KR20010039130A - Method for controlling a global positioning system in a mobile communication system having the module - Google Patents

Abstract

PURPOSE: A GPS module control method in a mobile communication terminal having a GPS module is provided to heighten an accuracy of position information in each mode by variably controlling a period and an ON time of a GPS module according to a mobile rate of a terminal, and lengthen a life span of a battery by preventing an unnecessary power consumption as the GPS module is operates as much as a suitable time period. CONSTITUTION: In one of an idle mode and a sleep mode, a position data is transmitted from a GPS module to a handset(201). The position data transmitted from the GPS module to the handset includes a UTC indicative of an agreed international standard time, a 'lat' indicative of a latitude, a 'lon' indicative of a longitude, a speed and date. When the position data is transmitted to the handset, the handset extracts an item related to a mobile rate from the transmitted position data(202), and sets a period and an ON time according to the extracted mobile rate of the terminal(203). When the handset sets the period and the ON time according to the mobile rate of the terminal, reconstructs a new mode command based on it and transmits it to the GPS module(204), the GPS module is operated according to the period and the ON time included in the reconstructed mode command. Accordingly, the accuracy of the position information in each mode can be more heightened.

Description

Method for controlling a global positioning system in a mobile communication terminal having a GPS module

The present invention relates to a GPS module control method in a mobile communication terminal having a GPS (Global Positioning System) module, and in particular, by accurately controlling the operation of the GPS module according to the movement speed of the terminal, the accuracy of the position information of the terminal It relates to a GPS module control method in a mobile communication terminal having a GPS module that can increase the.

Today, with the remarkable development in the field of information and communication, there is a rapid change in the information and communication environment. The driving force behind such changes is the expansion of computers and mobile phones. In particular, the popularization of mobile phones is causing a lot of changes in everyday life as well as in the communication environment. With the popularity of mobile phones, various functions are added to mobile phones, and development and application of information and communication related technologies using mobile phones are actively progressing. As an example, GPS which is a positional information collection system using satellite communication is mentioned.

GPS is a device that sends four to five satellites in each orbit and communicates with four or more satellites anywhere on the earth. It is a system that can receive the signal containing the code and calculate its current position (longitude, latitude, altitude) at some point, especially if it is moving, it can measure the speed.

The method of measuring a location using GPS, by analyzing a specific code of a signal from a GPS satellite to find out when the signal was sent, the time it takes for the signal of the satellite to leave the satellite to the receiver By calculating, the position is measured. That is, since the speed (usually luminous flux) of the satellite signal is known, the distance from the satellite to the receiver can be obtained using the speed and time. And, to know the actual location, we need to know three coordinates of latitude, longitude, and altitude, and four unknowns of clock error. Since the GPS receiver always receives signals from four or more satellites, we obtain four unknown coordinates as four observations. You can track the location of.

In addition, the method of measuring the moving speed by using the GPS can know the two or more positions and calculates the moving speed by calculating the distance and time difference between the two or more positions.

When a GPS module in a mobile communication terminal having a conventional GPS module tracks a user's location, three power modes, that is, continuous mode, idle mode, and sleep ( sleep) mode. Here, the three modes are described in more detail as follows.

1) Continuous Mode: Continuously collects location data of the terminal by operating the receiver of the GPS module without power saving mode.

2) Idle mode: This mode is to set the periodic power saving mode to control the operation of the receiver of the GPS module for a certain period of time to collect location data at time intervals.

3) Sleep mode: This mode is used when the request for location information is less than the idle mode. It sets the power saving mode at a longer period than the idle mode and controls the operation of the GPS receiver to collect location data. The satellite received by the GPS module changes every 30 minutes, so the sleep mode does not exceed a maximum of 30 minutes).

An operation of a mobile communication terminal having a conventional GPS module that performs the three modes described above will be described with reference to FIG. 1.

1 is a diagram illustrating a signal transmission relationship between a handset and a GPS module in a mobile communication terminal having a conventional GPS module.

Referring to FIG. 1, when the position tracking of the terminal using the GPS module 102 is first performed, the main control unit of the handset (the circuit unit performing all functions of the existing mobile phone) 101 is the GPS module 102. ) Is turned on and a setting command of one of the three modes as described above is transmitted to the GPS module 102 according to the required frequency of the location information.

Here, when the handset 101 sends a mode setting command to the GPS module 102, only the mode setting command is transmitted to the GPS module 102 since the GPS module 102 continuously operates in the continuous mode. However, since the idle mode and the sleep mode operate the GPS module 102 at regular intervals, in these cases, the GPS module 102 is actually driven to receive satellite signals for tracking position information in addition to each mode setting command. On time information (e.g., 200 to 500 msec) indicating time, and period (e.g., an interval indicating two times between on time, that is, the GPS module 102 does not actually operate) 1 to 10 minutes) information is sent together.

Meanwhile, the GPS module 102 receiving the mode setting command signal collects the position data for a predetermined time of one of the three modes selected, and then the handset 101 in the $ GPRMC format as shown in FIG. 3. To be sent). Then, the handset 101 shows the current location information to the user through the display window of the terminal by using the received location data, or another information service (for example, the user's When the user wants to receive a map of the current location, or when the user wants to know the location of the user at the central computer (not shown) of the subscribed service, the location data is transmitted to the central computer.

As described above, the conventional GPS module control method sets the mode according to the frequency of the location information request, and sets the period and the on time differently for each mode. However, such a mode setting method only considers how frequently the location information is required, that is, how often the GPS module 102 will collect the location data, and the moving speed of the terminal is not taken into account.

On the other hand, GPS is a system that receives a signal from the satellite and analyzes the signal to track the current location of the terminal as described above, the GPS module 102 should be in good reception for accurate location tracking. However, if the GPS module 102 moves faster, the reception may be poor, and the reliability of the collected position data may be degraded.

In addition, as the moving speed increases, the moving distance becomes longer. Therefore, the faster the speed, the greater the error between the collected position information and the actual position of the terminal at the time of tracking the next position. Therefore, the reliability of the location information collected at some point is low.

On the other hand, the operation that the GPS module 102 actually consumes power to collect the position data is performed only during the on time. Therefore, in the continuous mode, the position data is continuously collected. In the idle mode and the sleep mode, the position data is not collected during the period in each mode, and the position data is collected by receiving a signal from the satellite only during the on time. . Therefore, in the conventional GPS module control method in which the moving speed is not considered, unnecessary power is consumed even when it is not in continuous mode, that is, even though there is no moving speed, the position data is continuously collected for a certain period. There is a problem.

The present invention has been made to solve the above problems, and by setting the period and on time of each mode differently according to the movement speed of the terminal, in a mobile communication terminal having a GPS module that can increase the accuracy of the location information The purpose is to provide a GPS module control method.

1 is a diagram showing a signal transmission relationship between a handset and a GPS module in a mobile communication terminal having a conventional GPS module.

2 is a flowchart showing an execution process of a GPS module control method in a mobile communication terminal having a GPS module according to the present invention.

3 is a diagram showing the configuration of the position data of $ GPRMC format employed in the GPS module control method in a mobile communication terminal having a GPS module according to the present invention.

In order to achieve the above object, the GPS module control method in a mobile communication terminal having a GPS module according to the present invention, converting the data collected from the satellite by the GPS module to a standard format in the GPS to transmit to the handset step; Extracting an item regarding a moving speed of the terminal from the transmitted data; Dividing the speed of the terminal step by step and setting a period of rest of the operation of collecting the position data and an on time of performing the operation of collecting the position data among contents of a command to be transmitted to the GPS module; And constructing a command format for operation of the GPS module based on the set period and on time and transmitting the command format to the GPS module.

As described above, according to the present invention, since the GPS module controls the operation of receiving the position data from the satellite by varying the period and the on time of each position tracking mode according to the moving speed of the mobile communication terminal having the GPS module, the accuracy of the position information Can increase. In addition, there is an advantage that can extend the life of the battery by preventing unnecessary power consumption.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a flowchart illustrating an execution process of a GPS module control method in a mobile communication terminal having a GPS module according to the present invention.

Referring to FIG. 2, first, when performing a location tracking of a terminal using the GPS module 102 (see FIG. 1), in case of a continuous mode, position data is continuously collected in the same manner as a continuous mode of a conventional GPS module. And transmits it to the handset 101. However, when in the idle mode or the sleep mode, the operation by the GPS module control method according to the present invention.

That is, first, in either of the idle mode and the sleep mode, position data is transmitted from the GPS module 102 to the handset 101 (step 201).

Here, the position data transmitted from the GPS module 102 to the handset 101 is UTC 301 representing the coordinated world standard time, and lat indicating latitude with respect to the current position of the terminal, as shown in FIG. latitude 302, longitude 303 for longitude, speed 304 for speed, date 305 for date, and the like.

According to the present invention, a mode setting command is constructed by using information, such as the speed 304 indicating the moving speed of the terminal, as a factor for setting the period and on time in the idle mode and the sleep mode among the various items of the position data. According to the above method, the speed of the terminal can be known through the information of the speed 304 included in the position data without the addition of the speed measuring device to the terminal, and accordingly the movement speed of the GPS module 102 Control is possible.

As above, if the location data is transmitted to the handset 101, the handset 101 extracts an item relating to the movement speed from the transmitted location data (step 202). Then, the period and the on time are set according to the extracted moving speed of the terminal (203).

In this case, when the moving speed of the terminal is high, the moving distance per hour increases, so that the period is shortened to frequently update the collected location information, thereby reducing the error between the actual location and the collected location information and increasing the on time to stabilize the Enable collection of location data. In addition, when the movement speed of the terminal is slow, the movement distance per hour is shortened, so even if the period is long, the error between the actual position and the collected position information is not large, and the position data reception of the terminal is more stable than when the speed is fast, so that the on-time Even if it is not long, accurate position data can be obtained. Therefore, if the moving speed of the terminal is fast, the period is shortened and the on time is long. If the moving speed of the terminal is slow, the period is long and the on time is shortened.

For example, the period and the on time according to the speed are as follows.

When the speed is 0km, period = 20min, on time = 200msec,

When the speed is 10km, period = 15min, on time = 250msec,

When the speed is 30km, period = 10min, on time = 300msec,

When the speed is 60km, period = 5min, on time = 400msec,

When the speed is 100km, period = 1min, on time = 500msec.

When the handset 101 sets the period and on time according to the moving speed of the terminal, reconfigures the new mode command and transmits the new mode command to the GPS module 102 (step 204). It is operated by the cycle and on time included in the mode command. Thereby, the accuracy of the positional information in each mode can be further improved.

As described above, according to the method for controlling a GPS module in a mobile communication terminal having a GPS module according to the present invention, the position information in each mode is controlled by appropriately controlling the period and on time of the GPS module according to the moving speed of the terminal. Can increase the accuracy. In addition, the GPS module is operated only by the most appropriate time by the variable control of the period and on time, thereby preventing unnecessary power consumption and thus extending the life of the battery.

Claims (2)

(a) converting data collected from the satellite by the GPS module into a standard format in GPS and transmitting it to the handset; (b) extracting an item relating to a moving speed of the terminal from the transmitted data; (c) dividing the speed of the terminal step by step and setting a period of rest of the operation of collecting the position data and an on time of performing the operation of collecting the position data among contents of a command to be transmitted to the GPS module; And and (d) constructing a command format for the operation of the GPS module based on the set period and on time, and transmitting the command format to the GPS module. The method of claim 1, wherein in the setting of the period and the on time in the step (c), the period is set short if the moving speed of the terminal is fast and the on time is set long, and the period is long if the moving speed of the terminal is slow. GPS module control method in a mobile communication terminal having a GPS module, characterized in that the time is set short.