KR100519162B1 - Method for pursuing position of handset - Google Patents

Abstract

The terminal location tracking method of the present invention uses the technology of Over The Air Parameter Administration (OTAPA) to change the location condition of the user stored in the NVM (Non Volatile Memory) of the portable terminal. The purpose is to provide a terminal location tracking method that can track the.

In order to achieve the above object, the present invention comprises the steps of establishing a traffic channel; Requesting OTAPA start from the base station through the traffic channel, and the terminal accordingly transmitting an OTAPA start response message; Determining whether the protocol is acceptable; If the protocol is acceptable, changing the GPS lock state parameter item stored in the NVM in the terminal to 'always available'; And releasing the traffic channel.

Description

How to track your device location {METHOD FOR PURSUING POSITION OF HANDSET}

The present invention relates to a terminal location tracking method, and more particularly, to a terminal location tracking method capable of tracking the location of a portable terminal user by combining OTAPA (Over The Air Parameter Administration) and Global Positoning System (GPS) technologies. .

In general, GPS is a satellite positioning technology, and a mobile terminal equipped with a Position Determination Entity (PDE) connected to a base station and a GPS antenna tracks the location of a mobile phone using the IS-801 protocol. In addition, OTAPA is a technology that allows a mobile phone user to receive information such as basic information of a mobile phone, Pre Roaming List (PRL), etc. from a base station and store the information in a memory of the portable terminal.

1 is an exemplary view showing a general terminal system. The general terminal system includes a GPS unit 110 equipped with a GPS antenna and receiving GPS data through GPS communication and communication with a base station; An MSM 120 that receives GPS data from the GPS unit 110, recognizes location information such as a location, a moving direction, and a speed of the terminal, and outputs location information when it corresponds to a possible condition for location tracking; Non Volatile Memory (NVM) 130 for storing possible conditions of location tracking; And an RF transceiver 140 which receives position information from the MSM 120, converts the position information into an RF signal, and transmits the RF signal to the base station.

According to the conventional terminal system described above, the location information can be provided to track the location of the mobile phone user in an emergency situation. In other words, even in a terminal equipped with a GPS antenna, since the OTAPA and GPS technology are not combined and the possible conditions of the location tracking stored in the NVM (Non Volatile Memory) 130 cannot be adjusted, the user of the portable terminal in an emergency situation Only the location tracking is possible, but it does not violate the privacy protection such as the criminal, the lost child, the elderly, etc., but it is impossible to track the location without being in an emergency situation. Accordingly, in order to always track the location of the user of the portable terminal, There is a disadvantage in that the related variable is changed or the user of the portable terminal should change the variable related to the location tracking in consultation with the mobile phone service provider.

The present invention devised to solve the above problems, by using the technology of the Over The Air Parameter Administration (OTAPA) by changing the possible condition variable of the location tracking stored in the Non Volatile Memory (NVM) of the portable terminal, An object of the present invention is to provide a terminal location tracking method capable of tracking a user location.

In order to achieve the above object, the terminal location tracking method of the present invention comprises: establishing a traffic channel; Requesting OTAPA start from the base station through the traffic channel, and the terminal accordingly transmitting an OTAPA start response message; Determining whether the protocol is acceptable; If the protocol is acceptable, changing the GPS lock state parameter item stored in the NVM in the terminal to 'always available'; And releasing the traffic channel.

Hereinafter, the most preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the technical idea of the present invention. .

First, FIGS. 2A and 2B are flowcharts illustrating a method for tracking a location of a terminal according to an embodiment of the present invention.

First, a traffic channel is set (S201). That is, a base station and a mobile station transmit a general page message and page response message through a paging and access channel before setting up a traffic channel. The call is set up and a traffic channel is established by performing the transmission of the call (211). Here, the service option of the general page message is '0x12' or '0x13'.

Next, the base station transmits the OTAPA request message through the traffic channel, and the terminal accordingly transmits the OTAPA response message (S202). That is, when the setting process for terminal location tracking is started, an OTAPA request operation (OTAPA Request) in which the value of the start_stop flag (START_STOP) is set to '1' in order to change the parameter of the mobile station in the base station. Command to start the corresponding OTAPA to the terminal, and the terminal transmits the OTAPA response message to the base station through the OTAPA response (OTAPA Response) (212).

Thereafter, it is determined whether the protocol is acceptable (S203). First, when the base station transmits a protocol acceptance request message, the terminal transmits a protocol acceptance response message, and the base station performs different operations according to the protocol acceptance response message at the terminal side. That is, if the feature_ID 0x04 and 0x05 are included, it means that the terminal can support both the GPS lock function and the OTAPA function. If the feature_ID does not include the feature_ID 0x04 or 0x05, the protocol is not included. It is meant to be unacceptable (213).

If the protocol is acceptable, the GPS lock state parameter (NV_GPS1_LOCK_I) stored in the NVM in the terminal is changed from possible in emergency (PDSM_GPS_LOCK_ALL) to always enabled (PDSM_GPS_LOCK_NONE) (S204). That is, the base station transmits a GPS lock state configuration request message, and the terminal sends a GPS lock state configuration response message to inform the base station of the GPS lock state (214). Thereafter, the base station transmits a GPS lock state download request message, and the terminal sends a GPS lock state download response message to inform that the GPS lock state parameter has been downloaded (215). Next, the base station transmits a commit request message, the terminal stores the downloaded GPS lock state parameter in the NVM, and transmits a commit response message to notify the parameter change (216). This process is omitted if the protocol is not acceptable. Here, the values of the GPS lock state parameter NV_GPS1_LOCK_I items include PDSM_GPS_LOCK_NONE, PDSM_GPS_LOCK_MI, PDSM_GPS_LOCK_MT, and PDSM_GPS_LOCK_ALL. In addition, PDSM_GPS_LOCK_ALL means that the IS-801 message is prevented from being transmitted between the base station and the portable terminal in all cases except the 911 (US) or 119 (Korea) call used by the portable terminal user in an emergency situation. On the other hand, the GPS lock state parameter (NV_GPS1_LOCK_I) item is a value stored in the portable terminal NVM and cannot be changed by any external operation unless the mobile phone user changes it.

Thereafter, the traffic channel is released (S205). That is, the terminal instructs the terminal to terminate the OTAPA through an OTAPA request with the start_stop flag START_STOP set to '0', and the terminal sends the terminal to the base station through the OTAPA response. The OTAPA response message is sent (217). When the base station receives such an OTAPA response message, it transmits a release command to release the traffic channel (218).

The OTAPA technology applied to the present invention described above is based on IS-683. When the mobile terminal operator needs to change a specific item in the contents of the portable terminal memory, the base station starts to send an OTAPA request message to the portable terminal. Currently, it is mainly used to change NRL usage and PRL of a portable terminal. Additions for the present invention to IS-683 are as follows.

First, Section 4.5 of IS-683 describes a format of a forward link message, which is summarized in Table 1 below.

The following two messages are added to the forward link message.

In addition, as Section 4.5.1.12, a GPS lock state configuration request message is added as a content of the GPS lock state configuration request message, which is shown in Table 3 below.

Meanwhile, as Section 4.5.1.13, a GPS lock state Download Request message is added as a content of Table 4 below.

The base station shall set the parameter data to gps lock state which the base station wants to change.

In Table 4, the base station may change the GPS lock state parameter NV_GPS1_LOCK_I currently stored in the NVM by PARAM_DATA.

In addition, section 3.5 of IS-683 describes the format of a reverse link message, which is summarized in Table 5 below.

The following two messages are added to the reverse link message.

In addition, as 3.5.1.12, a GPS lock state configuration response message is added as a content of the GPS lock state configuration response message, which is shown in Table 7 below.

In Table 7, the state of the GPS lock state parameter NV_GPS1_LOCK_I currently stored in the NVM is determined by PARAM_DATA.

Meanwhile, as Section 3.5.1.13, a GPS lock state download response message is added as a content of a GPS lock state download response message, which is as shown in Table 8 below.

On the other hand, Table 3.5.1.2.1 of IS-683 shows the result code, which is shown in Table 9 below.

To the content of Table 9 above, the content of Table 10 is added in connection with the present invention.

The names and parameter values of the messages added in the above-described forward link message addition and backward addition matters are not limited to the above-described values, but may be changed to other names and different values.

In addition, Table 3.5.1.7.1, which shows the identifiers for which features the IS-683 supports, is as follows:

In Table 11, the following items indicating that the GPS lock state change function is supported in relation to the protocol acceptance response message are added.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited to the drawings shown.

The present invention, by combining OTAPA and GPS technology, allows a base station to track the location of a portable terminal user with a simple implementation using only OTAPA, without using a wireless Internet browser such as UP or AP, whereby the location of the offender There are advantages that can be used for tracking, tracking the location of a lost child or the elderly. In addition, there is an advantage that can be used for advertising, marketing through the accurate location tracking of the user of the portable terminal in a specific area as well as tracking the location of the vehicle used for logistics with the user's permission.

1 is an exemplary view showing a general terminal system;

2A and 2B are flowcharts illustrating a terminal location tracking method according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

110: GPS unit 120: MSM

130: NVM 140: RF transceiver

Claims (14)

Establishing a traffic channel; Requesting OTAPA start from the base station through the traffic channel, and the terminal accordingly transmitting an OTAPA start response message; Determining whether the protocol is acceptable; If the protocol is acceptable, changing the GPS lock state parameter item stored in the NVM in the terminal to 'always available'; And Releasing a traffic channel; If the protocol is acceptable, changing the GPS lock state parameter item stored in the NVM in the terminal to 'always available', Transmitting, at the base station, a GPS lock state configuration request message; Transmitting a GPS lock state configuration response message to the base station to inform the base station of the GPS lock state; Transmitting, at the base station, a GPS lock status download request message; Transmitting, by the terminal, a GPS lock state download response message to indicate that the GPS lock state parameter has been downloaded; Transmitting a commit request message at the base station; And Storing the GPS lock status parameters downloaded from the terminal to the NVM and notifying the parameter change by sending a commit response message Terminal location tracking method comprising a. The method of claim 1, If the protocol is not acceptable, releasing the traffic channel Terminal location tracking method comprising a. The method of claim 1, Determining whether the protocol is acceptable, It determines whether it is acceptable by recognizing whether it supports OTAPA and GPS locking according to the feature_ID included in the protocol acceptance response message. Terminal location tracking method, characterized in that. The method of claim 3, The feature_id uses one of a plurality of reserved codes among feature_ids of the IS-683 to indicate whether the GPS lock function is supported. Terminal location tracking method, characterized in that. The method of claim 3, The feature_ID uses '0000101' to indicate whether to support the GPS lock function. Terminal location tracking method, characterized in that. delete The method of claim 1, The code of the GPS lock state configuration request message uses one of a plurality of codes held in the forward link message of the IS-683. Terminal location tracking method, characterized in that. The method of claim 1, The code of the GPS lock state configuration request message is '00001011'. Terminal location tracking method, characterized in that. The method of claim 1, The code of the GPS lock state download request message may use one of a plurality of codes held in a forward link message of the IS-683. Terminal location tracking method, characterized in that. The method of claim 1, The code of the GPS lock status download request message is '00001100'. Terminal location tracking method, characterized in that. The method of claim 1, The code of the GPS lock state configuration response message uses one of a plurality of codes held in the reverse link message of the IS-683. Terminal location tracking method, characterized in that. The method of claim 1, The code of the GPS lock state configuration response message is '00001011'. Terminal location tracking method, characterized in that. The method of claim 1, The code of the GPS lock state download response message may use one of a plurality of codes held in the reverse link message of the IS-683. Terminal location tracking method, characterized in that. The method of claim 1, The code of the GPS lock status download response message is '00001100'. Terminal location tracking method, characterized in that.