KR101421523B1 - Network synchronization system and network synchronization method - Google Patents

Abstract

It is an object of the present invention to provide a network synchronization system and a network synchronization method capable of accurately synchronizing with a network based on IP without being affected by environmental factors while reducing a structural cost, A synchronization method is disclosed. The network synchronization system of the present invention is a network synchronization system in which a network device that processes data transmission and reception on the network using the IP address based on a predetermined synchronization signal with a predetermined IP address, A master server that sets a predetermined reference synchronization provides synchronization information based on the reference synchronization to the network device requesting synchronization via the network, and when the network device receives the synchronization information from the master server And generating the synchronization signal as a basis for the data transmission / reception processing based on the synchronization information.

Synchronization, Network, IEEE1588, PTP

Description

[0001] NETWORK SYNCHRONIZATION SYSTEM AND NETWORK SYNCHRONIZATION METHOD [0002]

The present invention relates to a network synchronization system, and more particularly, to a network synchronization system and a network synchronization method capable of accurately synchronizing to a network based on IP without being affected by environmental factors while reducing a structural cost. And a method of synchronizing a network device and a network device supporting the same.

A base station apparatus supporting TDD (Time Division Duplex) requires that all base stations share the same time / frequency synchronization in order to prevent collision of downlink / uplink signals divided in time with other base stations due to time synchronization mismatch have. Various network devices for providing wired and wireless services through a network as well as a base station device need to be accurately synchronized with the network for smooth data transmission and reception with other network devices.

As such, a conventional method for the network device to be most accurately synchronized with the network is to use a GPS satellite signal. This conventional method is a method by which network devices can be synchronized by setting a reference synchronization using 1 PPS (Pulse Per Second) signal in a GPS satellite signal received from a GPS satellite. However, since the conventional method of using the GPS satellite signal has to secure the Line Of Sight (LOS) to the GPS satellite, it is difficult to synchronize with the network when the network device is applied to the indoor environment.

In this case, it is possible to consider a method in which a network device can maintain synchronization with a network by transmitting and receiving a synchronization message for synchronization with a master server provided in a network, but in this case, a structured additional configuration for sending and receiving a synchronization message A cost increase due to provision in a network device is inevitable, and in order to reduce the rising cost, it is expected that synchronization accuracy can not be secured due to structural limitations.

The object of the present invention is to provide a network device that handles data transmission and reception on the network using the IP address based on a predetermined synchronization signal with a predetermined IP address, When the master server establishing a predetermined reference synchronization transmits synchronization information based on the reference synchronization to the network device requesting synchronization via the network, And the network device generates the synchronization signal based on the synchronization information provided from the master server, the synchronization signal serving as a base of the data transmission / reception processing, Use Using the IP address is to help keep the accurate synchronization with respect to the network without being affected by the master server and the communication / synchronization environmental factors, while the network device is to reduce the structural costs by the network.

Another object to be achieved by the present invention is to provide a network interface unit for interfacing data through a network using a predetermined IP address and using the IP address, The network synchronization slave unit generates a synchronization signal based on predetermined synchronization information provided from the master server through the network interface unit in accordance with the synchronization request, And a configuration for processing data transmission and reception on the network through the network interface unit by driving based on the synchronization signal generated by the synchronization slave unit, Using the IP address by using the new master server, and the communication / synchronization of the network is to allow exactly with respect to the network to maintain synchronization while reducing rather the structural costs of the network devices being affected by the environmental factors.

According to a first aspect of the present invention, there is provided a network synchronization system comprising: a master for setting a predetermined reference synchronization and providing synchronization information based on the reference synchronization to a predetermined network device requesting synchronization via a network; server; And processing the data transmission and reception on the network using the IP address based on a predetermined synchronization signal with a predetermined IP address, requesting synchronization from the master server using the IP address, And a network device for generating the synchronization signal as a basis for the data transmission / reception process based on the synchronization information.

Preferably, the master server sets the reference synchronization based on a GPS satellite signal received from a predetermined GPS satellite, and when synchronization is requested from the network device via the network, To the network device, the synchronization information including delay information corresponding to the synchronization information.

According to a second aspect of the present invention, there is provided a network device comprising: a network interface unit having a predetermined IP address and interfacing data through a network using the IP address; A signal processing unit that is driven based on a predetermined synchronization signal and processes data transmission and reception on the network through the network interface unit; And a network synchronous slave which generates synchronization signals based on predetermined synchronization information provided from the master server according to the synchronization requests and provides the synchronous signals to the signal processing unit through the network interface unit, .

Preferably, the signal processing unit includes at least one processing unit for processing data transmission / reception based on the synchronization signal from the network synchronization slave unit, and a device control unit for controlling the at least one processing unit based on the synchronization signal The device control unit may provide the synchronization request message to the master server through the network interface unit when the synchronization request message for requesting synchronization from the network synchronization slave unit to the master server is received.

Preferably, the network synchronization slave unit provides the synchronization request message for requesting synchronization to the master server to the device controller, monitors data provided from the network to the device controller through the network interface unit, If there is a synchronization message provided from the master server according to the synchronization request message in the data, extracts the synchronization message, generates the synchronization signal based on the synchronization information in the synchronization message, and provides the synchronization signal to the signal processor have.

Preferably, the network synchronization slave unit may include a frequency synchronization signal, a 1PPS (Pulse Per Second) signal, a time synchronization signal, a TDD (Time Division Duplex) synchronization signal And supplies the generated signal to the signal processing unit.

Preferably, the network interface unit may include an Ethernet unit having the IP address.

A network synchronization method according to a third aspect of the present invention for achieving the above object is a network synchronization method in which a network device processing data transmission / reception on the network using the IP address based on a predetermined synchronization signal with a predetermined IP address, Requesting synchronization to a predetermined master server through a network using an IP address; Providing synchronization information based on the reference synchronization to the network device, the master server requesting synchronization via the network, the synchronization server setting a predetermined reference synchronization; And generating, by the network device, the synchronization signal based on the synchronization information provided from the master server, the synchronization signal serving as a base for the data transmission / reception processing.

Preferably, the master server further comprises setting the reference synchronization based on a GPS satellite signal received from a predetermined GPS satellite; Wherein the step of providing the synchronization information by the master server comprises generating synchronization information including delay information corresponding to the network device based on the reference synchronization when synchronization is requested from the network device through the network, Device.

According to a fourth aspect of the present invention, there is provided a method of synchronizing a network device, comprising: a network interface unit for interfacing data through a network using a predetermined IP address and using the IP address; Requesting synchronization to a predetermined master server; The network synchronization slave unit generating a synchronization signal based on predetermined synchronization information provided from the master server through the network interface unit according to the synchronization request; And processing the data transmission / reception on the network through the network interface unit by driving the signal processing unit based on the synchronization signal generated in the network synchronization slave unit.

Preferably, the step of the network synchronous slave unit requesting synchronization with the external master server comprises the steps of: the network synchronous slave unit providing a synchronization request message to the signal processor for requesting synchronization to the master server; And the predetermined device control unit included in the signal processing unit may provide the synchronization request message received from the network synchronization slave unit to the master server through the network interface unit.

Preferably, the step of generating the network synchronous slave unit synchronizing signal includes the steps of: the data synchronous slave unit monitoring data provided from the network to the apparatus control unit through the network interface unit; The network synchronization slave unit extracting the synchronization message if a synchronization message provided from the master server exists in the data provided to the network synchronization slave unit in response to the synchronization request message; And generating the synchronization signal based on the synchronization signal and providing the synchronization signal to the signal processing unit.

Preferably, the network synchronization slave unit may include a frequency synchronization signal, a 1PPS (Pulse Per Second) signal, a time synchronization signal, a TDD (Time Division Duplex) synchronization signal And supplies the generated signal to the signal processing unit.

Preferably, the network interface unit may include an Ethernet unit having the IP address.

According to the network synchronization system and the network synchronization method of the present invention, since the network device is synchronized with the master server through the transmission / reception of messages through the network with the master server of the precise reference synchronous existing in the network, Even if the environmental factors such as the environment are poor in synchronization, the network can be accurately synchronized without being affected by environmental factors.

According to the network synchronization system and the network synchronization method of the present invention, a network device transmits and receives data for a basic function of a network device through a network using one IP address and performs synchronization with a master server through a network Therefore, synchronization can be secured with respect to the network by solving the expected increase in cost as a result of structuring two different IP addresses and simultaneously performing synchronization with a separate network synchronous slave unit.

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

1 is a schematic diagram of a network synchronization system according to an embodiment of the present invention.

1, the network synchronization system according to the present invention sets a predetermined reference synchronization and transmits a synchronization request to a predetermined network device (200, 201, ...) requesting synchronization via the network (100) A master server (300) for providing synchronization information, a master server (300) for processing data on the network (100) using the IP address based on a predetermined synchronization signal with a predetermined IP address, (200, 210, ...) for requesting synchronization from the master server (300) and generating a synchronization signal as a base for data transmission / reception processing based on synchronization information provided from the master server (300).

The master server 300 existing in the network 100 network sets an accurate predetermined reference synchronization as the synchronization of the network 100. [ Setting the reference synchronization as described above is realized by setting the correct reference synchronization based on 1 PPS (Pulse Per Second) signal included in the GPS satellite signal received from the predetermined GPS satellite 10 by the master server 300 . Of course, it is natural that the master server 300 can set the reference synchronization through various existing methods other than the method using the GPS satellite signal.

The master server 300 generates synchronization information based on the reference synchronization in response to a network device (e.g., 200) when synchronization is requested from a predetermined network device (e.g., 200) through the network 100, To a network device (e.g., 200). In other words, when a synchronization request message requesting synchronization is received from a network device (for example, 200) having a predetermined IP address, the master server 300 transmits synchronization-related information included in the synchronization request message (E.g., 200) based on the current synchronization information, the current synchronization information of the device (e.g., 200), the current time information, etc.) and the preset reference synchronization. The generated synchronization information includes synchronization delay information and offset information corresponding to a communication delay of the network 100 in correspondence with the network device 200 Related information required to generate a synchronization signal that compensates for the synchronous delay and the time offset by calculating the synchronous delay and the time offset in step (240 in FIG. 2). Here, the related information included in the synchronization information generated by the master server 300 is information included in the synchronization information provided for the existing synchronization, so a detailed description will be omitted.

Then, the master server 300 gives the IP address of the network device (e.g., 200) requesting the synchronization through the network 100 and provides a synchronization message including the synchronization information.

The master server 300 is preferably a 1EEE1588 master device capable of supporting a IEEE 1588 standard and providing a synchronization message in a PTP (Precision Time Protocol) message format over the network 100. [

The network devices 200, 210, ... are devices that transmit and receive data through the network 100 using the pre-assigned IP address, and must maintain synchronization with the network 100 in all processes for data transmission and reception There is a need. As such network devices 200, 210, ..., various devices such as a base station device supporting mobile communication and a streaming server device providing data service may be included.

These network devices 200, 210, ... also use the IP address used for data transmission / reception via the network 100 when requesting synchronization from the master server 300 through the network 100. [ That is, the network devices 200, 210, ... can send and receive data through the network 100 using the same IP address, and can request synchronization to the master server 300 through the network 100. When the synchronization information corresponding to the synchronization request is provided from the master server 300, the network devices 200, 210, ... generate a synchronization signal as a basis for data transmission / reception processing based on the provided synchronization information, ). ≪ / RTI >

Hereinafter, a specific configuration of the network devices 200, 210, ... according to the present invention will be described with reference to FIG. Here, for convenience of description, it is assumed that the network device 200 is a base station device supporting a TDD (Time Division Duplex) method, and the network device 200 will be described below.

2, the network device 200 according to the present invention includes a network interface 220 having a predetermined IP address and interfacing data through the network 100 using the IP address, A signal processing unit 230 that is driven based on a synchronous signal of the network interface unit 220 and processes data transmission and reception on the network 100 through the network interface unit 220 and a predetermined external master server 300 through the network interface unit 220 And a network synchronization slave unit 240 for requesting synchronization and generating a synchronization signal based on predetermined synchronization information provided from the master server 300 according to the synchronization request and providing the synchronization signal to the signal processing unit 230.

The signal processing unit 230 is driven based on a synchronization signal generated by the network synchronization slave unit 240 and processes data transmission and reception on the network 100 through the network interface unit 220. The signal processing unit 230 includes at least one RF unit 233, a modem unit (not shown) for processing and transmitting / receiving data based on a synchronization signal generated by the network synchronization slave unit 240, And a device control unit 236 for controlling the at least one processing unit based on a synchronization signal generated by the network synchronization slave unit 240, including an alarm and status processing unit (not shown).

The RF unit 233 switches the driving in the uplink mode / downlink mode on the basis of the synchronization signal generated in the network synchronization slave unit 240, assuming that the network device 200 is the base station device as described above And supports the mobile communication according to the TDD scheme, which corresponds to a general configuration of the related art, and thus a detailed description thereof will be omitted.

The device controller 236 for controlling all functions of a mobile communication base station in the network device 200 serving as a base station device includes a MAC and PHY processing function, a network interface 220 matching function, a network synchronizing slave 240 matching function, An RF unit 233, a matching function, an alarm and a status processing unit (not shown), and the like.

The device controller 236 can transmit and receive data to and from the network interface 220 through various existing interfaces such as MII / RMII / GMII. The device control unit 236 receives the synchronization signal synchronized with the network 100 generated by the network synchronization slave unit 240 and receives the synchronization signal from the network 100 through the network interface unit 220 And transmits the data to the network 100 through the network interface unit 220. The network 100 is connected to the network 100 through the RF unit 233, (For example, transmission / reception of voice / video call signals between terminals, transmission and reception of data services to terminals, etc.).

In addition, the device control unit 236 is connected to the network synchronous slave unit 240 through a predetermined communication channel. When the synchronization request message for requesting synchronization from the network synchronization slave unit 240 to the master server 300 of the network 100 is received, the synchronization request message is transmitted to the master server 300 through the network interface unit 220, . That is, when the synchronization request message is received from the network synchronization slave unit 240, the device control unit 236 converts the synchronization request message into a data format that can be communicated with the network interface unit 220, To the master server (300).

The network interface unit 220 has a pre-assigned predetermined IP address and interfaces data via the network 100 using the IP address. That is, it receives the data of the corresponding IP address provided from the network 100, outputs the data to the device control unit 236, and transmits data provided from the device control unit 236 to the network 100, ). The network interface unit 220 is preferably an Ethernet unit having an IP address.

 The network synchronizing slave unit 240 synchronizes the synchronizing signal generated by the network synchronizing slave unit 240 with the synchronizing signal generated by the network synchronizing slave unit 240, And requests synchronization to the master server 300 of the network 100 through the network interface unit 220 according to a predetermined synchronization request event. That is, the network synchronization slave unit 240 provides a synchronization request message requesting synchronization to the device control unit 236, and causes the device control unit 236 to send a synchronization request message to the master server (not shown) via the network interface unit 220 300). Here, the network synchronization slave unit 240 may include synchronization-related information (e.g., current synchronization information of the network device 200, current time information, etc.) of the network device 200 included in the synchronization request message, To the control unit 236. Here, the predetermined synchronization request event may be any one of a variety of existing methods for requesting synchronization, such as a method of periodically requesting synchronization according to a preset basic period or a method of periodically requesting synchronization according to a timing set by a user Lt; / RTI >

If the synchronization request message provided by the network synchronization slave unit 240 is provided to the master server 300 through the device control unit 236 and the network interface unit 220, The IP address of the network interface unit 220 to the synchronization message including the synchronization information generated in response to the synchronization message. The network interface unit 220 receives data corresponding to its IP address from the network 100 and provides the received data to the device control unit 236.

Meanwhile, the network synchronization slave unit 240 continuously monitors data provided from the network 100 to the device control unit 236 through the network interface unit 220. As a result of the monitoring, the synchronization message provided from the master server 300 according to the synchronization request message provided by the network synchronization slave unit 240 is transmitted from the network interface unit 220 to the device control unit 236 If so, the network synchronization slave unit 240 may extract the synchronization message from the data to obtain the synchronization information in the synchronization message. Thus, the network synchronization slave unit 240 generates a synchronization signal based on the synchronization information. That is, the network synchronization slave unit 240 calculates the synchronization delay and the time offset based on the synchronization delay information and the offset information included in the synchronization information, thereby obtaining the synchronization delay and the time offset of the synchronization signal of the synchronization signal It is possible to generate a synchronizing signal synchronized with the corrected network 100. [

The network synchronization slave unit 240 receives the synchronization signal from the master server 300 acquired from the data provided from the network 100 to the device control unit 236 through the network interface unit 220, And provides the generated synchronization signal to each processing unit and device control unit 236 of the signal processing unit 230. Here, the network synchronization slave unit 240 generates a frequency synchronization signal, a 1PPS (Pulse Per Second) signal, a time synchronization signal, and a time synchronization signal, which are main clock signals based on the synchronization information provided from the master server 300 And a TDD (Time Division Duplex) synchronization signal, and provides the signal to each of the processing units and the device control unit 236 of the signal processing unit 230.

The network synchronous slave unit 240 supports the IEEE 1588 standard and is capable of receiving and processing a synchronization request message in a PTP (Precision Time Protocol) message format from the master server 300 through the network 100. [ .

As described above, the network devices 200, 210, ... according to the present invention send and receive messages through the network 100 with the master server 300 of the precise reference synchronization existing in the network 100, The network devices 200, 210, ... are not affected by environmental factors even when the environment factors such as the network devices 200, 210, ... are synchronized to the network device 300, It is possible to accurately maintain synchronization with respect to the network 100.

In addition, the network devices 200, 210, ... according to the present invention perform data transmission / reception for basic functions of the network devices 200, 210, ... via the network 100 using one IP address, 100, since the synchronization with the master server 300 is performed, it is possible to solve the expected increase in cost due to the provision of two different IP addresses structurally, and at the same time, the separate network synchronous slave unit 240 performs synchronization It is possible to ensure the accuracy of synchronization with respect to the network 100. [

The network synchronization system including the network devices 200, 210, ... in accordance with the present invention is not limited to the network devices 200, 210,... Even when the environment factors such as the network devices 200, 210, (200, 210, ...) can be kept synchronized with respect to the network (100) without being affected by environmental factors, and further, to the network (100) while reducing the structural cost of the network devices So that the accuracy of synchronization can be ensured.

Hereinafter, the control flow of the network synchronization method according to the preferred embodiment of the present invention will be described with reference to FIG. 3 and FIG. Here, for convenience of explanation, the configurations shown in FIGS. 1 and 2 will be described with reference to corresponding reference numerals.

First, the control flow of the network synchronization method according to the preferred embodiment of the present invention will be described with reference to FIG.

First, the master server 300 existing in the network 100 sets an accurate predetermined reference synchronization as the synchronization of the network 100. [ The master server 300 receives a GPS satellite signal from a predetermined GPS satellite 10 in step S5 and generates a pulse per second signal 1PPS included in the GPS satellite signal (Step S10). Of course, it is natural that the master server 300 can set the reference synchronization through various existing methods other than the method using the GPS satellite signal.

On the other hand, the network device 200 having a predetermined IP address allocated to itself for use in transmitting and receiving data through the network 100 determines whether it corresponds to a predetermined synchronization request event (S20) If it is an event, the master server 300 requests synchronization via the network 100 using the IP address (S30). This synchronization request can be realized by the network device 200 via the network 100 providing a synchronization request message to the master server 300. [

If synchronization is requested from the network device 200 through the network 100, the master server 300 generates synchronization information based on the reference synchronization in response to the network device 200 (S40) To the corresponding network device 200 (S50). In other words, when receiving a synchronization request message requesting synchronization from the network device 200 having a predetermined IP address, the master server 300 transmits synchronization-related information included in the synchronization request message (for example, The synchronization information corresponding to the network device 200 is generated based on the current synchronization information, the current time information, and the like of the base station 200 and the preset reference synchronization (S40). The generated synchronization information includes synchronization delay information and offset information corresponding to the communication delay of the network 100 corresponding to the network device 200 and a network synchronization slave section ≪ / RTI > 240), the associated information needed to generate a synchronization signal that compensates for the Sync Delay and Time Offset by calculating the Sync Delay and Time Offset. Here, the related information included in the synchronization information generated by the master server 300 is information included in the synchronization information provided for the existing synchronization, so a detailed description will be omitted. The master server 300 gives the IP address of the network device 200 requesting the synchronization through the network 100 and provides a synchronization message including the synchronization information (S50).

Meanwhile, the network device 200 monitors data received through the network 100 to determine whether synchronization information provided from the master server 300 is received (S60). When the synchronization information is received, And generates a synchronization signal as a base for basic data transmission / reception processing in the network device 200 (S70). When the network device 200 maintains synchronization with the network 100, the network device 200 performs data transmission / reception based on the synchronization signal generated in step S70 during basic data transmission / reception processing through the network 100 (S80).

Hereinafter, a more specific synchronization method in the network device 200 will be described with reference to FIG.

The network synchronizing slave unit 240 that is responsible for synchronizing with the network 100 in the network device 200 determines whether the function of the network synchronizing slave unit 240 is enabled by turning on the network device 200 And supplies the synchronous signal generated by the synchronous signal generator 230 to the respective processing units and the device control unit 236 of the signal processing unit 230.

In step S100, the network synchronization slave unit 240 determines whether a predetermined synchronization request event corresponds to the event. If the synchronization request event corresponds to the synchronization request event, And requests synchronization to the server 300. That is, the network synchronization slave unit 240 provides a synchronization request message requesting synchronization to the device control unit 236 (S110), and transmits the synchronization request message to the device control unit 236 through the network interface unit 220 To be provided to the master server 300. Here, the network synchronization slave unit 240 may include synchronization-related information (e.g., current synchronization information of the network device 200, current time information, etc.) of the network device 200 included in the synchronization request message, To the control unit 236.

The device control unit 236 converts the synchronization request message received from the network synchronization slave unit 240 into a data format capable of communicating with the network interface unit 220 and transmits the synchronization request message through the network interface unit 220 to the master server 300, and transmits a synchronization request to the master server 300 through the network 100 (S120).

Here, the predetermined synchronization request event may be any one of a variety of existing methods for requesting synchronization, such as a method of requesting synchronization periodically according to a predetermined basic period or a method of periodically requesting synchronization according to a timing set by a user .

The signal processing unit 230 operates based on the synchronization signal generated by the network synchronization slave unit 240 and processes data transmission and reception on the network 100 through the network interface unit 220 in step S130. That is, when the network device 200 is a base station device supporting the TDD scheme, data transmission / reception according to the function of the network device 200 is requested such that a call request from the terminal to the other terminal is received, 236 are driven on the basis of the synchronization signal generated by the network synchronization slave unit 240. When data is received from the network 100 through the network interface unit 220 in step S145, (S132), processes the data received through the RF unit 233, and controls the data to be transmitted to the network 100 through the network interface unit 220 through the modem unit (not shown) (S132). The RF unit 233 and the modem unit (not shown) are driven in the uplink mode / downlink mode under the control of the device control unit 236 based on the synchronization signal generated by the network synchronization slave unit 240 And supports transmission and reception of mobile communication data according to the TDD scheme (S134). As described above, the signal processing unit 230 of the network device 200 is driven based on the synchronization signal generated by the network synchronization slave unit 240.

Meanwhile, the network synchronization slave unit 240 continuously monitors data provided from the network 100 to the device control unit 236 through the network interface unit 220 (S150). As a result of the monitoring, the synchronization message provided from the master server 300 according to the synchronization request message provided by the network synchronization slave unit 240 is transmitted from the network interface unit 220 to the device control unit 236 If the synchronization message is present in the data provided to the device control unit 236, the network synchronization slave unit 240 extracts the synchronization message from the data to acquire synchronization information in the synchronization message (S170).

Thus, the network synchronization slave unit 240 generates a synchronization signal based on the synchronization information (S180). That is, the network synchronization slave unit 240 calculates the synchronization delay and the time offset based on the synchronization delay information and the offset information included in the synchronization information, thereby correcting the synchronization delay and the time offset of the synchronization signal of the synchronization signal. It is possible to generate a synchronous signal synchronized with one network 100. [ The network synchronization slave unit 240 receives the synchronization signal from the master server 300 acquired from the data provided from the network 100 to the device control unit 236 through the network interface unit 220, And provides the generated synchronization signal to the respective processing units and the device control unit 236 of the signal processing unit 230 (S190).

Here, the network synchronization slave unit 240 generates a frequency synchronization signal, a 1PPS (Pulse Per Second) signal, a time synchronization signal, and a time synchronization signal, which are main clock signals based on the synchronization information provided from the master server 300 And a TDD (Time Division Duplex) synchronization signal, and provides the signal to each of the processing units and the device control unit 236 of the signal processing unit 230. The network synchronous slave unit 240 supports the IEEE 1588 standard and is capable of receiving and processing a synchronization request message in a PTP (Precision Time Protocol) message format from the master server 300 through the network 100. [ .

As described above, according to the synchronization method of the network devices 200, 210, ... in accordance with the present invention, messages can be transmitted / received through the network 100 to / from the master server 300, The network devices 200, 210, ... are synchronized with the master server 300 through the network devices 200, 210, ... so that environmental factors, such as the provision of the network devices 200, 210, Can be accurately synchronized with respect to the network 100 without being influenced.

According to the synchronization method of the network devices 200, 210, ... according to the present invention, data transmission / reception for basic functions of the network devices 200, 210, ... is performed through the network 100 using one IP address And synchronizes with the master server 300 through the network 100. Therefore, it is possible to solve the expected cost increase by structurally providing two different IP addresses, and at the same time, the separate network synchronous slave unit 240 Synchronization can be ensured with respect to the network 100. FIG.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Even if the network device is synchronized with the master server of precise reference synchronization through the transmission / reception of messages through the network, the environmental factors such as the provision of the network device in the room are poor in synchronization, And the network device performs data transmission and reception for the basic function of the network device via the network using only one IP address and synchronization with the master server via the network so that two different When a network synchronization system and a network synchronization method are applied that solve the expected rise in cost due to the provision of an IP address and ensure synchronization accuracy with respect to the network as a separate network synchronous slave unit performs synchronization, It is possible to make great progress in terms of cost reduction of the network device, resource utilization efficiency of the IP address, and reliability of the network synchronization, and it is not only sufficient that the network synchronization system and the network device to be applied are commercially available or operable, This is an invention that is industrially usable because it is possible.

1 is a schematic control block diagram of a network synchronization system according to a preferred embodiment of the present invention.

2 is a control block diagram of a network device according to a preferred embodiment of the present invention.

3 is a control flowchart illustrating a network synchronization method according to a preferred embodiment of the present invention.

4 is a control flowchart illustrating a method of synchronizing a network device according to a preferred embodiment of the present invention.

Description of the Related Art

10: GPS satellite 100: Network

200, 210: network device 200: master server

Claims (14)

A master server for establishing a predetermined reference synchronization and providing synchronization information based on the reference synchronization to a predetermined network device requesting synchronization via a network; And Receiving data on the network using the IP address based on a predetermined synchronization signal with a predetermined IP address, requesting synchronization with the master server using the IP address, synchronizing the synchronization provided from the master server And a network device for generating the synchronization signal as a basis for the data transmission / reception processing based on the information, The master server comprises: Wherein the reference synchronization is set based on a GPS satellite signal received from a predetermined GPS satellite, and when synchronization is requested from the network device through the network, And provides synchronization information to the network device. delete A network device for generating a synchronization signal, A network interface unit having a predetermined IP address and interfacing data through a network using the IP address; A signal processing unit that is driven based on a predetermined synchronization signal and processes data transmission and reception on the network through the network interface unit; And A network synchronization slave unit for requesting synchronization from an external master server through the network interface unit and generating the synchronization signal based on predetermined synchronization information provided from the master server according to the synchronization request and providing the synchronization signal to the signal processing unit ≪ / RTI & The master server comprises: A reference synchronization is established based on a GPS satellite signal received from a predetermined GPS satellite, and when synchronization is requested through the network interface unit, the synchronization information including delay information corresponding to the network device is provided based on the reference synchronization The network device comprising: The method of claim 3, The signal processing unit, At least one processing unit for processing data transmission / reception based on the synchronization signal from the network synchronization slave unit, and a device control unit for controlling the at least one processing unit based on the synchronization signal, The apparatus control unit includes: And provides the synchronization request message to the master server through the network interface unit when the synchronization request message for requesting synchronization from the network synchronization slave unit to the master server is received. 5. The method of claim 4, Wherein the network synchronization slave unit comprises: Wherein the control unit provides the synchronization request message for requesting synchronization to the master server to the device controller, monitors data provided from the network to the device controller through the network interface unit, Extracts the synchronization message and generates the synchronization signal based on the synchronization information in the synchronization message if the synchronization message is provided from the server, and provides the synchronization signal to the signal processor. 6. The method according to any one of claims 3 to 5, Wherein the network synchronization slave unit comprises: Generates a frequency synchronization signal, a 1PPS (Pulse Per Second) signal, a time synchronization signal, and a TDD (Time Division Duplex) synchronization signal based on the synchronization information provided from the master server, To the network device. delete A network device that processes data transmission and reception on a network using the IP address based on a predetermined synchronization signal with a predetermined IP address, requests synchronization to a predetermined master server through the network using the IP address; Providing a synchronization information based on the reference synchronization to a network device that a master server that has set a predetermined reference synchronization based on a GPS satellite signal received from a predetermined GPS satellite requests synchronization via the network; And The network device generating the synchronization signal based on the synchronization information provided from the master server, the synchronization signal serving as a base for the data transmission / reception processing, Wherein the step of the master server providing the synchronization information comprises: Wherein the synchronization information generating unit generates the synchronization information including delay information corresponding to the network device based on the reference synchronization and provides the synchronization information to the network device when synchronization is requested from the network device through the network. delete CLAIMS 1. A method for synchronizing a network device, Requesting a network synchronization slave unit to synchronize with a predetermined external master server via a network interface unit having a predetermined IP address and interfacing data through a network using the IP address; The network synchronization slave unit generating a synchronization signal based on predetermined synchronization information provided from the master server through the network interface unit according to the synchronization request; And Wherein the signal processing unit is driven based on the synchronization signal generated in the network synchronization slave unit to process data transmission and reception on the network through the network interface unit, The master server comprises: A reference synchronization is established based on a GPS satellite signal received from a predetermined GPS satellite, and when synchronization is requested through the network interface unit, the synchronization information including delay information corresponding to the network device is provided based on the reference synchronization Wherein the network device is a network device. 11. The method of claim 10, Wherein the network synchronization slave unit requests synchronization from the master server, The network synchronization slave unit providing a synchronization request message to the signal processor to request synchronization to the master server; Wherein the predetermined device controller included in the signal processing unit provides the synchronization request message received from the network synchronization slave unit to the master server through the network interface unit. 12. The method of claim 11, Wherein the step of generating the network synchronous slave unit synchronization signal comprises: The network synchronization slave unit monitoring data provided from the network to the device control unit through the network interface unit; If the synchronization message provided from the master server exists in the data provided to the device control unit according to the synchronization request message, the network synchronization slave unit extracts the synchronization message; And the network synchronization slave unit generates the synchronization signal based on the synchronization information in the synchronization message and provides the synchronization signal to the signal processing unit. 13. The method according to any one of claims 10 to 12, Wherein the network synchronization slave unit comprises: Generates a frequency synchronization signal, a 1PPS (Pulse Per Second) signal, a time synchronization signal, and a TDD (Time Division Duplex) synchronization signal based on the synchronization information provided from the master server, To the network device. delete

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