KR100595655B1 - Location error range detecting apparatus and method for mobile communication device - Google Patents

Abstract

The present invention provides a position error range of a mobile communication terminal for detecting and displaying the position accuracy of the terminal depending on the influence of the CDMA signal or the strength of the GPS signal when using the emergency call (E911) service of the mobile communication terminal using the gpsOne function. The present invention relates to a detection apparatus and a method, comprising: a coupler and a high power detection unit (HDET) for detecting each received signal of a GPS signal reception path and a CDMA signal reception path, and a received signal of each path detected through the high power detection unit by using an AID conversion unit; And a terminal controller (MSM) having a database of a location accuracy table corresponding to the power of each received signal and a combination thereof, and configured to include an E911 service. On request, it detects the power of the CDMA signal and the detected CDMA receive power And that the process of checking; Detecting the power of the GPS signal and checking what level of the detected GPS reception power corresponds to table 2; Combining the level values of the table 1 and the table 2 to check which level the table 3 corresponds to; It can be achieved by including a step of reading the corresponding position error range in Table 3 to display on the screen of the terminal.

Description

LOCATION ERROR RANGE DETECTING APPARATUS AND METHOD FOR MOBILE COMMUNICATION DEVICE}

1 is a block diagram showing the configuration of a mobile communication terminal capable of detecting positional accuracy in accordance with the present invention.

2 is an exemplary view showing a table in which the reception power of each path is divided into predetermined units according to the present invention, and a position accuracy table corresponding to the reception power.

3 is an exemplary view showing a combination method for creating a position accuracy table in FIG.

4 is a flowchart illustrating a method of detecting and displaying position accuracy of a mobile communication terminal according to the present invention.

* Description of the symbols for the main parts of the drawings *

101, 103: coupler 102, 104: high power detection unit

105, 106: AD Converter

The present invention relates to an apparatus and method for detecting a position error range of a mobile communication terminal, and in particular, when using an emergency call (E911) service of a mobile communication terminal using a gpsOne function, a terminal which depends on the influence of a CDMA signal or the strength of a GPS signal. An apparatus and a method for detecting a position error range of a mobile communication terminal for detecting and displaying a position accuracy of the mobile communication terminal.

In general, the Global Positioning System (GPS) is a satellite and ground control / monitoring system launched by the US Department of Defense for positioning using satellite signals and covers the entire world with 24 satellites.

Among them, gpsOne is a technology developed by Qualcomm of the United States, which uses GPS satellite signals to track location, and receives GPS satellite information from mobile communication network in advance to track GPS satellite signals. It can shorten the time and increase the reception sensitivity.

Position Determination Equipment (PDE) is a server connected to a mobile communication network in Qualcomm's gpsOne method, which provides GPS satellite information requested by a gpsOne mobile communication terminal through a network, and is determined by a GPS satellite signal measurement result transmitted by the gpsOne terminal. Calculate the position of and return to the terminal.

Next, the gpsOne-type mobile communication terminal adds a GPS path inside the RF, IF, and MSM configured for CDMA mobile communication, thereby minimizing additional parts to enable location tracking using a GPS satellite signal in the CDMA terminal. It was. Currently, CDMA terminal equipped with gpsOne function is commercially available to provide location tracking service.

However, Qualcomm's gpsOne method does not use GPS and CDMA at the same time, uses two bands (CDMA, GPS) alternately, and needs to transmit / receive data with a network positioning device (PDE). Since it takes about 6 to 30 seconds, the user cannot provide the location information within a short time (every 1 second).

Looking at the configuration of a dual mode mobile communication terminal having a general gpsOne function, consisting of an antenna, a switch (or diplexer), and a filter for each path, GPS signal transmission is performed by a predetermined GPS signal path. The gpsOne function for emergency call (E911) service is operated.

In general, the gpsOne function of the terminal transmits a GPS RF signal through a GPS path, that is, when a user requests E911, the GPS satellite information is received and pseudo range is received using a CDMA call channel. The data will be sent.

Meanwhile, when the gpsOne function of the terminal is operated for the E911 service, it is very important to inform the user of the position accuracy of the terminal numerically. In the prior art, there is no way to inform the user of the position accuracy of the terminal. The user may not know the location accuracy of the terminal that he has, there is a problem that can take a long time in the structure by the accurate position detection.

Accordingly, the present invention was created to solve the above-mentioned conventional problems, the terminal which depends on the influence of the CDMA signal or the strength of the GPS signal when using the emergency call (E911) service of the mobile communication terminal using the gpsOne function It is an object of the present invention to provide an apparatus and method for detecting a position error range of a mobile communication terminal for detecting and displaying a position accuracy of the mobile communication terminal.

In order to achieve the above object, the present invention provides a coupler and a high power detection unit (HDET) for detecting each received signal of a GPS signal reception path and a CDMA signal reception path, and the received signal of each path detected through the high power detection unit. And a terminal controller (MSM) having a database of a location accuracy table corresponding to the power of each received signal and a combination thereof. .

The present invention also provides a method for detecting the power of a CDMA signal when the user requests an E911 service to achieve the above object, and checking the level of the table 1 to determine the detected CDMA power; Detecting the power of the GPS signal and checking what level of the detected GPS reception power corresponds to table 2; Combining the level values of the table 1 and the table 2 to check which level the table 3 corresponds to; And a step of displaying the corresponding position error range in Table 3 on the screen of the terminal.

The present invention is to provide a device and method for determining the position accuracy of the terminal in consideration of the power of the CDMA signal and the power of the GPS signal that can affect the GPS position accuracy when the gpsOne function is operating.

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

1 is a block diagram showing a configuration of a mobile communication terminal capable of detecting a position error range according to the present invention. Coupler (101, 103) and high power detector (HDET: High Power Detector, 102, 104), and the AD converter 105 for converting the received signal of each path detected through the high power detector and outputs to the terminal control unit (MSM) And 106).

Accordingly, when the GPS signal is received from the antenna, the GPS power is recognized through the coupler, and the power is input to the high power detection unit HDET to convert the power into a voltage value. The voltage value is then converted into a digital signal through the AD converter 106 so that it can be recognized by the MSM. In addition, when a CDMA signal is received from an antenna, the CDMA power is recognized through a coupler, the power is inputted to the high power detection unit HDET, converted into a voltage value, and then the voltage value is digitally transmitted through the AD converter 105. It converts the signal so that it can be recognized by the MSM.

Then, as shown in FIG. 2, the terminal controller MSM divides the voltage values of the received powers detected in the respective paths CDMA and GPS by dividing the received power table into predetermined units in advance. To match.

In this case, the reception power tables TABLE1 and TABLE2 divide the reception power into predetermined units by dividing the reception power into predetermined levels (for example, 20 levels), and to which range of each table the reception power of each detected path belongs. Correspondingly, a representative value (center value) of the level is output.

Further, there is further provided a table TABLE3 in which the position accuracy under the conditions corresponding to the respective reception powers is matched as shown in FIG. That is, the level 1 of the CDMA signal power of Table 1 corresponds to each level (20 levels) of the GPS signal power of Table 2, and each level of the GPS signal power of the table 2 (20 levels) to the level 2 of the CDMA signal power. The process of associating the level) is performed for all the divided levels, and in Table 3, the position accuracy (position error range) corresponding to each level is mapped by the experimental value.

That is, as described above, in the method of matching the position accuracy by the reception power of each path (CDMA, GPS), the position accuracy is affected by the reception sensitivity of the signal (depending on the power of the GPS signal and the power of the CDMA signal). It has a linear characteristic), and the error range of the position can be obtained by experiment, and it can be used after storing it in a table (database) format in advance.

4 is a flowchart illustrating a method for detecting and displaying a position error range of a mobile communication terminal according to the present invention. When a user requests an E911 service, first, a power of a CDMA signal is detected using a high power detection unit (HDET). It is checked to which level of the table 1 (TABLE1) the detected CDMA reception power corresponds.

Next, the power of the GPS signal is detected by using the high power detector HDET, and the level of the detected GPS reception power corresponds to the level of the table 2 (TABLE2), and then the corresponding table 1, 2 (TABLE1, TABLE2) is checked. Combines the values of

Next, it checks the level of the table 3 (TABLE3) corresponding to the combined value of the signal of the CDMA and GPS, and read the corresponding position accuracy from the table 3, the current position accuracy (position error range) on the screen of the terminal ) Is how much.

For example, when the CDMA signal power level is 'LEVEL5' in Table 1 and the GPS signal power level is 'LEVEL2' in Table 2, the position accuracy corresponding to 'LEVEL5'-'LEVEL2' in Table 3 is '20m'. In this case, the user may know by displaying the current position information and the accuracy of the position 20m on the screen of the terminal.

As described above, the apparatus and method for detecting the position error range of the mobile communication terminal according to the present invention depend on the influence of the CDMA signal or the strength of the GPS signal when using the emergency call (E911) service of the mobile communication terminal using the gpsOne function. There is an effect of detecting and displaying the position accuracy of the terminal.

The present invention can directly inform the user of the location accuracy of a terminal made at the time of E911 request, thereby enabling a user at risk to directly deal with his or her emergency, and uncertainty of location accuracy, which is a disadvantage of the E911 service. It is effective to make up for it.

Claims (8)

A dual mode mobile communication terminal capable of GPS signal reception and CDMA communication, A coupler and a high power detector (HDET) for detecting each received signal of the GPS signal receiving path and the CDMA signal receiving path; And an AD converter for converting the received signals of the respective paths detected by the high power detector and outputting them to the terminal controller (MSM). And a terminal control unit (MSM) having a database with a position accuracy table corresponding to the power of each of the received signals and a combination thereof. The apparatus of claim 1, wherein the mobile communication terminal is a terminal for receiving a GPS signal of a gpsOne method. The reception power table of claim 1, wherein the reception power table divides the reception power detected in each path (CDMA, GPS) into a predetermined level by dividing the voltage value detected by the high voltage detector by a predetermined unit, and divides the level of each table. And a position accuracy range measured experimentally for each of them in a position accuracy table. The apparatus of claim 1 or 3, wherein the reception power table is configured to output and combine a representative value (center value) of each level to which the measured reception power belongs. A mobile communication terminal capable of position detection using GPS, When the user requests the E911 service, detecting the power of the CDMA signal and checking which level of Table 1 the detected CDMA reception power corresponds to; Detecting the power of the GPS signal and checking what level of the detected GPS reception power corresponds to table 2; Combining the level values of the table 1 and the table 2 to check which level the table 3 corresponds to; And detecting the corresponding position error range in the table 3 and displaying the corresponding position error range on the screen of the terminal. The method of claim 5, wherein the tables 1 and 2 are tables obtained by converting the received power detected in each path (CDMA, GPS) into voltage values and dividing the received power into predetermined levels and dividing them into predetermined levels. A position error range detection method for a mobile communication terminal, comprising: a table in which the position error ranges measured experimentally for each of the levels of the tables 1 and 2 are combined. The method of claim 5, wherein the levels of the tables 1 and 2 are combined so as to correspond to each other once. The method of claim 5, wherein the position error range or position accuracy is displayed in units of distance (length).

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