KR101502831B1 - Apparatus and method for controlling time synchronization between base stations - Google Patents

Abstract

The present invention relates to an apparatus and method for controlling time synchronization between base stations when a reception state of a satellite signal is poor. According to the present invention, time synchronization between base stations is controlled based on the reliability of time synchronization information for each base station, thereby providing time synchronization with high reliability between base stations. In addition, the present invention can utilize the time reference information generated based on the result of collecting the time reference information generated at the base station and the backup information at each base station, so that information can be exchanged between the base station and the wireless network control station It is possible to secure time synchronization information that does not receive the time synchronization information, and it is possible to provide robust time reference information even in various environments and harsh environments.

Description

[0001] Apparatus and method for controlling time synchronization between base stations [0002]

The present invention relates to an apparatus and method for controlling time synchronization between base stations when a reception state of a satellite signal is poor. The present invention also relates to a system for performing time synchronization between base stations using the apparatus.

Currently, a system that performs time synchronization between base stations obtains time synchronization of the entire system using Global Navigation Satellite System (GNSS), especially GPS, and provides call services based on the time synchronization. Therefore, maintaining the time synchronization of the entire system is a very important factor directly related to the maintenance of the call service. 1 is a configuration diagram of a mobile communication network adopting a conventional synchronous type.

In FIG. 1, a part requiring time synchronization between systems is a signal link between the mobile communication terminal 110 and the base station (BS) 120. In order to ensure mobility of the mobile communication terminal 110, synchronization is also required in a portion including the base station 120 and the radio network controller (RNC) 130. All base stations receive the time synchronization signal from the GNSS satellite and determine the generation time of the transmission signal based on the time synchronization signal. That is, the present system receives the time synchronization signal from the satellite and performs time synchronization between the base stations. However, if the reception state of the satellite signal becomes bad / impossible, the system may not be normally driven. So, you need to be prepared for this situation.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a time synchronization control apparatus and method for controlling time synchronization between base stations based on the reliability of time synchronization information for each base station .

According to an aspect of the present invention, there is provided a time synchronization information collecting unit for collecting time synchronization information for time synchronization between base stations from each base station. A reliability discrimination unit for discriminating whether at least one reliability value among the reliability values for the current time obtained from each time synchronization information is larger than a reference value; And controlling the time synchronization between the base stations based on the first time synchronization information related to the reliability value larger than the reference value if the at least one reliability value is larger than the reference value and if the all the reliability values are smaller than the reference value, And a time synchronization controller for controlling time synchronization between the base stations based on the time synchronization information.

Preferably, the time synchronization controller includes: a reliability determination controller configured to determine whether a reliability value obtained from a satellite signal for each base station is greater than a reference value; And a current time information acquisition unit for acquiring current time information from the first base station if a reliability value obtained from the satellite signal is greater than a reference value, Control synchronization.

Preferably, the time synchronization control device includes: a time synchronization information calculation unit for calculating third time synchronization information using a local oscillator provided every predetermined time; And a database building unit for building the first time synchronization information or the third time synchronization information into a database so as to be usable as the second time synchronization information for backup purposes.

Preferably, the time synchronization control apparatus interlocks with the base stations to discriminate whether each base station receives a satellite signal for obtaining the time synchronization information, or whether each base station can calculate the reliability value A base station state determination unit for determining a second state; And when the result of the first determination is that at least one base station does not receive the satellite signal for obtaining the time synchronization information or when the result of the second determination is that at least one base station can not calculate the reliability value And a drive control unit for controlling the time synchronization information collection unit, the reliability determination unit, and the time synchronization control unit to be driven. More preferably, the base station state determiner performs the first discrimination or the second discrimination at predetermined time intervals.

Preferably, the time synchronization control apparatus further includes a reliability determination unit for determining the reliability value for each base station using the parameters obtained when signal processing of the satellite signal for obtaining time synchronization information is performed. More preferably, the parameter includes, as elements, a signal-to-noise ratio of the received satellite signal, a positioning error value by the received satellite signal, and pseudo range information obtained from the received satellite signal, To determine the reliability value.

According to another aspect of the present invention, there is provided a time synchronization information collecting step of collecting time synchronization information for time synchronization between base stations from each base station. A reliability discrimination step of discriminating whether at least one reliability value among reliability values of the current time obtained from each time synchronization information is larger than a reference value; And controlling the time synchronization between the base stations based on the first time synchronization information related to the reliability value larger than the reference value if the at least one reliability value is larger than the reference value and if the all the reliability values are smaller than the reference value, And a time synchronization control step of controlling time synchronization between the base stations based on the time synchronization control information.

Preferably, the time synchronization control method includes: a reliability discrimination control step of controlling to determine whether a reliability value obtained from a satellite signal for each base station is greater than a reference value; And a current time information acquisition step of acquiring current time information from the first base station if a reliability value obtained from the satellite signal is greater than a reference value, To control the synchronization.

Preferably, the time synchronization control method includes: a time synchronization information calculation step of calculating third time synchronization information using a local oscillator provided every predetermined time; And a database building step of building the first time synchronization information or the third time synchronization information into a database so as to be usable as the second time synchronization information for backup purposes.

Preferably, the time synchronization control method includes: determining whether each base station is to receive a satellite signal for obtaining the time synchronization information, in cooperation with the base stations, or determining whether each base station can calculate the reliability value Determining a second base station state; And when the result of the first determination is that at least one base station does not receive the satellite signal for obtaining the time synchronization information or when the result of the second determination is that at least one base station can not calculate the reliability value , The time synchronization information collection step, the reliability determination step, and the time synchronization control step are sequentially performed. More preferably, the base station status determination step performs the first determination or the second determination at predetermined time intervals.

Preferably, the time synchronization control method further includes a reliability determination step of determining the reliability value for each base station using the parameters obtained when signal processing of the satellite signal for obtaining time synchronization information is performed. More preferably, the parameter comprises as elements: a signal-to-noise ratio of the received satellite signal, a positioning error value due to the received satellite signal, and pseudorange information obtained from the received satellite signal, Element is used to determine the reliability value.

The present invention controls the time synchronization between base stations based on the reliability of the time synchronization information for each base station, so that each component in the mobile communication network in a wireless environment where signal reception from the GNSS is not smooth, It is possible to share and utilize robust time synchronous information without receiving it. In addition, it is possible to prevent deterioration of the communication quality of the system due to the time synchronization mismatch, and to prevent the transition to the handover impossible state.

1 is a configuration diagram of a mobile communication network adopting a conventional synchronous type.
2 is a block diagram schematically illustrating a time synchronization control apparatus between base stations according to a preferred embodiment of the present invention.
3 is a block diagram schematically illustrating a configuration that can be added to the inter-base station time synchronization control apparatus according to the present embodiment.
Fig. 4 is an operation flowchart in a communication system to which the present embodiment is applied.
5 is a flowchart schematically illustrating a time synchronization control method according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the preferred embodiments of the present invention will be described below, but it is needless to say that the technical idea of the present invention is not limited thereto and can be variously modified by those skilled in the art.

2 is a block diagram schematically illustrating a time synchronization control apparatus between base stations according to a preferred embodiment of the present invention. 3 is a block diagram schematically illustrating a configuration that can be added to the inter-base station time synchronization control apparatus according to the present embodiment. Hereinafter, a time synchronization control apparatus between base stations will be described with reference to FIG. 2 and FIG. Hereinafter, the time synchronization controller 200 between the base stations will be abbreviated as the time synchronization controller 200.

2, the time synchronization control apparatus 200 includes a time synchronization information collection unit 210, a reliability determination unit 220, a time synchronization control unit 230, a power supply unit 240, and a main control unit 250. As shown in FIG. 1, the communication system includes at least one radio network controller (RNC), and each radio network controller is connected to at least one base station. The time synchronization control apparatus 200 according to the present embodiment is provided in the radio network controller RNC.

The time synchronization information collection unit 210 collects time synchronization information for time synchronization between the base stations from each base station. The reliability determination unit 220 performs a function of determining whether at least one reliability value among the reliability values for the current time obtained from each time synchronization information is greater than a reference value. The time synchronization controller 230 controls the time synchronization between the base stations based on the first time synchronization information related to the reliability value larger than the reference value if the at least one reliability value is larger than the reference value. If all the reliability values are smaller than the reference value, And controls the time synchronization between the base stations based on the second time synchronization information.

In the communication system to which this embodiment is applied, each base station can perform reliability discrimination. In consideration of this, the time synchronization control apparatus 200 may further include a reliability determination controller 310 and a current time information acquisition unit 320 as shown in FIG. 3A. The reliability determination controller 310 performs a function of determining whether the reliability value obtained from the satellite signal for each base station is greater than a reference value. The current time information acquisition unit 320 acquires current time information from the first base station if a reliability value obtained from the satellite signal is greater than a reference value. When the time synchronization controller 200 includes the above configuration, the time synchronization controller 230 controls the time synchronization between the base stations based on the acquired current time information.

In the communication system to which the present embodiment is applied, it is possible to improve the accuracy of time synchronization by performing time synchronization between base stations using time synchronization information whose reliability value is larger than a reference value. In consideration of this, the time synchronization control apparatus 200 may further include a time synchronization information calculation unit 330 and a database construction unit 340 as shown in FIG. 3 (b). The time synchronization information calculation unit 330 calculates the third time synchronization information using a local oscillator provided every predetermined time. The database construction unit 340 constructs the first time synchronization information or the third time synchronization information into a database so as to be usable as second time synchronization information for backup purposes.

In the communication system to which the present embodiment is applied, it is determined whether to operate the time synchronization control device 200 by determining the state of the base station, such as whether the satellite signal is normally received every predetermined time, whether the apparatus for processing the received signal is normally driven, . In consideration of this, the time synchronization controller 200 may further include a base station state determiner 350 and a drive controller 360 as shown in FIG. 3 (c). The base station state determination unit 350 determines whether the base station is capable of receiving a satellite signal for obtaining time synchronization information, or whether each base station can calculate a reliability value, in cooperation with the base stations Function. The base station state determination unit 350 may perform the first determination or the second determination at predetermined time intervals. When the result of the first discrimination is that at least one base station does not receive a satellite signal for obtaining time synchronization information, or when the result of the second determination is that at least one base station can not calculate the reliability value The time synchronization information collection unit 210, the reliability determination unit 220, and the time synchronization control unit 230 are driven. In the above, the two "every predetermined time" means from time to time, etc. every predetermined time.

On the other hand, in the present embodiment, the time synchronization control apparatus 200 can perform reliability evaluation for each base station. At this time, the time synchronization control apparatus 200 may further include a reliability determination unit 370 as shown in FIG. 3 (d). The reliability determination unit 370 performs a function of determining a reliability value for each base station by using parameters obtained when signal processing of a satellite signal for obtaining time synchronization information is performed. Since the reliability value is determined by the parameters obtained in the course of signal processing of the GPS / GNSS signal for each base station, this function can be performed by each base station. The parameter may comprise as elements the signal-to-noise ratio of the received satellite signal, the positioning error value from the received satellite signal, and the pseudorange information obtained from the received satellite signal. At this time, the reliability determination unit 370 can determine the reliability value using at least one element.

Next, a time synchronization control apparatus of Figs. 2 to 3 and a communication system including the apparatus will be described by way of an embodiment. Fig. 4 is an operation flowchart in a communication system to which the present embodiment is applied. The following description refers to Fig.

Conventionally, when time information through GNSS is not secured, various phenomena such as loss of call and handover impossible occur due to inconsistency of time synchronization information between BSs in the RNC. The present embodiment has been proposed in order to solve such a problem, and operates in the form of ADD-ON in the existing base station operation for securing the time information through reception of the GNSS signal. When this embodiment is applied, it is possible to secure the robustness of the time synchronization without being influenced by the radio environment, instead of securing the time synchronization between the mobile communication networks by receiving the GNSS signal through the time synchronization control device with high reliability. The detailed operation flow chart is shown in Fig. In FIG. 4, S10 denotes a flowchart related to securing the base station time synchronization, and S20 denotes a flowchart related to securing the time synchronization of the radio network controller.

When the related operation is started, time information based on the atomic clock is extracted through the GNSS signal reception processing (S11). The reliability of the extracted time information is determined by various parameters generated in the received signal processing. In the case of daily routine in which the reliability exceeds a predetermined standard (S12), the operation for securing the time information through the GNSS signal reception is continuously performed. On the other hand, if the reliability of the time information does not exceed the predetermined threshold value (S12), synchronization is established between the base stations based on the time synchronization information calculated based on the information transmitted from the radio network controller and received by the base station (S13). Here, the parameters for determining the reliability may be various, for example, a signal-to-noise ratio of a GNSS received signal, a positioning error value, and a pseudo distance change rate.

The available parameters for determining the reliability include a received signal-to-noise ratio (SNR or CNo), a positioning error value, a pseudo distance change rate, and the like. The method of determining the reliability from these parameters may vary depending on the implementation, but one embodiment is as follows. If one CNo for each channel is used as a parameter for determining the reliability and there are no more than four channels exceeding a value determined arbitrarily by the CNo, the reliability of the calculated time synchronization information is set to a reliability threshold Or less. In another example, when the reliability is determined from the CNo and the positioning error value, if the CNo exceeds the arbitrary positioning error value while observing the positioning error value while operating as described above, the reliability of the calculated time synchronization information May be set to be equal to or less than a random confidence threshold value. It is possible to implement a method for determining the reliability in various combinations.

The time synchronization means that the time information uses the same information in all BSs in the RNC. The resolution of the time synchronization information required for a voice call or the like is not so high. However, the resolution of the time synchronization information required to be utilized in financial transactions using the mobile communication network is very high. In order to use the same information in all BSs in the RNC while satisfying this resolution, time information is extracted and used based on the information coming from the GPS satellites.

The time information extracted from the base station in S11 is sent to the radio network controller. In the corresponding station, the time synchronization information calculated by each base station is collected including reliability (S21). And extracts parameters to be transmitted to each base station based on the collected information. In this case, the extracted parameters are time information, and it is possible to implement the form in which the user collects and distributes necessary information with mutual promise for the sake of scalability. In addition, the database is constructed based on the extracted parameters, and the reliability is built up. The database is provided in a form that each base station can refer to. For the operation such as inter-base station handover, the PN_OFFSET and PN_PHASE type information is provided to each base station in the radio network controller. However, since only the corresponding parameters are transmitted under the assumption that the absolute time is known, If the reliability of the extracted time information is low based on the reliability of the extracted time information, it is possible to operate in the form of receiving the central control. The base station repeatedly performs a loop for securing the time synchronization. Since the reception state of the GNSS signal may be changed, the time synchronization information is securely received through the reception of the GNSS signal continuously, and the selective operation is performed through the reliability. At the same time, based on the time synchronization information calculated by each base station, the radio network controller converts the available time synchronization information into a database (S24) when the reception of the GNSS signal is not smooth at each base station. At this time, among the collected information, the reliability of the time information is converted into a database by using collected values exceeding a predetermined threshold value (S22). If the reliability of the time information value calculated by all the base stations in the radio network controller does not exceed the predetermined threshold value, the database is converted into a database based on the time synchronization previously secured for use for backup purposes (S23) . The time synchronization information usable for backup includes information using the local oscillator of the radio network controller and information through the local oscillator of the base station. In addition, there are various types of time synchronization information that can be used for backup purposes. The time synchronization information usable for backup means time information having a low resolution calculated from a network higher than the RNC in the structure of the mobile communication network or from a local oscillator of the RNC itself. The time synchronization information usable for backup purposes is secured continuously as long as the operation of the RNC is started.

Next, a time synchronization control method of the time synchronization control device 200 according to the present embodiment will be described. 5 is a flowchart schematically illustrating a time synchronization control method according to a preferred embodiment of the present invention. The following description refers to Fig.

First, time synchronization information for time synchronization between base stations is collected from each base station (time synchronization information collection step, S500). Then, it is determined whether at least one reliability value among the reliability values for the current time obtained from each time synchronization information is greater than a reference value (reliability determination step, S510). Then, if at least one reliability value is larger than the reference value, the time synchronization between the base stations is controlled based on the first time synchronization information related to the reliability value (S520a). If all the reliability values are smaller than the reference value, And controls time synchronization between the base stations based on the time synchronization information (S520b) (abnormal synchronization control step, S520).

In this time synchronization control method, the reliability discrimination control step and the current time information acquisition step can be further performed. The reliability discrimination control step refers to a step of controlling to determine whether the reliability value obtained from the satellite signal for each base station is larger than the reference value. The current time information acquisition step is a step of acquiring current time information from the first base station if a first base station having a reliability value obtained from the satellite signal is larger than a reference value. When the reliability determination control step and the current time information acquisition step are performed in the time synchronization control method, the time synchronization control step (S520) controls the time synchronization between the base stations based on the acquired current time information. In the present embodiment, the current time information acquisition step may be performed simultaneously with the time synchronization information collection step. In consideration of this, the reliability discrimination control step precedes the time synchronization information collection step.

In this time synchronization control method, the time synchronization information calculation step and the database construction step can be further performed. The time synchronization information calculation step means calculating the third time synchronization information using the local oscillator provided every predetermined time. The database construction step refers to a step of constructing the first time synchronization information or the third time synchronization information into a database so as to be usable as second time synchronization information for backup purposes. The time synchronization information calculation step and the database establishment step are performed before the time synchronization control step (S520). In consideration of this, the time synchronization information calculation step and the database establishment step are performed before the time synchronization information collection step (S500), between the time synchronization information collection step (S500) and the reliability determination step (S510), between the reliability determination step (S510) A synchronization control step (S520), or the like.

In this time synchronization control method, the base station state determination step and the drive control step can be further performed. The step of determining a base station state is a step of discriminating whether or not each base station is capable of receiving a satellite signal for obtaining time synchronization information in cooperation with the base stations, or determining whether each base station is capable of calculating a reliability value do. The base station status determination step may perform the first determination or the second determination at predetermined time intervals. The driving control step may be performed when the result of the first discrimination is that at least one base station fails to receive a satellite signal for obtaining time synchronization information or when the result of the second determination is that at least one base station can not calculate the reliability value , It means controlling the time synchronization information collection step S500, the reliability determination step S510, and the time synchronization control step S520 in order. The base station status determination step and the drive control step are performed before the time synchronization information collection step (S500).

This time synchronization control method can further perform the reliability determination step. The reliability determination step refers to a step of determining a reliability value for each base station using parameters obtained when signal processing of a satellite signal for obtaining time synchronization information is performed. The reliability determination step may be performed between the time synchronization information collection step S500 and the reliability determination step S510. This, however, takes into account when the radio network controller (RNC) performs the reliability value determination. When each base station determines the reliability value, the reliability determination step is performed before the time synchronization information collection step. This is because the reliability value determined by each base station is included in the time synchronization information. In the above, the parameters may include elements such as a signal-to-noise ratio of the received satellite signal, a positioning error value by the received satellite signal, and pseudo range information obtained from the received satellite signal. At this time, the reliability determination step may determine the reliability value using at least one element.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

The present invention can be applied to a mobile communication network requiring time synchronization between base stations. In addition, the present invention can be applied to the field of multidisciplinary navigation frequency monitoring and utilization.

110: mobile communication terminal 120: base station (BS)
130: Radio network controller (RNC) 200: Time synchronization controller between base stations
210: time synchronization information collection unit 220: reliability determination unit
230: time synchronization control unit 310: reliability determination control unit
320: current time information acquisition unit 330: time synchronization information calculation unit
340: Database construction unit 350: Base station state determination unit
360: drive control unit 370: reliability determination unit

Claims (14)

A time synchronization information collection unit for collecting time synchronization information for time synchronization between base stations from each base station;
A reliability discrimination unit for discriminating whether at least one reliability value among the reliability values for the current time obtained from each time synchronization information is larger than a reference value;
And controls the time synchronization between the base stations based on the first time synchronization information related to the reliability value that is larger than the reference value if the at least one reliability value is larger than the reference value. If all the reliability values are smaller than the reference value, A time synchronization controller for controlling time synchronization between the base stations;
A reliability discrimination controller for discriminating whether a reliability value obtained from a satellite signal is greater than a reference value for each base station; And
A current time information acquiring unit for acquiring current time information from the first base station and controlling the synchronization information based on the current time information obtained when the first base station having a reliability value obtained from the satellite signal is larger than a reference value,
Wherein the time synchronization control unit comprises: delete A time synchronization information collection unit for collecting time synchronization information for time synchronization between base stations from each base station;
A reliability discrimination unit for discriminating whether at least one reliability value among the reliability values for the current time obtained from each time synchronization information is larger than a reference value;
And controls the time synchronization between the base stations based on the first time synchronization information related to the reliability value that is larger than the reference value if the at least one reliability value is larger than the reference value. If all the reliability values are smaller than the reference value, A time synchronization controller for controlling time synchronization between the base stations;
A time synchronization information calculation unit for calculating third time synchronization information using a local oscillator provided every predetermined time; And
A database construction unit for building the first time synchronization information or the third time synchronization information into a database usable as the second time synchronization information for backup purposes,
Wherein the time synchronization control unit comprises: A time synchronization information collection unit for collecting time synchronization information for time synchronization between base stations from each base station;
A reliability discrimination unit for discriminating whether at least one reliability value among the reliability values for the current time obtained from each time synchronization information is larger than a reference value;
And controls the time synchronization between the base stations based on the first time synchronization information related to the reliability value that is larger than the reference value if the at least one reliability value is larger than the reference value. If all the reliability values are smaller than the reference value, A time synchronization controller for controlling time synchronization between the base stations;
A base station state determiner for determining whether each base station is capable of receiving the satellite signal for obtaining the time synchronization information in cooperation with the base stations or determining whether each base station can calculate the reliability value; And
When the result of the first determination is that at least one base station fails to receive a satellite signal for obtaining the time synchronization information or when the result of the second determination is that at least one base station fails to calculate the reliability value The time synchronization information collection unit, the reliability determination unit, and the time synchronization control unit,
Wherein the time synchronization control unit comprises: 5. The method of claim 4,
Wherein the base station state determiner performs the first discrimination or the second discrimination at predetermined time intervals. The method according to any one of claims 1, 3, and 4,
A reliability determination unit for determining the reliability value for each base station using parameters obtained when signal processing of a satellite signal for obtaining time synchronization information is performed,
Further comprising: a base station to which the base station is connected; The method according to claim 6,
Wherein the parameter comprises as elements a signal-to-noise ratio of the received satellite signal, a positioning error value due to the received satellite signal, and pseudo range information obtained from the received satellite signal,
Wherein the reliability determining unit determines the reliability value using at least one element. A time synchronization information collection step of collecting time synchronization information for time synchronization between base stations from each base station;
A reliability discrimination step of discriminating whether at least one reliability value among reliability values of the current time obtained from each time synchronization information is larger than a reference value;
And controls the time synchronization between the base stations based on the first time synchronization information related to the reliability value that is larger than the reference value if the at least one reliability value is larger than the reference value. If all the reliability values are smaller than the reference value, A time synchronization control step of controlling time synchronization between the base stations;
A reliability discrimination control step of discriminating whether or not a reliability value obtained from a satellite signal for each base station is larger than a reference value; And
Acquiring current time information from the first base station and controlling the synchronization to be performed based on the acquired current time information if a reliability value obtained from the satellite signal is greater than a reference value,
Wherein the time synchronization control method comprises: delete A time synchronization information collection step of collecting time synchronization information for time synchronization between base stations from each base station;
A reliability discrimination step of discriminating whether at least one reliability value among reliability values of the current time obtained from each time synchronization information is larger than a reference value;
And controls the time synchronization between the base stations based on the first time synchronization information related to the reliability value that is larger than the reference value if the at least one reliability value is larger than the reference value. If all the reliability values are smaller than the reference value, A time synchronization control step of controlling time synchronization between the base stations;
A time synchronization information calculation step of calculating third time synchronization information using a local oscillator provided every predetermined time; And
A database construction step of building the first time synchronization information or the third time synchronization information into a database so as to be usable as the second time synchronization information for backup purposes
Wherein the time synchronization control method comprises: A time synchronization information collection step of collecting time synchronization information for time synchronization between base stations from each base station;
A reliability discrimination step of discriminating whether at least one reliability value among reliability values of the current time obtained from each time synchronization information is larger than a reference value;
And controls the time synchronization between the base stations based on the first time synchronization information related to the reliability value that is larger than the reference value if the at least one reliability value is larger than the reference value. If all the reliability values are smaller than the reference value, A time synchronization control step of controlling time synchronization between the base stations;
Determining whether each base station is capable of receiving the satellite signal for obtaining the time synchronization information in cooperation with the base stations or determining whether each base station is capable of calculating the reliability value; And
When the result of the first determination is that at least one base station fails to receive a satellite signal for obtaining the time synchronization information or when the result of the second determination is that at least one base station fails to calculate the reliability value , The time synchronization information collection step, the reliability determination step, and the time synchronization control step are sequentially performed,
Wherein the time synchronization control method comprises: 12. The method of claim 11,
Wherein the base station status determination step performs the first determination or the second determination at predetermined time intervals. The method according to any one of claims 8, 10 and 11,
A reliability determination step of determining the reliability value for each base station using parameters obtained when signal processing of a satellite signal for obtaining time synchronization information is performed;
Further comprising the steps of: 14. The method of claim 13,
Wherein the parameter comprises as elements a signal-to-noise ratio of the received satellite signal, a positioning error value due to the received satellite signal, and pseudo range information obtained from the received satellite signal,
Wherein the reliability determination step determines the reliability value using at least one element.

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