KR20100062678A - A system of decreasing cold start time of gps and a method thereof - Google Patents

Abstract

PURPOSE: A system and a method capable of reducing a GPS cold start time are provided to shorten the GPS cold start time with calculating a position of a terminal from a transmitting station in advance. CONSTITUTION: A GPS receiver(131) receives a GPS satellite information. A server(133) generates an assistant data from the GPS satellite information. A mobile communications transmitter(132) transmits the assistant data to the terminal.

Description

A system of decreasing cold start time of GPS and a method

The present invention relates to a system and method for reducing GPS cold start time, and more particularly, to a system and method for reducing cold start time in a terminal receiving a GPS signal.

Global Positioning System (GPS) is a system that enables the measurement of position, velocity and time in a standard coordinate system using a GPS (Space Vehicle) anywhere on the earth. The GPS consists of 24 GPS satellites, 21 of which are used for navigation and the other three are reserved. The GPS satellites exist in a total of six tracks, and four GPS satellites are arranged in one track to communicate with four or more GPS satellites at any point on the earth at the same time. If any terminal location is represented by coordinates (x, y, z), there are three unknowns, and at least four GPS satellites are required because the time difference between the GPS satellite and the terminal must be taken into consideration.

One indicator for evaluating the performance of this GPS is TTF (Time To First Fix). TTF means time required for calculating the position of the terminal in the cold start state. When the terminal using GPS determines its own location, GPS satellite information having a valid period is used. The terminal stores the GPS satellite information. When the power is turned off for a predetermined period and then turned on again, the GPS satellite information may not be valid after the validity period. Then, the terminal can determine the location again to receive valid GPS satellite information, this case is usually called cold start.

In the cold start state, it takes much longer for the terminal to function than the warm start state. One reason for this time is that the LOS (Line Of Sight) is not guaranteed, such as downtown or indoors, or there is much interference in receiving satellite signals. This may be because the terminal operates in an environment where there is a signal and does not receive valid GPS satellite information. In order to solve this problem, a method of simply retransmitting valid GPS satellite information is known.

Another reason for the time taken in the cold start state is that the transmission rate of the channel between the terminal and the GPS satellite is only 50 bit / s, it takes time to receive the necessary GPS satellite information. Another reason is that even if the terminal receives valid GPS satellite information, it is necessary to calculate the RF (Radio Frequency) signal transmission time, the Doppler frequency transition, and convert the pseudo-range (Pseudo-Range, PR) to determine the location of the terminal. Because of the process.

As described above, the time required for the cold start in the terminal using GPS causes inconvenience to the user of the terminal.

It is an object of the present invention to provide a system and method for reducing cold start time in a terminal using GPS.

The system for reducing the GPS cold start time according to the present embodiment includes: a mobile communication transmitting station receiving GPS satellite information from a GPS satellite and processing and transmitting auxiliary data necessary for determining a location of the terminal by a terminal within a predetermined distance; And a terminal for determining a location from the auxiliary data when the auxiliary data is received from the mobile communication transmitting station and for determining a location from the GPS satellite information if the auxiliary data is not received.

The mobile communication transmitting station includes a GPS receiver for receiving the GPS satellite information; A server generating the auxiliary data from the GPS satellite information; And a mobile communication transmitter for transmitting the auxiliary data.

The server calculates the position and speed information of the GPS satellite from the GPS satellite information and provides the auxiliary data as the auxiliary data, and the transmitting station transmits the auxiliary data to a specific channel having a higher transmission rate than a channel between the GPS satellite and the terminal. Send periodically.

The system according to the present embodiment may further include a wireless access point (AP) for receiving and retransmitting the auxiliary data.

According to another embodiment, a method of reducing a GPS cold start time may include determining validity of GPS satellite information stored in a terminal; When the stored GPS satellite information is not valid, receiving, via a mobile communication network, auxiliary data necessary for determining a location of the terminal, which is calculated from the GPS satellite information, as a signal transmitted from a mobile communication transmitting station; And determining the location of the terminal from the auxiliary data.

If the auxiliary data is not received, the method may further include receiving GPS satellite information from the GPS satellites, and the auxiliary data may be location and speed information of the GPS satellites calculated from the GPS satellite information.

The terminal may be any one of a personal mobile communication (PCS), a personal data assistant (PDA), a handheld PC, and a navigation terminal.

The system and method for reducing the GPS cold start time according to the present embodiment, after receiving the GPS satellite information from the mobile communication transmitting station in advance, calculates necessary to determine the position of the terminal and transmits the calculated information, the terminal is the calculated information Can reduce the GPS cold start time.

Hereinafter, preferred 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.

1 is a diagram schematically showing a system for reducing GPS cold start time according to the present embodiment. 2 is a block diagram showing the configuration of a terminal used in the system according to the present embodiment. 3 is a block diagram showing the configuration of a mobile communication transmitting station in the system according to the present embodiment. 1 to 3, a system for reducing GPS cold start time includes a GPS satellite 110, a terminal 120, a mobile communication transmitter 130, and a wireless access point (AP) 140.

GPS satellites (SV) 110 is provided with a plurality, and transmits GPS satellite information. The GPS satellite information includes almanac, ephemeris, and C / A code. Here, almanac is a set of variables used to determine the approximate location information of GPS satellites and has a shelf life of several months, and epitomes are information necessary to determine the exact location of the GPS satellites. It includes. Effimurs is valid for 3 to 6 hours. Coarse / Acquisition code is a different code for each GPS satellite, and is used to determine pseudo range and time difference between the GPS satellite and the terminal. The almanac transmits information about all the GPS satellites in which each GPS satellite is different, and the Effyheads transmits only the information about each GPS satellite.

The terminal 120 is an information communication device using GPS. For example, the terminal 120 may be any one of a personal mobile communication (PCS), a personal data assistant (PDA), a handheld PC, and a navigation terminal. Hereinafter, the case where the terminal 120 is a navigation terminal will be described, but this is not a limitation, and it is obvious that the present embodiment can be applied to any terminal using GPS.

Referring to FIG. 2, the terminal 120 includes a GPS receiver 121, a mobile communication receiver 122, a GPS engine 123, an electronic map DB 124, a memory 125, and a controller 126. .

The GPS receiver 121 receives GPS satellite information from the plurality of GPS satellites 110. The mobile communication receiver 122 receives auxiliary data transmitted from the mobile communication transmitting station 130. The auxiliary data will be described later.

The GPS engine 123 determines the position of the terminal 120 from the received auxiliary data or the received GPS satellite information. The process of determining the position from the GPS satellite information by the GPS engine 123 requires a calculation process, which will be described below.

First, the GPS engine 123 compares the position of the almanac and the terminal already stored in the memory 125 and secures it to the field of view (meaning a line of sight is secured). Figure out. Since the GPS engine 123 knows the C / A code transmitted from each GPS satellite 110 in advance, when the GPS satellite ID is known in the field of view, the GPS engine 123 may generate a C / A code transmitted from the GPS satellite. have. Then, by comparing the correlation between the C / A code received by the GPS receiver 121 and the C / A code generated by the GPS engine 123, the time difference with the GPS satellites, GPS satellites Know your location and speed, Doppler frequency, and more.

On the other hand, when the GPS engine 123 determines the current position using the auxiliary data, the mobile communication transmitter 130 processes the above calculation process in advance and transmits the result as the auxiliary data. This can shorten the time to determine the position.

The electronic map database 124 stores a portion of map data such as road information. Such map data is information required when the terminal 120 is used as a navigation terminal.

The memory 125 stores the GPS satellite information and includes a nonvolatile memory such as a flash memory and a RAM that is backed up by a battery. The RAM stores GPS satellite information having a short validity period (for example, Ephimurs), and stores non-volatile GPS satellite information such as almanac and location information of the terminal. When the power is turned on again after the power is turned off at the terminal 120, the position of the terminal 120 may be known from the position information.

The controller 126 determines whether the auxiliary data can be received by the mobile communication receiver 122. If the auxiliary data can be received, the information is provided to the GPS engine 123. If the auxiliary data is not available, the GPS satellite information received from the GPS receiver 121 is provided to the GPS engine 123. do.

Referring to FIG. 3, the mobile communication transmitter 130 includes a GPS receiver 131, a mobile communication transmitter 132, and a GPS satellite information server 133. The GPS receiver 131 receives GPS satellite information from the GPS satellites 110. Since the GPS receiver 131 is far superior in sensitivity and performance than the GPS receiver 121 provided in the terminal 120, the GPS receiver 131 can stably receive GPS satellite information from more GPS satellites 110.

The mobile communication transmitter 132 transmits auxiliary data through a specific channel. The specific channel has a transmission rate greater than the transmission rate (50 bits / s) of the channel between the terminal 120 and the GPS satellite 110, and is a channel capable of transmitting a signal using a specific frequency. The mobile communication transmitter 132 periodically transmits auxiliary data.

The GPS satellite information server 133 receives GPS satellite information from the GPS receiver 131 and provides auxiliary data through a process such as decoding. In this case, the auxiliary data includes information about GPS satellites (eg, the position and speed of the GPS satellites and the Doppler frequency) which are secured in the field of view of the terminal within a predetermined distance from where the mobile communication transmission station 130 is located. Information).

The GPS satellite information server 133 provided in the mobile communication transmitting station 130 is much more computing power than the GPS engine 123 provided in the terminal 120, there is no burden on power consumption, the GPS receiver 131 ) The amount of information provided is large and accurate. By this, it is faster and more accurate than the GPS engine 123 to find the GPS satellite signal frequency where the deviation occurs little by little due to the Doppler effect and to interpret the location information of each GPS satellite. That is, the GPS satellite information server 133 calculates in advance what is to be calculated by the GPS engine 123 of the terminal 120 and provides the auxiliary data.

The wireless AP 140 receives auxiliary data transmitted from the mobile communication transmitting station 130 and retransmits it with a predetermined power. The plurality of wireless APs 140 are arranged in a local arrangement, so that it is easy to receive the auxiliary data from the terminal 120.

Hereinafter, a method of reducing the GPS cold start time according to the present embodiment will be described. 4 is a flowchart showing the flow of a method for reducing GPS cold start time according to the present embodiment. Referring to FIG. 4, first, when the terminal is powered on (S41), the GPS engine 123 determines the validity of the GPS satellite information stored in the memory 125 (S42). At this time, if the almanac and epiphys among the GPS satellite information is not valid beyond the valid period, or only the epiphys is invalid (that is, when the cold start should be performed in the terminal), the GPS engine 123 The cold start request signal is transmitted to the controller 126.

Then, the controller 126 determines whether the auxiliary data transmitted from the mobile communication transmitting station 130 can be received (S43). If the auxiliary data can be received by the mobile communication receiver 122, the controller 126 causes the mobile communication receiver 122 to receive the auxiliary data using power (S44).

On the other hand, if the mobile communication receiver 122 cannot receive the auxiliary data, the GPS receiver 121 receives GPS satellite information through the receiver (S45).

If the auxiliary data can be received, the control unit 126 provides the received auxiliary data to the GPS engine 123 and the GPS engine 123 determines the position of the terminal. On the other hand, if the auxiliary data is not receivable, the controller 126 provides the GPS satellite information to the GPS engine 123 and the GPS engine 123 determines the position of the terminal from the GPS satellite information.

Although described in detail with respect to the preferred embodiment of the present invention as described above, those skilled in the art to which the present invention pertains, without departing from the spirit and scope of the invention as defined in the appended claims Various modifications may be made to the invention. Therefore, changes in the future embodiments of the present invention will not be able to escape the technology of the present invention.

1 is a diagram schematically showing a system for reducing GPS cold start time according to the present embodiment.

2 is a block diagram showing the configuration of a terminal used in the system according to the present embodiment.

3 is a block diagram showing the configuration of a mobile communication transmitting station in the system according to the present embodiment.

4 is a flowchart showing the flow of a method for reducing GPS cold start time according to the present embodiment.

<Description of the symbols for the main parts of the drawings>

110: GPS satellite

120: terminal

130: mobile communication transmitting station

133: GPS satellite information server

Claims (10)

A mobile communication transmitting station which receives GPS satellite information from a GPS satellite, and transmits the GPS satellite information within a predetermined distance after processing the auxiliary data necessary for determining the position of the terminal; And A system for reducing a GPS cold start time comprising a terminal for determining a location from the auxiliary data when the auxiliary data is received from the mobile communication transmitting station and for determining a location from the GPS satellite information if the auxiliary data is not received. . The method of claim 1, wherein the mobile communication transmitting station is A GPS receiver for receiving the GPS satellite information; A server generating the auxiliary data from the GPS satellite information; And And a mobile communication transmitter for transmitting the auxiliary data. The method of claim 2, And the server calculates the position and speed information of the GPS satellite from the GPS satellite information and provides the auxiliary data as the auxiliary data. The method of claim 1, And the transmitting station periodically transmits ancillary data to a specific channel having a higher transmission rate than a channel between the GPS satellite and the terminal. The method of claim 1, And a wireless access point (AP) for receiving and retransmitting the auxiliary data. The method according to claim 1, wherein The terminal is a system for reducing the GPS cold start time, characterized in that any one of a personal mobile communication (PCS), PDA (Personal Data Assistance), portable PC (Handheld PC), navigation terminal. Determining validity of GPS satellite information stored in the terminal; When the stored GPS satellite information is not valid, receiving, via a mobile communication network, auxiliary data necessary for determining a location of the terminal, which is calculated from the GPS satellite information, as a signal transmitted from a mobile communication transmitting station; And Determining the position of the terminal from the assistance data. The method of claim 7, wherein And receiving GPS satellite information from a GPS satellite when the auxiliary data is not received. The method of claim 7, wherein The auxiliary data is a method of reducing the GPS cold start time, characterized in that the GPS satellite position, the speed information calculated from the GPS satellite information. The method of claim 7, wherein The terminal is a method for reducing the GPS cold start time, characterized in that any one of a personal mobile communication (PCS), PDA (Personal Data Assistance), portable PC (Handheld PC), navigation terminal.

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