of the base station and converts the location information necessary for the GPS, characterized in that it comprises a mapper for transmitting to the GPS.

Here, the GPS includes an antenna for receiving a high frequency satellite signal, a high frequency receiver for demodulating the received high frequency signal, and processing the received satellite signal to calculate a pseudo-range between the GPS and the satellite. And a CPU for estimating the position of the GPS using the calculated pseudorange or the position information transmitted from the mapper.

In addition, the cold start time reduction method of the GPS of the navigation system according to the present invention is a cold start of the GPS having a mobile communication terminal having the location information of the base station and the GPS connected to the mobile communication terminal to determine its current position In the time reduction system, when the GPS request to determine the current position, the first step to determine whether the GPS is a cold start, and if the check result is a cold start, the location information of the base station transmitted from the mobile communication terminal It characterized in that it comprises a second step of determining the current position through.

Here, the first step is characterized in that the current position is determined on the basis of the satellite information that is currently tracked, if the cold start, as a result of the confirmation.

In addition, the second step of the mobile communication terminal to read the base station location information closest to the current self, converting the location information of the base station to the location information necessary for GPS, and the converted location information And transmitting from the communication terminal to the GPS.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments. Like reference numerals refer to like or similar elements throughout the drawings.

Figure 2 is a block diagram showing a cold start time reduction system of the GPS of the navigation system according to the present invention.

As shown, the system includes a GPS 200 for determining its current location using a GPS satellite, a mobile communication terminal 300 having location information of a base station closest to the current location, and a location of the base station. After receiving the information is converted into coordinates such as latitude, longitude, altitude, etc. that is the position information necessary for the GPS (200), and has a mapper 400 for transmitting to the GPS (200).

The GPS 200 may further include an antenna 210 for receiving a high frequency satellite signal, a high frequency receiver 220 for demodulating the received high frequency signal, and processing the received satellite signal to the GPS and the satellite. GPS engine 230 for calculating a pseudo-range and a CPU 240 for estimating the position of GPS using the calculated pseudo distance or position information transmitted from the mapper 400. .

Referring to the cold start time reduction system of the GPS of the navigation system according to the present invention configured as described above are as follows.

The GPS 200 further includes an interface 250 that can exchange information with the mobile communication terminal 300 in conventional GPS. Preferably, the interface 250 is composed of a serial port or a universal serial bus (USB), and can exchange data with the mobile communication terminal 300 through a predetermined protocol.

In addition, the GPS 200 includes a CPU 240 estimating the position of the GPS using the pseudorange calculated by the GPS engine 130 or the position information transmitted from the mapper 400. Therefore, the GPS 200 may process location information of the base station connected to the mobile communication terminal 300 at the cold start.

Meanwhile, the mobile communication terminal 300 can obtain the location information of the base station through a modem mounted in the mobile communication terminal 300. In this case, since the mobile communication terminal 300 always communicates with the base station nearest to itself, the mobile communication terminal 300 may determine that the location information of the base station connected to the modem is optimal. For example, if the current base station number corresponds to No. 30 and the location of the base station is Myeong-dong of Seoul, the mobile communication terminal 300 has location information of 30 or Myeong-dong of Seoul, which is the base station number connected to the modem.

The mapper 400 receives the location information and converts the location information into latitude, longitude, and altitude, which are necessary for the GPS 200, and then transmits the location information to the GPS 200. In this case, the mapper 400 may store in advance the latitude and longitude corresponding to each base station number using the look-up table method.

In addition, the mapper 400 may be included in the GPS 200 or may be included in the mobile communication terminal 300.

The operation of the cold start time reduction system of the GPS of the navigation system constructed as described above will be described with reference to FIG.

First, when a request to search for the current location is received in the GPS 200, the GPS 200 checks whether it is a cold start (S301-302). If the cold start, the mobile communication terminal 300 determines the current position through the location information of the base station. However, if it is not a cold start, the current position is determined based on the satellite information currently being tracked (S303, S308). At this time, whether the cold start, it can be seen as a cold start when the GPS 200 is booted.

Thereafter, the GPS 200 requests the mobile communication terminal 300 for location information necessary for determining a current location through the interface 250 (S304).

Then, the mobile communication terminal 300 reads the location information of the base station nearest to itself from the modem and transmits it to the mapper 400 (S305). In this case, the location information of the base station may be simply a base station number or may be a specific place name.

The mapper 400 converts the location information of the base station received from the mobile communication terminal 300 into location information such as longitude, latitude, altitude, and the like, and transmits the location information to the GPS 200 (S306-S307).

Thereafter, the GPS 200 searches and determines the current location based on the location information (S308). That is, when the GPS 200 is cold start, the CPU searches for the current location based on the location information transmitted from the mobile communication terminal 300.

In general, because the base stations are close at intervals, the GPS 200 searches from the base station location and the cold start time of the GPS becomes very short.

While the present invention has been described in detail with reference to preferred embodiments, those skilled in the art will recognize that various modifications or changes can be made without departing from the spirit and scope of the invention.

As described above, according to the present invention, the cold start time can be reduced when the GPS is used again after moving a considerable distance without using the GPS of the navigation system.

In addition, according to the present invention, even if a long time passes without using the GPS of the navigation system, since it scans its current position from the nearest base station, there is an effect of reducing the cold start time.

Claims (15)

delete Cold start time of a GPS of a navigation system including a mobile communication terminal having location information of a base station closest to a current location, and a GPS which receives location information from a GPS satellite or location information of the base station to determine its current location. In a shortening system, the GPS is An antenna for receiving a high frequency satellite signal, A high frequency receiver for demodulating the received high frequency signal; A GPS engine for processing the received satellite signal and calculating a pseudo-range between the GPS and the satellite; A mapper which receives the location information of the base station and converts the location information into location information necessary for the GPS; And a CPU for estimating the position of the GPS using the pseudorange calculated by the GPS engine or the position information transmitted from the mapper. The method of claim 2, wherein the mapper A cold start time reduction system of a GPS of a navigation system, characterized in that each base station number and its latitude, longitude, and altitude are stored in advance using a look-up table method. The method of claim 2, wherein the mobile communication terminal And a mapper for receiving the position information of the base station and converting the position information into position information necessary for the GPS. The method of claim 2 or 4, wherein the GPS is And a communication interface for exchanging information with the mobile communication terminal. The method of claim 5, wherein the interface A cold start time reduction system of GPS of a navigation system, characterized in that the serial port or USB. A mobile communication terminal having location information of a base station closest to a current location; GPS, which receives the location information from the GPS satellites or the location information of the base station, and determines its current location; And a mapper for receiving the location information of the base station, converting the location information necessary for the GPS, and transmitting the location information to the GPS. The method of claim 7, wherein the mapper A cold start time reduction system of GPS of a navigation system, characterized in that each base station number and latitude, longitude, and altitude matched thereto are stored in advance using a look-up table method. The method of claim 7 or 8, wherein the GPS is An antenna for receiving a high frequency satellite signal, A high frequency receiver for demodulating the received high frequency signal; A GPS engine for processing the received satellite signal and calculating a pseudo-range between the GPS and the satellite; And a CPU for estimating the position of the GPS using the calculated pseudorange or the position information transmitted from the mapper. The method of claim 7 or 8, wherein the GPS is Cold start time reduction system of the GPS of the navigation system comprising an interface for exchanging information with the mobile communication terminal The method of claim 10, wherein the interface A cold start time reduction system of GPS of a navigation system, characterized in that the serial port or USB. delete In the method of reducing the cold start time of the GPS of the navigation system having a mobile communication terminal having the location information of the base station and a GPS connected to the mobile communication terminal to determine its current position, (1) if a request is made to determine the current location of the GPS, the GPS checks whether it is a cold start; (2) if the result of the check is a cold start, determining the current position through the location information of the base station transmitted from the mobile communication terminal; and if the result is not the cold start, determining the current position based on the satellite information currently being tracked. Cold start time shortening method of the GPS of the navigation system comprising a. The method of claim 13, wherein the (2) step is (2-1) reading the location information of the base station closest to the present mobile communication terminal; (2-2) converting location information of the base station into location information necessary for GPS; (2-3) A method for shortening a cold start time of a GPS of a navigation system, comprising transmitting the converted location information from the mobile communication terminal to the GPS. The method of claim 13, wherein the (2) step is (2-1) reading the location information of the base station closest to the present mobile communication terminal; (2-2) transmitting the location information from the mobile communication terminal to the GPS; (2-3) A method for shortening a cold start time of a GPS of a navigation system, comprising converting the location information of the base station into location information necessary for GPS.

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