KR101697059B1 - Time synchronization method for Telecommunication Network - Google Patents

Abstract

The present invention relates to a time synchronization method for a telecommunication network, capable of efficiently performing time synchronization of a passive optical network (PON) by correcting time by calculating a time difference between an optical network unit (ONU) and an optical line terminal (OLT) comprising the PON.

Description

[Technical Field] The present invention relates to a time synchronization method for a telecommunication network,

The present invention relates to a time synchronization technique, and more particularly, to a time synchronization method of a communication network.

Korean Patent No. 10-0876776 (December 23, 2008) proposes a time synchronization technique using GPS information.

This technique extracts 1PPS (1 Pulse Per Second), TOD (Time Of Day), 1PPS_en, 10MHz clock using the GPS signal at the grand master node equipped with the GPS receiver, stabilizes the extracted signals and uses stabilized signals Synchronization message for time synchronization is generated and transmitted to the slave node.

Then, the slave node receives the synchronization message and performs a time synchronization operation using the Offset & Frequency Compensation Clock (OFCC) synchronization technology that supports time offset and frequency separation compensation in the time synchronization block of the slave node. Modify it.

Then, 1PPS, TOD, and 1PPS_en signals are extracted using the modified TOD information in the time synchronization block, and stabilized signals are transferred to the stabilization block of the slave node.

Then, the stabilized signals are transmitted to the time synchronization block again to update the TOD information of the time synchronization block, and a synchronization message for time synchronization of another slave node is generated using the updated TOD information.

The present inventor has been studying a time synchronization technique between a master and a slave of a communication system.

Korean Patent No. 10-0876776 (Dec. 23, 2008)

It is an object of the present invention to provide a time synchronization technique between a master and a slave of a communication system.

In particular, it is an object of the present invention to provide a time synchronization method for effectively performing time synchronization between an optical line terminal (OLT) and an optical network unit (ONU), which form a passive optical network (PON).

According to one aspect of the present invention, there is provided a time synchronization method of a communication network, including: a time when an optical line terminal (OLT) acquires initial time information from an NTP (Network Time Protocol) or an RTC An information acquisition step; A time information transmission step of transmitting the initial time information acquired by the OLT to an ONU (Optical Network Unit); A time difference calculation step of calculating a time difference by comparing the initial time information received by the ONU from the OLT with the reference time information acquired from the GM (Grand Master); A time difference transmission step in which the ONU transmits the calculated time difference to the OLT; A time synchronization step of synchronizing the time with the ONU by correcting the time based on the time difference received from the ONU; And the like.

According to a further aspect of the present invention, the time synchronization method of the communication network repeats the time information transmission step, the time difference calculation step, the time difference transmission step and the time synchronization step using the corrected time information after the time correction Thereby continuously synchronizing the time between the OLT and the ONU.

According to a further aspect of the present invention, when the time difference between the corrected time information received from the OLT and the reference time information acquired from the GM (Grand Master) reaches a permissible time range, And an ONU locking step in which the ONU is locked.

According to a further aspect of the present invention, when the time synchronization method of the communication network further includes a time synchronization information transmission step in which the ONU transmits the clock information to the slave device connected to the ONU when the ONU is locked do.

According to still another aspect of the present invention, there is provided a time synchronization method of a communication network, comprising: a time information acquisition step of an OLT (Optical Line Terminal) acquiring initial time information from an NTP (Network Time Protocol) or an RTC (Real Time Clock); A time information transmission step of transmitting the initial time information acquired by the OLT to an ONU (Optical Network Unit); A time difference calculation step of calculating a time difference by comparing the initial time information received by the ONU from the OLT with the reference time information acquired from the GPS reception module; A time difference transmission step in which the ONU transmits the calculated time difference to the OLT; A time synchronization step of synchronizing the time with the ONU by correcting the time based on the time difference received from the ONU; And the like.

According to a further aspect of the present invention, the time synchronization method of the communication network repeats the time information transmission step, the time difference calculation step, the time difference transmission step and the time synchronization step using the corrected time information after the time correction Thereby continuously synchronizing the time between the OLT and the ONU.

According to a further aspect of the present invention, when the time difference between the corrected time information received from the OLT and the reference time information acquired from the GPS receiving module reaches a permissible time range, the ONU And an ONU lock step of locking the ONU.

According to a further aspect of the present invention, there is further provided a time synchronization information transmission step in which, when the time synchronization method of the communication network locks the ONU, the OLT then transmits the time synchronization information in GM (Grand Master) .

According to a further aspect of the present invention, the GM (Grand Master) transmits time synchronization information to other OLTs.

According to a further aspect of the present invention, when the time synchronization method of the communication network further includes a time synchronization information transmission step in which the OLT transmits the time synchronization information to another ONU in the lower side when the ONU is locked do.

According to a further aspect of the present invention, the time synchronization information received from the OLT by another lower ONU is transmitted to a slave device connected to the OLT.

The present invention can effectively perform time synchronization between a master and a slave of a communication system. In particular, it is possible to perform time synchronization between an optical line terminal (OLT) and an optical network unit (ONU), which form a Passive Optical Network (PON) There is an effect that can be performed efficiently.

1 is a flowchart showing a configuration of an embodiment of a time synchronization method of a communication network according to the present invention.
2 is a block diagram showing a configuration of a passive optical network for performing the time synchronization method of the communication network shown in FIG.
3 is a flowchart showing a configuration of another embodiment of a time synchronization method of a communication network according to the present invention.
4 is a block diagram showing a configuration of a passive optical network for performing the time synchronization method of the communication network shown in FIG.
5 is a flowchart showing a configuration of another embodiment of a time synchronization method of a communication network according to the present invention.
6 is a block diagram showing a configuration of a passive optical network for performing the time synchronization method of the communication network shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

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.

The terms used throughout the specification of the present invention have been defined in consideration of the functions of the embodiments of the present invention and can be sufficiently modified according to the intentions and customs of the user or operator. It should be based on the contents of.

1 is a flowchart showing a configuration of an embodiment of a time synchronization method of a communication network according to the present invention.

First, in the time information acquisition step 110, an optical line terminal (OLT) acquires initial time information from an NTP (Network Time Protocol) or an RTC (Real Time Clock). For example, the acquired initial time information includes a frequency, a pulse per second (PPS), and a time of day (TOD).

Then, in the time information transmission step 120, the OLT acquires the acquired initial time information to the ONU (Optical Network Unit). For example, the initial time information can be transmitted through the Ethernet standard IEEE 802.1as precision time protocol.

Next, in the time difference calculation step 130, the time difference is calculated by comparing the initial time information received by the ONU from the OLT with the reference time information acquired from the GM (Grand Master). The GM (Grand Master) is a device that governs the global clock defined in the Ethernet standard IEEE 802.1as.

1PPS and TOD from the Ethernet standard IEEE 802.1as precision time protocol data received by the ONU from the OLT and restores it and transmits a 1588 PTP (Pres Time Time) from GM (Grand Master) Protocol) packet, and can acquire reference time information therefrom.

Then, in the time difference transmission step 140, the ONU transmits the calculated time difference to the OLT. At this time, the time difference is transmitted from the ONU to the OLT in the highest priority.

For example, the time difference can be transmitted through the time correction protocol, and the time correction protocol can take a form in which the information based on the Selection Factor (SF) of the BMCA of ITU-T G.8275.1 is added to the time difference information.

Then, in the time synchronizing step 150, the OLT corrects the time based on the time difference received from the ONU and synchronizes with the ONU. For example, if the current time of the OLT is T, the time difference received from the ONU is DELTA T, and the time corrected time is T ', then T' = T + DELTA T.

After the time correction is performed as described above, the time information transmission step 120, the time difference calculation step 130, the time difference transmission step 140, and the time synchronization step 150) to continuously synchronize the time between the OLT and the ONU.

Then, when the time difference obtained by comparing the corrected time information received from the OLT and the reference time information obtained from the GM (Grand Master) in the ONU lock step 160 reaches an allowable time range, the ONU locks do.

Then, when the ONU is locked in the time synchronization information transmission step 170, the ONU transmits clock information to a slave device (not shown) connected to the ONU. For example, clock information may be sent to the slave device in the form of 1588 PTP packets or 1 PPS + TOD.

2 is a block diagram showing a configuration of a passive optical network for performing the time synchronization method of the communication network shown in FIG. 2 includes an OLT 210, an ONU 220, and a GM 230. [

The switching fabric unit (SFU) 211 of the OLT 210 acquires initial time information from a Network Time Protocol (NTP) or a Real Time Clock (RTP) after inputting power, and synchronizes the initial time information based on the acquired initial time information. For example, the acquired initial time information includes a frequency, a pulse per second (PPS), and a time of day (TOD).

The Switching Fabric Unit (SFU) 211 transfers the initial time information to the SIU (Service Interface Unit) The PON MAC of the Service Interface Unit (SIU) 212 transmits the initial time information to the ONU (Optical Network Unit) 220. For example, the initial time information can be transmitted through the Ethernet standard IEEE 802.1as precision time protocol.

Then, the PON MAC 221 of the ONU 220 acquires the initial time information from the OLT 210, and the L2 switch 222 of the ONU 220 acquires the reference time information from the GM (Grand Master) do.

The time difference is calculated by comparing the initial time information received by the L2 switch 222 of the ONU 220 from the OLT 210 with the reference time information acquired from the GM (Grand Master) 230.

For example, the ONU 220 extracts and restores frequency, 1PPS (Pulse Per Second), and TOD (Time Of Day) from Ethernet standard IEEE 802.1as precision time protocol data received from the OLT 210, (Presence Time Protocol) packet from the base station 230 to acquire the reference time information.

Then, the ONU 220 transmits the time difference calculated through the PON MAC 221 to the OLT 210. At this time, the time difference is transmitted from the ONU to the OLT in the highest priority.

For example, the time difference can be transmitted through the time correction protocol, and the time correction protocol can take a form in which the information based on the Selection Factor (SF) of the BMCA of ITU-T G.8275.1 is added to the time difference information.

Then, the SFU 211 of the OLT 210 corrects the time based on the time difference received from the ONU 220 and synchronizes with the ONU 220. For example, if the current time of the OLT is T, the time difference received from the ONU is DELTA T, and the time corrected time is T ', then T' = T + DELTA T.

After the time correction is performed as described above, the above operation is continuously repeated using the corrected time information instead of the initial time information to synchronize the time between the OLT and the ONU. If the time difference obtained by comparing the corrected time information received from the OLT 210 and the reference time information acquired from the GM (Grand Master) 230 reaches the permissible time range, the ONU 220 is locked )do.

When the ONU 220 is locked, the ONU 220 transmits clock information to a slave device (not shown) connected to the ONU. For example, clock information may be sent to the slave device in the form of 1588 PTP packets or 1 PPS + TOD.

According to this embodiment, the present invention efficiently performs time synchronization between an optical line terminal (OLT) and an optical network unit (ONU), which form a passive optical network (PON).

3 is a flowchart showing a configuration of another embodiment of a time synchronization method of a communication network according to the present invention.

First, in the time information acquisition step 310, an optical line terminal (OLT) acquires initial time information from an NTP (Network Time Protocol) or an RTC (Real Time Clock). For example, the acquired initial time information includes a frequency, a pulse per second (PPS), and a time of day (TOD).

Then, in the time information transmission step 320, the OLT acquires the acquired initial time information to the ONU (Optical Network Unit). For example, the initial time information can be transmitted through the Ethernet standard IEEE 802.1as precision time protocol.

Next, in the time difference calculation step 330, the time difference is calculated by comparing the initial time information received by the ONU from the OLT with the reference time information acquired from the GPS reception module.

1PPS (Pulse Per Second) and TOD (Time Of Day) from the Ethernet standard IEEE 802.1as precision time protocol data received from the OLT by the ONU and extracts and restores 1PPS + TOD information can be acquired.

Then, in the time difference transmission step 340, the ONU transmits the calculated time difference to the OLT. At this time, the time difference is transmitted from the ONU to the OLT in the highest priority.

For example, the time difference can be transmitted through the time correction protocol, and the time correction protocol can take a form in which the information based on the Selection Factor (SF) of the BMCA of ITU-T G.8275.1 is added to the time difference information.

Then, in the time synchronizing step 350, the OLT corrects the time based on the time difference received from the ONU and synchronizes with the ONU. For example, if the current time of the OLT is T, the time difference received from the ONU is DELTA T, and the time corrected time is T ', then T' = T + DELTA T.

After the time correction is performed as described above, the time information transmission step 320, the time difference calculation step 330, the time difference transmission step 340, and the time synchronization step (step 340) are performed using the corrected time information instead of the initial time information 350) to continuously synchronize the time between the OLT and the ONU.

Then, when the time difference obtained by comparing the corrected time information received from the OLT and the reference time information acquired from the GPS receiving module in the ONU lock step 360 reaches an allowable time range, the ONU is locked.

Next, when the ONU is locked in the time synchronization information transmission step 370, the OLT transmits the time synchronization information to the GM (Grand Master). Then, the GM (Grand Master) transmits time synchronization information to other OLTs (not shown). For example, the time synchronization information may be transmitted through the 1588 PTP packet.

4 is a block diagram showing a configuration of a passive optical network for performing the time synchronization method of the communication network shown in FIG. 4 includes an OLT 410, an ONU 420, and a GM 430. [

The switching fabric unit (SFU) 411 of the OLT 410 acquires initial time information from a network time protocol (NTP) or a real time clock (RTP) after inputting power, and synchronizes the initial time information based on the acquired initial time information. For example, the acquired initial time information includes a frequency, a pulse per second (PPS), and a time of day (TOD).

The Switching Fabric Unit (SFU) 411 transfers the initial time information to the Service Interface Unit (SIU) 412. The PON MAC of the Service Interface Unit (SIU) 412 transmits the initial time information to the ONU (Optical Network Unit) 420. For example, the initial time information can be transmitted through the Ethernet standard IEEE 802.1as precision time protocol.

Then, the PON MAC 421 of the ONU 420 acquires the initial time information from the OLT 410, and the GPS receiving module 422 of the ONU 420 acquires the reference time information from the GPS satellite (not shown) do.

The time difference is calculated by comparing the initial time information received by the L2 switch 423 of the ONU 420 from the OLT 410 with the reference time information acquired from the GPS reception module 422. [

For example, the ONU 420 extracts and restores frequency, 1PPS (Pulse Per Second), and TOD (Time Of Day) from the Ethernet standard IEEE 802.1as precision time protocol data received from the OLT 410, 1PPS + TOD information synchronized with the GPS satellite.

Then, the ONU 420 transmits the time difference calculated through the PON MAC 421 to the OLT 410. At this time, the time difference is transmitted from the ONU to the OLT in the highest priority.

For example, the time difference can be transmitted through the time correction protocol, and the time correction protocol can take a form in which the information based on the Selection Factor (SF) of the BMCA of ITU-T G.8275.1 is added to the time difference information.

Then, the SFU 411 of the OLT 410 corrects the time based on the time difference received from the ONU 420 and synchronizes with the ONU 420. For example, if the current time of the OLT is T, the time difference received from the ONU is DELTA T, and the time corrected time is T ', then T' = T + DELTA T.

After the time correction is performed as described above, the above operation is continuously repeated using the corrected time information instead of the initial time information to synchronize the time between the OLT and the ONU. If the time difference obtained by comparing the corrected time information received from the OLT 410 and the reference time information acquired from the GPS reception module 422 reaches an allowable time range, the ONU 420 is locked .

When the ONU 420 is locked, the OLT 410 then transmits the time synchronization information to the GM (Grand Master) 430. Then, the GM (Grand Master) 430 transmits time synchronization information to other OLTs (not shown). For example, the time synchronization information may be transmitted through the 1588 PTP packet.

According to this embodiment, the present invention efficiently performs time synchronization between an optical line terminal (OLT) and an optical network unit (ONU), which form a passive optical network (PON).

5 is a flowchart showing a configuration of another embodiment of a time synchronization method of a communication network according to the present invention.

First, in the time information acquisition step 510, an optical line terminal (OLT) acquires initial time information from an NTP (Network Time Protocol) or an RTC (Real Time Clock). For example, the acquired initial time information includes a frequency, a pulse per second (PPS), and a time of day (TOD).

Then, in the time information transmission step 520, the OLT acquires the acquired initial time information to the ONU (Optical Network Unit). For example, the initial time information can be transmitted through the Ethernet standard IEEE 802.1as precision time protocol.

Next, in the time difference calculation step 530, the time difference is calculated by comparing the initial time information received by the ONU from the OLT with the reference time information acquired from the GPS reception module.

1PPS (Pulse Per Second) and TOD (Time Of Day) from the Ethernet standard IEEE 802.1as precision time protocol data received from the OLT by the ONU and extracts and restores 1PPS + TOD information can be acquired.

Then, in the time difference transmission step 540, the ONU transmits the calculated time difference to the OLT. At this time, the time difference is transmitted from the ONU to the OLT in the highest priority.

For example, the time difference can be transmitted through the time correction protocol, and the time correction protocol can take a form in which the information based on the Selection Factor (SF) of the BMCA of ITU-T G.8275.1 is added to the time difference information.

Then, in the time synchronizing step 550, the OLT corrects the time based on the time difference received from the ONU and synchronizes with the ONU. For example, if the current time of the OLT is T, the time difference received from the ONU is DELTA T, and the time corrected time is T ', then T' = T + DELTA T.

After the time correction is performed as described above, the time information transmission step 520, the time difference calculation step 530, the time difference transmission step 540 and the time synchronization step (step 540) are performed using the corrected time information instead of the initial time information 550) to continuously synchronize the time between the OLT and the ONU.

Then, when the time difference obtained by comparing the corrected time information received from the OLT and the reference time information acquired from the GPS receiving module in the ONU lock step 560 reaches an allowable time range, the ONU is locked.

Next, when the ONU is locked in the time synchronization information transmission step 570, the OLT then transmits the time synchronization information to another ONU in the lower part. For example, time synchronization information can be transmitted to another ONU using a 802.1as precision time protocol.

Then, the other ONUs in the lower part transmit the time synchronization information received from the OLT to a slave device (not shown) connected thereto. For example, the time synchronization information can be transmitted to the slave device through the 1588 PTP packet.

6 is a block diagram showing a configuration of a passive optical network for performing the time synchronization method of the communication network shown in FIG. 6 includes an OLT 610, an ONU 620, and other ONUs 630. [

The switching fabric unit (SFU) 611 of the OLT 610 acquires initial time information from an NTP (Network Time Protocol) or an RTC (Real Time Clock) after inputting power, and synchronizes the initial time information based on the acquired initial time information. For example, the acquired initial time information includes a frequency, a pulse per second (PPS), and a time of day (TOD).

The Switching Fabric Unit (SFU) 611 transfers the initial time information to the SIU (Service Interface Unit) 612. The PON MAC of the Service Interface Unit (SIU) 612 transmits the initial time information to the ONU (Optical Network Unit) 620. For example, the initial time information can be transmitted through the Ethernet standard IEEE 802.1as precision time protocol.

Then, the PON MAC 621 of the ONU 620 acquires the initial time information from the OLT 610, and the GPS receiving module 622 of the ONU 620 acquires the reference time information from the GPS satellite (not shown) do.

The time difference is calculated by comparing the initial time information received by the L2 switch 623 of the ONU 620 from the OLT 610 with the reference time information acquired from the GPS receiving module 622. [

For example, the ONU 620 extracts and restores frequency, 1PPS (Pulse Per Second), and TOD (Time Of Day) from the Ethernet standard IEEE 802.1as precision time protocol data received from the OLT 610, 1PPS + TOD information synchronized with the GPS satellite.

Then, the ONU 620 transmits the calculated time difference through the PON MAC 621 to the OLT 610. [ At this time, the time difference is transmitted from the ONU to the OLT in the highest priority.

For example, the time difference can be transmitted through the time correction protocol, and the time correction protocol can take a form in which the information based on the Selection Factor (SF) of the BMCA of ITU-T G.8275.1 is added to the time difference information.

Then, the SFU 611 of the OLT 610 corrects the time based on the time difference received from the ONU 620, and synchronizes the time with the ONU 620. For example, if the current time of the OLT is T, the time difference received from the ONU is DELTA T, and the time corrected time is T ', then T' = T + DELTA T.

After the time correction is performed as described above, the above operation is continuously repeated using the corrected time information instead of the initial time information to synchronize the time between the OLT and the ONU. If the time difference obtained by comparing the corrected time information received from the OLT 610 and the reference time information acquired from the GPS reception module 622 reaches an allowable time range, the ONU 620 is locked .

When the ONU 620 is locked, the OLT 610 then transmits the time synchronization information to another ONU 630 at the bottom. For example, time synchronization information can be transmitted to another ONU using a 802.1as precision time protocol.

Then, the other ONUs 630 transmit the time synchronization information received from the OLT to a slave device (not shown) connected thereto. For example, the time synchronization information can be transmitted to the slave device through the 1588 PTP packet.

According to this embodiment, the present invention efficiently performs time synchronization between an optical line terminal (OLT) and an optical network unit (ONU), which form a passive optical network (PON).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill 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. .

INDUSTRIAL APPLICABILITY The present invention is industrially applicable in the field of time synchronization technology and its application technology.

210, 410, 610: OLT
220, 420, 620: ONU
230, 430: GM
630: other ONU

Claims (11)

A time information acquiring step of acquiring initial time information from an NTP (Network Time Protocol) or an RTC (Real Time Clock) by an optical line terminal (OLT);
A time information transmission step of transmitting the initial time information acquired by the OLT to an ONU (Optical Network Unit);
A time difference calculation step of calculating a time difference by comparing the initial time information received by the ONU from the OLT with the reference time information acquired from the GM (Grand Master);
A time difference transmission step in which the ONU transmits the calculated time difference to the OLT;
A time synchronizing step of synchronizing the time with the ONU by correcting the time based on the time difference received from the ONU;
An ONU lock step in which the ONU is locked when the time difference obtained by comparing the corrected time information received from the OLT and the reference time information acquired from the GM (Grand Master) reaches an allowable time range;
The time synchronization method comprising the steps of: The method according to claim 1,
The time synchronization method of the communication network is:
After the time correction, repeats the time information transmission step, the time difference calculation step, the time difference transmission step, and the time synchronization step using the corrected time information to continuously synchronize the time between the OLT and the ONU A method of time synchronization of a network. delete The method according to claim 1,
The time synchronization method of the communication network is:
When the ONU is locked, the ONU transmits clock information to the slave device connected to the ONU;
Further comprising the steps of: A time information acquiring step of acquiring initial time information from an NTP (Network Time Protocol) or an RTC (Real Time Clock) by an optical line terminal (OLT);
A time information transmission step of transmitting the initial time information acquired by the OLT to an ONU (Optical Network Unit);
A time difference calculation step of calculating a time difference by comparing the initial time information received by the ONU from the OLT with the reference time information acquired from the GPS reception module;
A time difference transmission step in which the ONU transmits the calculated time difference to the OLT;
A time synchronizing step of synchronizing the time with the ONU by correcting the time based on the time difference received from the ONU;
An ONU lock step in which the ONU is locked when the time difference obtained by comparing the corrected time information received from the OLT and the reference time information acquired from the GPS reception module reaches an allowable time range;
The time synchronization method comprising the steps of: 6. The method of claim 5,
The time synchronization method of the communication network is:
After the time correction, repeats the time information transmission step, the time difference calculation step, the time difference transmission step, and the time synchronization step using the corrected time information to continuously synchronize the time between the OLT and the ONU A method of time synchronization of a network. delete 6. The method of claim 5,
The time synchronization method of the communication network is:
When the ONU is locked, the time synchronization information transmission step in which the OLT transmits the time synchronization information to the GM (Grand Master);
Further comprising the steps of: 9. The method of claim 8,
The GM (Grand Master)
And the time synchronization information is transmitted to other OLTs. 6. The method of claim 5,
The time synchronization method of the communication network is:
When the ONU is locked, the time synchronization information transmission step in which the OLT then transmits the time synchronization information to another ONU in the lower part;
Further comprising the steps of: 11. The method of claim 10,
And transmits the time synchronization information received from the OLT to another slave device connected to the OLT.

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