KR20040054134A - Method of Correcting Delay Time of GPS Apparatus through Remote Control in Mobile Communication System - Google Patents

Abstract

PURPOSE: A method for compensating a delay time of a GPS device through remote control in a mobile communication system is provided to input time delay factors of a GPS device, such as a kind and length of a GPS antenna cable installed in a fixed station, to a BSM located far away from a mobile communication system operator, thereby receiving compensated GPS time without directly visiting the fixed station. CONSTITUTION: When a GPS antenna is installed and power is applied(S201), a GPS device inputs a kind of the GPS antenna and length of a GPS antenna cable to a BSM(S202). The BSM calculates a delay time compensation value in accordance with the inputted kind and the length(S203). The BSM transmits a delay time compensation command with the calculated delay time compensation value to a main controller of a base station(S204). The main controller periodically checks whether the GPS device is normal(S205). If so, the main controller transmits a message format to the GPS device(S207). The GPS device sets the time compensation value, and reports set results to the main controller(S208). The main controller reports that the delay time compensation is normally conducted to the BSM(S209).

Description

Method of Correcting Delay Time of GPS Apparatus through Remote Control in Mobile Communication System}

The present invention relates to a delay time correction method of a GPS (Global Positioning System) device in a mobile communication system, and particularly suitable for controlling a delay value after calculating a correction value according to a time delay factor of a GPS device at a remote location. The present invention relates to a delay time correction method of a GPS device through a remote control in a mobile communication system.

A GPS device in a mobile communication system is a device that receives a GPS signal and generates and supplies a reference time having an accurate time with an error of about 100 msec from a GPS time and an error of about 1.0E-11 Hz. The GPS device is composed of a GPS antenna, a control unit, a communication unit, a redundant switching unit, a GPS receiver, an oscillator and a power supply unit for receiving a GPS signal. The GPS device operates automatically by only connecting the GPS antenna to the power supply without user setting, and more detailed operations such as satellite reception status, control status and time can be checked with a computer through the control port located at the rear of the GPS.

The GPS antenna should be at least 2m away from other antennas, and the antenna cable should be 70m long and within 90m maximum. In case of over 90m, line amplifier should be added.

Depending on the type of GPS antenna cable, the transmission speed of received radio waves is slightly different as shown in <Table 1>.

Type of cable Propagation delay time Beldon 9311 (RG 58) 4.19 nsec / m Beldon 8267 (RG 213) 5.05 nsec / m Beldon 913 (RG 8) 3.94 nsec / m

As shown in Table 1, the propagation delay time varies depending on the type of antenna cable, and the propagation delay time varies depending on the cable length. The time difference according to the antenna cable type and cable length should be set by the operator directly inputting a command to a terminal program of the computer (for example, Procomm, Hyper Terminal, etc.) through the control port of the GPS rear panel. In this case, since the GPS antenna cable time correction value set by the operator is stored in the nonvolatile memory in the GPS, there is no need for resetting due to power off.

In the mobile communication system, if the time correction is not performed according to the type and length of the GPS antenna cable, or it is wrong, a handoff drop may be caused.

In the present specification, as a concept corresponding to a mobile station, a fixed station will be used as a concept including a base transceiver station (BTS) and a control station (BSC).

Conventionally, in order to correct a propagation delay time according to a time delay factor of a GPS device such as a type and a length of a GPS antenna, a correction value should be set by directly connecting a GPS device and a computer where the GPS device is located. In this case, when the GPS device is separated from the outside or a system such as a base station and a control station in which the GPS device is installed is located adjacent to the wall, it is difficult to set up because the connection to the control port located at the rear of the GPS device is difficult. .

Therefore, the propagation delay time according to the time delay factor of the GPS device, such as the type and length of the GPS antenna, can be corrected by setting a correction value without directly connecting the GPS device, and the base station and the control station where the GPS device is installed, etc. Even if the system is located adjacent to the wall, there is a need for a method that is not difficult to set up.

1 is a block diagram illustrating functional blocks of a base station of a mobile communication system.

2 illustrates an embodiment of a delay time correction method of a GPS device through a remote control in a mobile communication system according to the present invention.

The delay time correction method of the GPS device through the remote control in the mobile communication system of the present invention is to solve the above problems, in the mobile communication system having a base station manager (BSM) and the GPS device, from the BSM (A) transmitting a delay time correction command for correcting a delay time of the GPS device to a fixed station equipped with the GPS device; And the main controller of the fixed station receiving the delay time correction command in step (a), when the GPS device is operating normally, transmitting a message format for controlling the GPS device to the GPS device (b). It characterized by including).

Step (a) comprises the steps of: inputting a time delay factor of the GPS device to the BSM; And after step (d) of calculating a delay time correction value according to the time delay factor of the GPS device input in step (c).

In step (a), the delay time correction value calculated in step (d) is transmitted together.

(E) setting, by the GPS device receiving the message format in step (b), a delay time correction value and reporting the setting result to the main control unit of the fixed station; And a step (f) of reporting the result of the setting in step (e), to report that the delay time correcting operation is normally performed to the BSM.

In step (a), the delay time correction command is transmitted, and when the GPS device is operating normally, if it is not in normal operation, the delay time correction is characterized in that it reports to the BSM.

1 is a block diagram illustrating functional blocks of a base station of a mobile communication system.

The base station main control unit 100 is a part that performs overall control of the base station system, and includes system control, call processing, system operation / maintenance function, wireless protocol processing with the mobile station, data transmission and reception with the control station 110, and protocol. The digital signal processor 130 is in charge of processing functions, and the channel card function of supporting and processing a mobile communication system wireless access standard. The transceiver processing unit 150 converts an intermediate frequency (IF) signal into an RF signal and transmits the RF signal to the RF transmission / reception processing unit 160 and transmits the received RF signal passing through a low noise amplifier (LNA) to an intermediate frequency. It converts the signal into a digital signal processing unit 130 and transmits the function.

The RF transmit / receive processor 160 performs a function of amplifying, filtering, combining, and distributing the transmit / receive RF signal in order to provide an RF path between the transceiver processor 150 and the GPS antenna for the forward and reverse RF signals. In addition, the base station synchronizer 140 performs a function of providing a clock signal required from each part of the system by using the GPS signal received from the satellite as a reference signal in order to synchronize the time of the base station. The control station matching unit 120 is responsible for the interface function for the traffic and signaling for the connection between the base station and the control station.

The base station manager (BSM) 170 is an operation center, which allows program loading of base stations and control stations, operator matching, system configuration management, status management, statistical data collection / management, fault handling, system test functions, resource management, system security, and It is in charge of overall functions of system operation / maintenance such as remote control.

2 illustrates an embodiment of a delay time correction method of a GPS device through a remote control in a mobile communication system according to the present invention.

In the embodiment to be described below, when the GPS device is installed in the base station, as the time delay factor of the GPS device, the type of the GPS antenna cable and the length between the GPS device and the GPS antenna will be considered.

First, the GPS antenna is installed outside the base station and then powered on (S201), and the type of the GPS antenna cable and the length of the GPS antenna cable installed in the system of the base station are input to the BSM (S202). The length of the GPS antenna cable refers to the length of the cable from the GPS antenna to the GPS device of the base station in which the GPS antenna is installed.

In step S202, the BSM that receives the type of the GPS antenna cable and the length of the GPS antenna cable calculates a delay time correction value according to the type of the GPS antenna cable and the length of the GPS antenna cable (S203). The BSM transmits a delay time correction command to the base station main controller together with the calculated delay time correction value (S204).

The base station main controller receiving the calculated delay time correction value and the delay time correction command from the BSM periodically checks whether the corresponding GPS device is in a normal state (S205). If it is determined that the GPS device does not normally receive GPS signals or is not operating normally due to other problems, the BSM may report that the delay time correction operation failed due to an abnormal state of the GPS device. (S206).

As a result of the check in step S205, when the GPS device is operating normally, the base station main control unit transmits a message format for controlling the GPS device to the GPS device (S207). The GPS device receiving the message format from the base station main control unit sets the time correction value to the GPS device and reports the setting result to the base station main control unit (S208). The base station main control unit which has received the setting result reported from the GPS device reports to the BSM that the delay time correcting operation is normally performed (S209).

By the delay time correction method of the GPS device through the remote control in the mobile communication system of the present invention, the mobile communication system operator does not need to go directly to the fixed station equipped with the GPS antenna, the GPS antenna installed in the fixed station even in the BSM located geographically away It is possible to receive the corrected GPS time by inputting the time delay factor of the GPS device, such as cable type and length, into the BSM.

In addition, when the user wants to know the time correction value according to the GPS device time delay factor such as the type and time of the GPS antenna cable of a specific station, the operator may request the time correction value to the main control unit of the station through the BSM. The main control unit of the fixed station forwards the request to the GPS device and reports the set value from the GPS device. The main control unit of the fixed station received from the GPS device reports the set value to the BSM. Through this procedure, the operator can know the time correction value according to the type and time of the GPS antenna cable of each fixed station.

Claims (5)

In a mobile communication system having a BSM and a GPS device, (A) transmitting, from the BSM, a delay time correction command for correcting a delay time of the GPS device to a fixed station equipped with the GPS device; And The main controller of the fixed station receiving the delay time correction command in step (a), when the GPS device is operating normally, transmitting a message format for controlling the GPS device to the GPS device (b). A delay time correction method of a GPS device through a remote control in a mobile communication system comprising a. The method of claim 1, wherein step (a) comprises: (C) inputting a time delay factor of the GPS device to the BSM; And Delay of the GPS device via a remote control in a mobile communication system, characterized in that after the step (d) of calculating a delay time correction value according to the time delay factor of the GPS device input in the step (c) Time correction method. The method of claim 2, The step (a) is a delay time correction method of the GPS device through a remote control in the mobile communication system, characterized in that for transmitting the delay time correction value calculated in the step (d) together. The method of claim 3, wherein (E) setting, by the GPS device receiving the message format in step (b), a delay time correction value and reporting the setting result to the main control unit of the fixed station; And The main control unit of the fixed station that has received the result of setting in step (e) further comprises the step of (f) reporting to the BSM that the delay time correcting operation is normally performed. How to calibrate the delay time of the GPS device through. The method of claim 1, In the step (a), and transmits a delay time correction command, if it is determined that the GPS device is operating normally, if not in normal operation, reporting to the BSM that the delay time correction failed in the mobile communication system How to calibrate the delay time of a GPS device via remote control.