KR20090059471A - Mobile communication system for time synchronization - Google Patents

Abstract

A mobile communication system for the time synchronization is provided to reduce the system cost by performing the time synchronization through a GPS(Global Positioning System) receiver mounted in only a control station. A GPS receiver(110) receives a predetermined signal from a GPS. The first clock generator(130) generates a system clock through the received predetermined signal. The first TOP module(150) adjusts the clock synchronization and QoS(Quality of Service) between a control station and a base station. The first controller(170) calculates the difference between the time for receiving a packet from the base station and the time for transmitting the packet to the base station, determines the predetermined time suitability, and then determines whether to correct the packet transmission time.

Description

Mobile Communication System for Time Synchronization

The present invention relates to a mobile communication system and a control method thereof. More particularly, the present invention relates to a method for transmitting a packet from a base station by calculating a difference between a time for receiving a packet from a base station and a time for transmitting a packet to the base station. The present invention provides a mobile communication system and a control method for time synchronization that can correct a packet transmission time.

A general mobile communication system is largely composed of a mobile station, a base station, and a mobile communication switching center. A mobile station is a terminal of a wireless subscriber who moves within a service area, and communicates with a base station through a wireless channel. The three main types of mobile stations are PS (Personal Station) for stationary or low speed, MS (Mobile Station) for high speeds such as vehicles or aircraft, and MES (Mobile Earth Station) for services using satellites. Can be. On the other hand, the base station (Base Station), which performs a wireless communication with the mobile station, in the mobile communication system is implemented by placing a base station in each cell by dividing a large area into a small area called a cell for efficient use of the radio channel. On the other hand, the Mobile Switching Center serves as an interface between the public telecommunication network (PSTN) and the mobile communication network, providing circuit switching services to subscribers, as well as managing radio resources and mobile stations. It provides a function to keep track of the location of the service at all times, and to maintain a call even if the mobile station moves during a call.

In general, a mobile communication system implements time synchronization to minimize packet delay time and to distribute traffic load on a transmission path between a control station and a base station. ) It receives time source from receiver and uses it as reference time. In more detail, in the conventional mobile communication system, the GPS receiver receives 1PPS and time information from the GPS engine of the base station GPS signal processing unit in the base station, and generates the system clock based on the information. As a reference, a pulse per 2 second (PP2S) clock is generated and transmitted to the base station modem processing unit. The TOD information is transmitted to the modem processing unit through Ethernet communication.

In order to implement time synchronization in the conventional mobile communication system, since both the control station and the base station have to use the GPS receiver, it is expensive and in particular, it is difficult to install in a small base station such as a femtocell. There was a problem that the system cost is increased and the equipment volume is increased due to the installation.

Accordingly, an object of the present invention is to provide a mobile communication system and a control method capable of generating a system clock using a predetermined signal received from a GPS receiver installed only in a control station and synchronizing between base stations using the same. There is.

That is, an object of the present invention, the GPS receiver for receiving the predetermined signal from the GPS; A first clock generator for generating the system clock using the predetermined signal received by the GPS receiver; A first TOP module for adjusting clock synchronization and quality of service (QoS) between the control station and the base station; And calculating a difference between a time at which the control station receives the packet from the base station and a time at which the packet is transmitted to the base station to determine whether a predetermined time is suitable, thereby transmitting the packet from the base station to the control station. The present invention provides a mobile communication system and a control method including a control station including a first control unit for determining whether to correct a packet transmission time.

In addition, an object of the present invention, the second control unit for checking the packet to confirm the correction factor and the offset; A second TOP module correcting the packet transmission time by adding or subtracting the offset when the correction factor is confirmed by the second control unit; And a base station including a second clock generator for generating the system clock corresponding to the packet transmission time corrected by the second TOP module.

According to the present invention, the above object is based on a predetermined signal received from a GPS (Global Positioning System) and a system clock generated using the predetermined signal in a mobile communication system for time synchronization through a packet network. A control station that determines whether to correct the time for transmitting the packet by the base station by synchronizing between base stations and calculating a difference between a time for receiving a packet from the base station and a time for transmitting the packet to the base station. ; And performing wireless communication between the control station and the mobile communication terminal, transmitting and receiving the packet with the control station, and transmitting the packet from the base station to the control station according to the correction determined by the control station. It is to provide a mobile communication system comprising a base station to be corrected.

In addition, the control station, the GPS receiver for receiving the predetermined signal from the GPS; A first clock generator for generating the system clock using the predetermined signal received by the GPS receiver; A first TOP module for adjusting clock synchronization and quality of service (QoS) between the control station and the base station; And calculating a difference between a time for receiving the packet from the base station and a time for transmitting the packet to the base station, and determining whether or not a predetermined time is suitable, thereby transmitting the packet from the base station to the control station. It may be characterized by including a first control unit for determining whether to correct the time.

The predetermined signal received by the GPS receiver may include a time of day (TOD) signal and a pulse per 2 second (PP2S) signal.

In addition, the first control unit inserts an offset factor of whether to correct the packet transmission time and an offset of a time to be corrected for the packet transmission time into the packet and transmits it to the base station. You can do

On the other hand, the base station, the second control unit for checking the packet to confirm the correction factor and the offset; A second TOP module correcting the packet transmission time by adding or subtracting the offset when the correction factor is confirmed by the second control unit; And a second clock generator for generating the system clock corresponding to the packet transmission time corrected by the second TOP module.

According to the present invention, there is provided a control station of a mobile communication system, comprising: a GPS receiver for receiving a predetermined signal from a GPS; A first clock generator configured to generate a system clock using the predetermined signal; A first TOP module for adjusting clock synchronization and quality of service (QoS) between the control station and the base station; And calculating a difference between a time for receiving the packet from the base station and a time for transmitting the packet to the base station, and determining whether or not a predetermined time is suitable, thereby transmitting the packet from the base station to the control station. It is to provide a control station comprising a first control unit for determining whether or not to correct the time.

The first control unit may insert a correction factor for correcting the packet transmission time and an offset of a time to be corrected for the packet transmission time into the packet and transmit the correction factor to the base station. can do.

According to the present invention, the object of the present invention is to check a packet received from a control station in a base station of a mobile communication system, and to correct whether the packet transmission time for transmitting the packet to the control station and the packet transmission time are corrected. A second controller for checking an offset of time to be performed; A second TOP module for correcting the packet transmission time by adding or subtracting the offset when the packet transmission time correction is confirmed by the second control unit; And a second clock generator for generating a system clock corresponding to the packet transmission time corrected by the second TOP module.

Another object of the present invention is to provide a control method of a mobile communication system, the control station comprising: receiving a predetermined signal from a global positioning system (GPS); Generating, at the control station, a system clock using the predetermined signal; At the control station, synchronizing between base stations based on the system clock; Transmitting a packet from the base station to the control station; Calculating, at the control station, a difference between a time at which the packet is transmitted from the base station to the control station and a time at which the packet is transmitted from the control station to the base station; Determining, at the control station, whether to correct a packet transmission time for transmitting the packet from the base station to the control station by determining whether a predetermined time is suitable based on the calculation; When the correction is necessary, inserting, in the control station, a correction factor for whether the packet transmission time is corrected and an offset of a time to be corrected for the packet transmission time into the packet; And transmitting, by the control station, the packet to the base station.

In addition, receiving the packet from the control station to the base station; Checking, at the base station, the packet to determine whether the correction factor is present; Checking, at the base station, the offset if the correction factor is present; Correcting, at the base station, the packet transmission time according to the identified offset; And transmitting, by the base station, the packet to the control station according to the corrected packet transmission time.

According to another aspect of the present invention, there is provided a control method of a control station of a mobile communication system, the method comprising: receiving a packet from a base station; Calculating a difference between a reception time of the packet and a time for transmitting the packet from the control station to the base station; Determining whether a correction of a packet transmission time for transmitting the packet from a base station to the control station is necessary by determining whether a predetermined time is suitable based on the calculation; If the correction is necessary, inserting a correction factor for the correction of the packet transmission time and an offset of the time to be corrected for the packet transmission time into the packet; And it provides a control method of a control station of a mobile communication system comprising the step of transmitting the packet to the base station.

According to another aspect of the present invention, there is provided a control method of a base station of a mobile communication system, the method comprising: receiving a packet from a control station; Checking the packet to determine whether there is a correction factor for the packet transmission time at which the packet is transmitted from the control station; If there is the correction factor, checking an offset of a time to be corrected with respect to the packet transmission time; Correcting the packet transmission time by adding or subtracting the identified offset; And transmitting the packet to the control station according to the corrected packet transmission time.

According to the present invention by the above means, by generating a system clock using a predetermined signal received by a GPS receiver attached to the control station, synchronization between the control station and the base station can be achieved, and the control station receives packets from the base station. By calculating the difference between the time of reception and the time of transmitting the packet to the base station, and determining whether or not a predetermined time suitability, it is possible to correct the packet transmission time for transmitting the packet from the base station to the control station.

As a result, the GPS station can be attached only to the control station, so that time synchronization can be achieved, resulting in a system and cost reduction effect.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a mobile communication system for time synchronization according to an embodiment of the present invention.

A mobile communication system for time synchronization according to an embodiment of the present invention includes a control station 100 and a base station 300. On the other hand, a typical mobile communication system includes a mobile station, a base station, and a switching station. In this embodiment, a mobile station (mobile communication terminal) is omitted, and only the control station 100 between the switching station and the base station will be described instead of the switching station ( Mobile and switching stations are the same as in conventional mobile communication systems).

The control station 100 is an interface between the switching center and the base station 300. The control station 100 performs control, call processing, and handoff functions of the wired and wireless links, and is composed of a plurality of subsystems to provide a packet data transmission path between the subsystems. do.

The control station 100 synchronizes with each base station based on a predetermined signal received from a Global Positioning System (GPS) and a system clock generated using the predetermined signal, and receives a packet from the base station. By calculating the difference in time for transmitting the packet to the base station, it is possible to determine whether to correct the time for transmitting the packet from the base station.

Referring to the control station 100 in more detail, the control station 100 includes a GPS receiver 110, a first clock generator 130, a first TOP module 150, and a first control unit 170. All.

The GPS receiver 100 may receive a signal of a predetermined signal including a time of day (TOD) signal and a reference signal from a global positioning system (GPS) and transmit the signal to the first clock generator 130.

The first clock generator 130 receives a predetermined signal including a time of day (TOD) signal and a reference signal from the GPS receiver 100 to generate a system clock and a pulse per 2 second (PP2S) signal. It can be used to synchronize motivation. Here, the PP2S (Pulse Per 2 Second) signal is generated based on a reference signal provided from the GPS receiver 100, and typically receives a reference signal from the GPS receiver 100, and based on the reference signal, Since one clock generator 130 is often referred to as generating a system clock, the present embodiment has been described in this manner for convenience of description.

The first TOP module 150 adjusts clock synchronization and quality of service (QoS) between the control station 100 and the base station 300.

The first control unit 170 may determine a predetermined time suitability by calculating a difference between a time for receiving a packet from the base station 300 and a time for transmitting a packet from the control station 100 to the base station 300. . Here, the predetermined time suitability refers to determining whether a difference between a time for receiving a packet from the base station 300 and a time for transmitting a packet from the control station 100 to the base station 300 is within a range allowed by the system. Here, this range may be set according to system characteristics.

The first control unit 170 determines whether the above-described predetermined time suitability, and transmits the packet from the base station 300 to the control station 100 (hereinafter referred to as "the base station 300 to the control station 100"). It is possible to determine whether or not to correct the packet transmission time for transmitting the packet " as the " packet transmission time " for convenience of description. According to the determination of time suitability, if the system exceeds the allowable range, the packet transmission time should be corrected in order to prevent a system error. The packet control time correction may be performed by the first controller 170. have.

In addition, when determining the packet transmission time correction according to the determination of time suitability, the first control unit 170 inserts a correction factor on whether the packet transmission time is corrected and an offset of the time to be corrected into the packet. To transmit to the base station 300.

The base station 300 performs wireless communication with the mobile station. In the mobile communication system, a large area is divided into small areas called cells for the efficient use of the radio channel, and the base station 300 is provided in each cell.

The main functions of the conventional base station 300 include a matching function of wired and wireless channels and a function of transmitting and receiving a packet with a control station. Here, the matching function of the wired / wireless channel transmits a signal through a wireless channel to a mobile station in a cell which is in control of a signal through a wired channel before the base station 300, and conversely controls a signal through a wireless channel received from the mobile station. It transmits a signal through a wired channel to the station 100 and the switching station.

In addition, the base station 300 may check the packet provided from the control station 100 to correct the packet transmission time depending on whether or not the packet transmission time is corrected.

The base station 300 includes a second control unit 310, a second TOP module 330, and a second club generator 350.

The second control unit 310 checks the packet provided from the control station 100 to check a correction factor for correcting the packet transmission time and an offset for the time to be corrected.

When the correction factor is confirmed by the second control unit 310, the second TOP module 330 corrects the packet transmission time by adding or subtracting an offset to the time to be corrected.

The second clock generator generates a system clock corresponding to the packet transmission time corrected according to the second TOP module 330.

2 is a flowchart illustrating a control method of a mobile communication system for time synchronization according to an embodiment of the present invention.

Hereinafter, an operation procedure according to a control method of a mobile communication system for time synchronization according to an embodiment of the present invention will be described in detail with reference to FIG. 2.

The control station 100 receives a predetermined signal from the GPS (Global Positioning System) (S101). Hereinafter, since the procedure up to S108 is a procedure in the control station 100, description of "at the control station 100" will be omitted.

A system clock is generated using a predetermined signal (S102).

On the basis of the generated system clock is synchronized between each base station 300 (S103).

Receive a packet from the base station 300 (S104).

The difference between the time at which the packet is transmitted from the base station 300 and the time at which the packet is transmitted to the base station 300 is calculated (S105).

By determining whether or not the predetermined time suitability based on the calculation, it is determined whether to correct the packet transmission time (S106).

If correction is necessary, a correction factor for correcting packet transmission time and an offset (off-set) of time to be corrected are inserted into the packet (S107).

The packet is transmitted to the base station 300 (S108).

Hereinafter, since S112 is a procedure in the base station 300, description of "at the base station 300" will be omitted.

The packet received from the control station 100 is checked to determine whether there is a correction factor for whether or not the packet transmission time is corrected (S109).

If there is a correction factor, check the offset for the time to be corrected (S110).

The packet transmission time is corrected according to the checked offset (S111).

In accordance with the corrected packet transmission time, the packet is transmitted to the control station 100 (S112).

In the above, while the overall control method for the mobile communication system according to an embodiment of the present invention has been described, hereinafter, the mobile communication system according to an embodiment of the present invention is divided into a control station 100 and a base station 300. The operation sequence for each control method will be described in detail.

3 is a flowchart illustrating a control method for a control station of a mobile communication system for time synchronization according to an embodiment of the present invention.

Hereinafter, an operation procedure of a control method for the control station 100 of the mobile communication system for time synchronization according to an embodiment of the present invention will be described in detail with reference to FIG. 3.

A packet is received from the base station 300 (S201).

The difference between the packet reception time and the packet transmission time from the control station 100 to the base station 300 is calculated (S202).

Based on the calculation, it is determined whether a predetermined time suitability is appropriate, and it is determined whether correction of the packet transmission time is necessary (S203).

If packet transmission time correction is necessary, a correction factor and an offset are inserted into the packet (S204).

The packet is transmitted to the base station 300 (S205).

4 is a flowchart illustrating a control method for a base station of a mobile communication system for time synchronization according to an embodiment of the present invention.

Hereinafter, an operation procedure of a control method for a base station 300 of a mobile communication system for time synchronization according to an embodiment of the present invention will be described in detail.

A packet is received from the control station 100 (S301).

It is determined whether a packet has a correction factor (S302).

If there is a correction factor, check the offset for the time to be corrected (S303).

The packet transmission time is corrected by adding or subtracting the identified offset (S304).

In accordance with the corrected packet transmission time, the packet is transmitted to the control station 100 (S305).

Although the above has been described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and changed within the scope of the invention without departing from the spirit and scope of the invention described in the claims below. I can understand that you can.

The present invention relates to a mobile communication system and a control method thereof. More particularly, the present invention relates to a method for transmitting a packet from a base station by calculating a difference between a time for receiving a packet from a base station and a time for transmitting a packet to the base station. The present invention provides a mobile communication system and a control method for time synchronization that can correct a packet transmission time.

According to the present invention, by generating a system clock using a predetermined signal received by a GPS receiver mounted to a control station, synchronization between the control station and the base station can be achieved, and the time required for the control station to receive a packet from the base station; By calculating the difference in time for transmitting the packet to the base station and determining whether or not the predetermined time suitability, it is possible to correct the packet transmission time for transmitting the packet from the base station to the control station, thereby mounting only the GPS receiver to the control station This enables time synchronization, resulting in system and cost savings.

1 is a block diagram of a mobile communication system for time synchronization according to an embodiment of the present invention.

2 is a flowchart illustrating a control method of a mobile communication system for time synchronization according to an embodiment of the present invention.

3 is a flowchart illustrating a control method for a control station of a mobile communication system for time synchronization according to an embodiment of the present invention.

4 is a flowchart illustrating a control method for a base station of a mobile communication system for time synchronization according to an embodiment of the present invention.

<Description of Signs of Major Parts of Drawings>

100: control station 110: GPS receiver

130: first clock generator 150: first TOP module

170: first control unit 300: base station

310: second control unit 330: second TOP module

350: second clock generator

Claims (12)

In a mobile communication system that synchronizes time through a packet network, The synchronization between the base stations is performed based on a predetermined signal received from a global positioning system (GPS) and a system clock generated using the predetermined signal, and a time for receiving a packet from the base station and the base station. A control station for determining whether to correct the time for transmitting the packet by the base station by calculating a difference in time for transmitting the packet; And Performs wireless communication between the control station and the mobile communication terminal to transmit and receive the packet with the control station, and corrects the time for transmitting the packet from the base station to the control station according to the correction determined by the control station. A mobile communication system comprising a base station. The method of claim 1, The control station, A GPS receiver for receiving the predetermined signal from the GPS; A first clock generator for generating the system clock using the predetermined signal received by the GPS receiver; A first TOP module for adjusting clock synchronization and quality of service (QoS) between the control station and the base station; And A packet transmission time for transmitting the packet from the base station to the control station by determining a time difference by calculating a difference between a time for receiving the packet from the base station and a time for transmitting the packet to the base station. And a first control unit for determining whether to correct the correction. The method of claim 2, The predetermined signal received by the GPS receiver includes a time of day (TOD) signal and a pulse per 2 second (PP2S) signal. The method of claim 2, The first controller inserts a correction factor for correcting the packet transmission time and an offset of a time to be corrected for the packet transmission time into the packet and transmits the correction factor to the base station. Mobile communication system. The method of claim 4, wherein The base station, A second control unit which checks the packet to confirm the correction factor and the offset; A second TOP module correcting the packet transmission time by adding or subtracting the offset when the correction factor is confirmed by the second control unit; And And a second clock generator for generating the system clock corresponding to the packet transmission time corrected by the second TOP module. In the control station of the mobile communication system, A GPS receiver for receiving a predetermined signal from the GPS; A first clock generator configured to generate a system clock using the predetermined signal; A first TOP module for adjusting clock synchronization and quality of service (QoS) between the control station and the base station; And A packet transmission time for transmitting the packet from the base station to the control station by determining a time difference by calculating a difference between a time for receiving the packet from the base station and a time for transmitting the packet to the base station. And a first control unit for determining whether to correct or not. The method of claim 6, The first control unit inserts an offset factor of whether to correct the packet transmission time and an offset of a time to be corrected for the packet transmission time into the packet and transmits the offset to the base station. Control station. In the base station of the mobile communication system, A second control unit which checks a packet received from a control station and checks whether a packet transmission time for transmitting the packet to the control station is corrected and an offset of a time to be corrected with respect to the packet transmission time; A second TOP module for correcting the packet transmission time by adding or subtracting the offset when the packet transmission time correction is confirmed by the second control unit; And And a second clock generator for generating a system clock corresponding to the packet transmission time corrected by the second TOP module. In the control method of a mobile communication system, Receiving, at the control station, a predetermined signal from a global positioning system (GPS); Generating, at the control station, a system clock using the predetermined signal; At the control station, synchronizing between base stations based on the system clock; Transmitting a packet from the base station to the control station; Calculating, at the control station, a difference between a time at which the packet is transmitted from the base station to the control station and a time at which the packet is transmitted from the control station to the base station; Determining, at the control station, whether to correct a packet transmission time for transmitting the packet from the base station to the control station by determining whether a predetermined time is suitable based on the calculation; When the correction is necessary, inserting, in the control station, a correction factor for whether the packet transmission time is corrected and an offset of a time to be corrected for the packet transmission time into the packet; And And transmitting, at the control station, the packet to the base station. The method of claim 9, Receiving the packet from the control station to the base station; Checking, at the base station, the packet to determine whether the correction factor is present; Checking, at the base station, the offset if the correction factor is present; Correcting, at the base station, the packet transmission time according to the identified offset; And transmitting the packet to the control station according to the corrected packet transmission time at the base station. In the control method of the control station of the mobile communication system, Receiving a packet from a base station; Calculating a difference between a reception time of the packet and a time for transmitting the packet from the control station to the base station; Determining whether a correction of a packet transmission time for transmitting the packet from a base station to the control station is necessary by determining whether a predetermined time is suitable based on the calculation; If the correction is necessary, inserting a correction factor for the correction of the packet transmission time and an offset of the time to be corrected for the packet transmission time into the packet; And And transmitting the packet to the base station. In the control method of the base station of the mobile communication system, Receiving a packet from a control station; Checking the packet to determine whether there is a correction factor for the packet transmission time at which the packet is transmitted from the control station; If there is the correction factor, checking an offset of a time to be corrected with respect to the packet transmission time; Correcting the packet transmission time by adding or subtracting the identified offset; And And transmitting the packet to the control station according to the corrected packet transmission time.

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