KR20050088594A - The method for recognition of repeater area of mobile phone in network-based location service - Google Patents

Abstract

 The present invention provides a method for determining whether a location of a terminal is a service area of a base station or a service area of a repeater in a mobile communication network having a plurality of repeaters, the method comprising: obtaining a distance between the plurality of repeaters and a base station; When receiving the location information of the, measuring the round trip delay time value between the terminal and the base station, and converting the distance value, and if the distance value is greater than or equal to the maximum cell radius of the known base station, the terminal The repeater may be determined to exist in the serviced area, thereby reducing the error of the location providing service of the terminal, thereby improving accuracy, and determining whether the terminal is served by a base station or a repeater.

Description

The method for recognition of repeater area of mobile phone in network-based location service}

The present invention relates to a mobile communication system incorporating a repeater, and more particularly, to a method for minimizing the location recognition and tracking error of a terminal in a repeater region.

At present, the mobile communication system tracks the actual location of the terminal and receives location-based services for rescue in the event of a disaster such as E-911. In the United States and various countries, functions for various mobile communication equipments are required. It additionally specifies what to mount.

Network-based location tracking technology is a base station location tracking method that tracks a user's location by the relative time of signals received from a plurality of base stations or the angle of arrival of a signal. A time of arrival (TOA) method and a time difference of arrival (TDOA) method ) And AOA (Angel of Arrival).

The TOA method calculates the distance by measuring the propagation delay time between the terminal and the base station, and determines the position of the terminal by obtaining the points where circles around each base station overlap from the distances measured by the plurality of base stations.

 The TDOA method determines the location by using the time difference of arrival of signals transmitted from different places, and the propagation time difference which is proportional to the difference of the distance from the plurality of base stations to the terminal is measured, and the distance difference is constant at two opposite base stations. Two or more hyperbolas are drawn, i.e., two base stations are in focus, and the location of the terminal can be determined by selecting an area where the hyperbolas overlap. The TDOA method of position measurement generally uses a triangular arc correlation method to determine the position of the terminal by triangulation using the time difference when the correlation value is the largest.

The AOA method is a positioning method that determines a position by measuring an angle of arrival of a signal sent from a receiver at a signal source. In a fading environment, such as in urban areas, the path of the actual line of sight signal may be obstructed for multipath components. In this case, the AOA method is determined in the direction of the multipath component where the signal strength is the strongest. Therefore, the position measurement error occurs, and even if there is a visible signal component, the multipath acts as a disturbing factor that interferes with the angle measurement. do. Therefore, there is a disadvantage that the measurement distance error increases as the distance between the base station and the mobile station increases even with a small change in the AOA.

The hybrid location tracking technology is an algorithm that considers the accuracy of the GPS method and compensates for the shadow area problem, which is the biggest disadvantage of the GPS method, using the existing network-based TDOA method. Excellent location tracking technology that makes the most of it.

Recently, a technique for introducing a repeater, which is one of the methods for expanding a communication area at low cost in a poor radio wave environment, has been considered in earnest. It is becoming. In other words, in the mobile communication network, a number of repeaters have been introduced and serviced to reduce the cost of constructing the wireless network and to eliminate the shadow area of the base station signal.

However, there is a maximum deviation of a few Km between the actual position of the repeater and the position of the base station antenna. In this case, especially if the terminal is located in the repeater service area, a large error may occur in tracking the location of the terminal using the propagation delay. This is because a terminal belonging to the repeater region cannot measure an accurate time delay between the base station and the base station because a time delay occurs between the base station and the repeater. In addition, since the signal from the repeater is coupled with the signal of the base station, the system does not recognize that the terminal is located in the repeater area and eventually determines the position of the terminal by using an incorrectly measured time delay. In this case, there was a problem in that a lot of errors in the position accuracy.

Accordingly, an object of the present invention, which is invented to solve the problems of the prior art operating as described above, is to provide a method for preventing a location error occurring when using a network type location providing service in a relay area.

Another object of the present invention is to provide a method for recognizing that a terminal is in a repeater area when the terminal is located in a repeater area.

In order to achieve the above object, an embodiment of the present invention provides a method for determining whether a location of a terminal is a service area of a base station or a repeater in a mobile communication network having a plurality of repeaters.

Obtaining a distance between the plurality of repeaters and a base station;

When receiving the location information of the terminal, measuring a round trip delay time value between the terminal and the base station, converting the distance value;

If the distance value is greater than or equal to the maximum cell radius of the known base station, the terminal determines that it exists in the area serviced by the repeater.

Hereinafter, with reference to the accompanying drawings will be described in detail the operating principle of the preferred embodiment of the present invention. Like reference numerals are used to designate like elements even though they are shown in different drawings, and detailed descriptions of related well-known functions or configurations are not required to describe the present invention. If it is determined that it can be blurred, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the specification.

The present invention relates to a method for recognizing whether a location where a terminal exists is an area receiving a service from a base station or an area receiving a service from a repeater using a distance between a base station and a repeater and an RTT.

1 is a view showing the structure of a repeater according to a preferred embodiment of the present invention.

Referring to FIG. 1, the repeater 1 is composed of a part performing a relay function of the signal 3 and the terminal signal 5 received from the base station, and in addition, a satellite capable of determining the position of the repeater 1. It is connected to the navigation system receiver 7.

The repeater 1 receives the signal 1 from the base station and transmits it to the terminal in the shaded area, and receives the signal 5 transmitted by the terminal in the shaded area and relays the signal back to the base station. In addition, the satellite navigation system receiver 7 measures its geographical position. In order to have a positional accuracy, a satellite navigation system receiver with at least several meters of accuracy is used.

2 is a diagram illustrating a mobile communication network incorporating a repeater according to the present invention.

As shown in FIG. 2, the base station service area 11 is an area that can serve from the base station 13, and the repeater service areas 31, 33, and 35 are satellite navigation system receivers (not shown) as shown in FIG. Each of the repeaters 19, 21, and 23, which are separately equipped, can serve. The location service server 17 has geographic location information of the base station 9 and the repeaters 19, 21, 23, calculates the location of the terminal, provides a location service, and is a base station controller RNC (Radio). Network Controller 9 controls signals between the base station 9 and the location service server 17.

The master module 25 of the repeaters 19, 21, 23 of the base station 9 connects the repeaters 19, 21, 23 to the base station 9 using Fast Ethernet. This provides a coupling path 27 carrying the base station signal and the repeater signal. As such, since the signal of the base station and the signal of the repeater are coupled to each other (27), the location service server 17 does not recognize that the terminal 29 receives the service from the repeater (19).

In fact, the passive components that make up the repeater spend more time transmitting and receiving signals and more time spent by the passive components inside the repeater than the time spent on the line (or other linking means) between the base station and the repeater. There is a delay.

Therefore, when the terminal exists in the repeater service area, in order to receive the correct location service signal, the terminal cancels the time delay error generated between the base station and the repeater. If the error is not canceled, a significant time delay error occurs. Therefore, in order to calculate the accurate position signal of the terminal, it is necessary to measure the distance between the base station and the repeater.

Hereinafter, the present invention will be described in detail. The satellite navigation system receiver 7 measures the geographical positions of the repeaters 19, 21, and 23 and transmits them to the upper position providing service server 17 through the base station 9. .

The location service server 17 stores the geographical locations of the repeaters 19, 21, 23 received via the satellite navigation system receiver 7. Since the location providing service server 17 knows the location of the base station 9 in advance, the distance to each repeater is calculated using the base station 9 as a reference point. Since the position format of each base station and repeater is in degrees, this value is converted into an earth centered earth fixed frame (ECEF) coordinate system, which is then converted into an ENU (East North UP) coordinate system, and then between the base station and each repeater. Calculate the distance.

Hereinafter, a method of recognizing the position of the terminal using the distance between the base station and each repeater calculated according to an embodiment of the present invention will be described.

The base station measures the RTT value of a specific terminal requested for location service and provides the same to a higher location service server. The round trip time (RTT) is a time when the base station receives the signal transmitted from the terminal to the terminal again. After dividing the RTT value by 2, it is reduced to a distance and used as a distance value between the base station and the repeater.

The location service server 17 takes the RTT value and compares it with a known maximum cell radius of the base station. Since the maximum cell radius of the base station means the maximum area that the base station can service, if the comparison result is that the measured value of the reduced RTT is smaller than the maximum cell radius, the terminal is located in the area serviced by the base station It exists. Therefore, the location providing service server 17 determines the current location of the terminal as the base station service area.

The location providing service server 17 registers the location of the current terminal as a relay service area when the measured RTT is greater than or equal to the cell radius. This is because, if the measured RTT value is a delay value of a terminal existing in the repeater area, the RTT value includes delay time due to multipath between the base station and the repeater and delay time according to each passive element of the repeater. Therefore, the measured RTT value will be considerably larger than the RTT value of the UE existing within the cell radius of the base station service area.

3 is a flowchart illustrating an operation of determining whether an area where a terminal is located is a base station service area or a repeater service area in a mobile communication network having a repeater according to an exemplary embodiment of the present invention.

Referring to FIG. 3, in step 37, the location service server 17 receives the geographical location of each repeater measured from the satellite navigation system receiver 7 of the repeater.

In step 39, the location service server 17 calculates a distance to each repeater based on a base station. This is used to calculate the distance between the base station and the repeater by converting the received position value to the ECEF (Earth centered Earth fixed frame) coordinates to the ENU (East North UP) coordinate system.

In step 41, the location service server 17 receives a request for location information of the terminal.

In step 43, the base station measures an RTT value of the terminal at the request of the server.

The RTT value is obtained by measuring a time when the base station receives the signal transmitted to the terminal from the terminal again.

In step 45, the location service server 17 has an RTT value of the terminal, a service area cell radius of the base station, and distances between the base station and each repeater, and whether the current location of the terminal is being serviced is a base station service area. Determine if it is a service area.

That is, it compares whether the distance value obtained by dividing the RTT value of the terminal by half and reducing is smaller than the radius of the service area cell of the base station.

If the distance value obtained for the RTT of the terminal is less than the maximum cell radius of the base station, the location service server 17 determines the position of the terminal using the RTT value between the base station and the terminal in a conventional method. . That is, the location of the terminal may be determined using a correlation method of selecting a location where the distance difference is constant at the base station by using a propagation time difference proportional to the difference in distance from the plurality of base stations to the terminal.

If the distance value obtained by the RTT of the terminal is greater than or equal to the cell radius serviced by the base station, the location service server 17 determines that the location of the terminal exists in the service area of the repeater in step 49. .

As an embodiment, when the terminal exists in the repeater service area, the location service server 17 may determine a specific repeater in which the terminal is currently being serviced among a plurality of repeaters. Therefore, the location service server 17 may compensate for the time delay between the base station and the repeater in the measured RTT value of the terminal, and then determine the position of the terminal using the compensated RTT value and the repeater position.

   Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by those equivalent to the scope of the claims.

In the present invention operating as described in detail above, the effects obtained by the representative ones of the disclosed inventions will be briefly described as follows.

The present invention has the effect of improving the accuracy by reducing the error of the location providing service of the terminal in a mobile communication system introducing a plurality of repeaters.

In addition, there is an effect that can determine whether the location that the terminal is being serviced is the service area of the base station or the service area of the repeater.

1 is a view showing the structure of a repeater according to a preferred embodiment of the present invention

2 is a diagram illustrating a mobile communication network incorporating a repeater according to the present invention.

3 is a flowchart illustrating an operation of determining whether a location of a terminal is a base station service area or a repeater service area according to the present invention.

Claims (3)

In a mobile communication network having a plurality of repeaters, a method for determining whether the location of the terminal is the service area of the base station or the service area of the repeater, Obtaining a distance between the plurality of repeaters and a base station; When receiving the location information of the terminal, measuring a round trip delay time value between the terminal and the base station, converting the distance value; And when the distance value is greater than or equal to the maximum cell radius of the base station known in advance, the terminal determines that the terminal exists in an area served by one of the plurality of repeaters. The method of claim 1, wherein the obtaining comprises receiving location information of the repeaters from the satellite navigation system receivers of the repeaters, and converting the location information of the repeaters into a distance value by comparing the location of the base station. The method of claim 1, Determining the location of the terminal by using the distance value by determining that the location of the terminal exists within a geographic area serviced by the base station when the distance value is smaller than the maximum cell radius of the base station known in advance. Method further comprising a.