JP2020178278A - Subscriber line termination device and communication control method - Google Patents

Abstract

To provide a subscriber line termination device and a communication control method that can reduce the processing load on a server or an auxiliary device when a network function is implemented with software and the server and the auxiliary device are used.SOLUTION: A subscriber line termination device includes: a permission signal generation unit that generates an extended transmission permission signal including uplink transmission information which is information on permission of uplink transmission for each subscriber line termination device; and a permission signal processing unit that reads the uplink transmission information for each subscriber line termination device from the extended transmission permission signal and generates a transmission permission signal including the read uplink transmission information for each subscriber line termination device.SELECTED DRAWING: Figure 1

Description

The present invention relates to a subscriber line end station device and a communication control method.

As an economical optical access system, there is a passive optical network (PON). FIG. 8 is a diagram showing a configuration example of the passive optical network 1a. The passive optical network 1a includes a subscriber line terminal device 10a (Optical Line Terminal: OLT), an optical splitter 11, and a subscriber line terminal device 12-1 to 12-k (k is an integer of 2 or more) (Optical Network). Unit: ONU).

In the following, regarding matters common to the subscriber line terminating devices 12-1 to 12-k, "subscriber line terminating devices 12-1 to 12-k" is "subscriber" with some symbols omitted. It is described as "line termination device 12". One subscriber line end station device 10a is a point-to-multipoint point-to-multipoint multiple subscriber line termination device 12 via an optical fiber transmission line and a one-to-K (K ≧ k) optical splitter 11. Communicate with.

EPON (Ethernet (registered trademark) PON) is a typical standard of the passive optical network 1a. EPON includes Gigabit class 1G-EPON and 10 Gigabit class 10G-EPON. 1G-EPON is standardized in IEEE802.3ah (see Non-Patent Document 1), and 10G-EPON is standardized in IEEE802.3av. Hereinafter, the communication direction from the subscriber line end station device to the subscriber line end device is referred to as "downward direction". The communication direction from the subscriber line termination device to the subscriber line end station device is called "upward direction".

In the passive optical network 1a, a plurality of subscriber line termination devices 12 share one optical fiber transmission line. Therefore, the signals in the upstream communication may collide. Upbound communication is performed, for example, by time division multiple access to prevent signal collisions. That is, the subscriber line end station device 10 is a signal transmitted by the subscriber line termination device 12-x (x is an integer from 1 to k) and a subscriber other than the subscriber line termination device 12-x. The transmission timing of the subscriber line termination device 12 is controlled so that the signal transmitted by the line termination device 12-y (y is an integer from 1 to k other than x) does not overlap. In this way, the subscriber line end station device 10 can prevent signal collisions in uplink communication.

Next, regarding the mechanism by which the subscriber line end station device 10 controls the transmission timing of the subscriber line termination device 12 in the passive optical network 1a, MPCP (Multi-Point Control Protocol), which is a communication protocol defined in IEEE802.3ah, To explain.

FIG. 9 is a sequence diagram showing an example of an outline of MPCP. The subscriber line terminating device 12 sets the amount of uplink user data waiting for transmission in the buffer (hereinafter referred to as "transmission request amount") as a transmission request signal (hereinafter "Normal REPORT", "REPORT" or "REPORT"). It is described in "Message". The subscriber line terminating device 12 transmits the transmission request signal to the subscriber line end station device 10.

The subscriber line end station device 10 acquires the transmission request amount from the received REPORT message. The subscriber line end station device 10 refers to the transmission request amount. The subscriber line end station device 10 derives information representing a transmission start time and a transmission time (transmission band) for each subscriber line termination device 12 based on the result of referring to the transmission request amount. The transmission band is derived by averaging the transmission time, which is the time during which transmission can be continued, in unit time.

The subscriber line end station device 10 has a transmission permission signal (hereinafter, "Normal GATE") in which information indicating a transmission start time and a transmission time (transmission band) and a current time (hereinafter, referred to as "time stamp value") are described. Generates "GATE" or "GATE message"). The subscriber line end station device 10 transmits the transmission permission signal of the subscriber line termination device 12-1 to the subscriber line termination device 12-1 (step S001). The subscriber line end station device 10 transmits the transmission permission signal of the subscriber line termination device 12-2 to the subscriber line termination device 12-2 (step S002).

The subscriber line termination device 12-1 adjusts the time of its own device to the time stamp value of the subscriber line end station device 10 described in the received GATE message. In this way, the subscriber line termination device 12-1 synchronizes the time of its own device with the time of the subscriber line end station device 10 (step S003). The same applies to the time of the subscriber line terminating device 12-2 (step S004).

Each subscriber line termination device 12 waits until the designated transmission start time (step S005, step S006). Each subscriber line termination device 12 sends the user data message waiting to be transmitted in the buffer and the management message such as the REPORT message to the subscriber line end station at the transmission time permitted by the subscriber line end station device 10. It is transmitted to the device 10 (step S007, step S008). The subscriber line termination device 12 may transmit only the user data message to the subscriber line end station device 10, and the management message such as the REPORT message may be transmitted to the subscriber line end station device 10 at another timing. ..

For the purpose of guaranteeing communication quality, most of the functional parts of the conventional subscriber line end station device are realized by using hardware. However, when the functional part of the subscriber line end station device is realized by using hardware, it is difficult to change or add the function of the subscriber line end station device. Such difficulties become a bottleneck in deploying high-speed and diverse network services. Therefore, it is effective to realize the network function of the subscriber line end station device by using software that operates on an operating system (OS) or the like (see Non-Patent Document 2).

IEEE802.3ah-2012 Tadokoro, 3 outsiders, "Examination of application of virtualization technology to optical access NW", Shingaku Giho 115 (123), 2015, pp. 85-89

However, when the network function is realized by using software, interrupt and queuing processing is executed for the network function unit by another function unit running in the operating system. Due to the interrupt and queuing processing, the packet transmission processing time in the network function unit may fluctuate.

Fluctuations in the transmission processing time particularly affect the transmission of GATE messages. In the case of EPON, the subscriber line terminating device executes time synchronization by matching the timer of its own device with the time information (time stamp value) described in the GATE message unicast from the subscriber line end station device. To do. Therefore, if the transmission processing time of the GATE message transmitted to each subscriber line termination device is different for each subscriber line termination device, the accuracy of time synchronization between the plurality of subscriber line termination devices is lowered. Decreased accuracy of time synchronization causes collision of uplink signals, which reduces throughput in the uplink direction.

The processing of receiving the uplink signal in the server is realized by using an interrupt to the software as a trigger. Therefore, the reception processing time of the uplink signal is longer than that in the case where the reception processing is realized by using hardware. The time from when the REPORT message is received until the subscriber line end station device allocates the transmission band notified to the subscriber line termination device is the time required for processing until the REPORT message is received and transmitted as a GATE message. Becomes longer as it becomes longer. Due to fluctuations in packet transmission processing time and reception processing time, the time until the subscriber line end station device effectively allocates the transmission band may become long. In this way, when the network function is realized by using software, the processing may take time.

In view of the above circumstances, the present invention can reduce the processing load of the server or the auxiliary device when the network function is realized by using software and the server and the auxiliary device are used. It is an object of the present invention to provide an apparatus and a communication control method.

One aspect of the present invention includes a permission signal generation unit that generates an extended transmission permission signal that includes uplink transmission information that is information related to uplink transmission permission for each subscriber line termination device, and the uplink for each subscriber line termination device. It is a subscriber line end station device including a permission signal processing unit that reads transmission information from the extended transmission permission signal and generates a transmission permission signal including the read uplink transmission information for each subscriber line termination device. ..

One aspect of the present invention is the above-mentioned subscriber line end station device, which is a request signal processing that generates an extended request signal including uplink transmission request information which is information about an uplink transmission request for each subscriber line termination device. A unit and a reading unit that acquires the uplink transmission request information for each subscriber line termination device from the extended request signal and reads out the transmission request signal including the acquired uplink transmission request information for each subscriber line termination device. And a band allocation unit that allocates the uplink transmission band to the subscriber line termination device based on the read uplink transmission request information.

One aspect of the present invention is the subscriber line end station device, and the request signal processing unit permits the permission even after a certain period of time has elapsed after transmitting the uplink transmission request information to the reading unit. If the signal processing unit has not acquired the extended transmission permission signal, the uplink transmission request information is retransmitted to the reading unit.

One aspect of the present invention is the subscriber line end station device, and at least one of the uplink transmission information and the uplink transmission request information includes information on the round trip time of the subscriber line termination device. ..

One aspect of the present invention includes a request signal processing unit that generates an extended request signal including uplink transmission request information that is information related to an uplink transmission request for each subscriber line termination device, and the uplink for each subscriber line termination device. Based on a reading unit that acquires transmission request information from the extended request signal and reads out the acquired transmission request signal including the uplink transmission request information for each subscriber line termination device, and the read uplink transmission request information. This is a subscriber line end station device including a band allocation unit that allocates an uplink transmission band to the subscriber line termination device.

One aspect of the present invention is the subscriber line end station device, and the uplink transmission request information includes information on the round trip time of the subscriber line end device.

One aspect of the present invention is a communication control method executed by a subscriber line end station device, and generates an extended transmission permission signal including uplink transmission information which is information related to permission of uplink transmission for each subscriber line terminal device. A step of reading the uplink transmission information for each subscriber line terminating device from the extended transmission permission signal and generating a transmission permission signal including the read uplink transmission information for each subscriber line terminating device. It is a communication control method including.

One aspect of the present invention is a communication control method executed by a subscriber line end station device, and generates an extended request signal including uplink transmission request information which is information related to an uplink transmission request for each subscriber line terminal device. A step and a step of acquiring the uplink transmission request information for each subscriber line terminating device from the extended request signal and reading out a transmission request signal including the acquired uplink transmission request information for each subscriber line terminating device. , Is a communication control method including a step of allocating an uplink transmission band to the subscriber line termination device based on the read uplink transmission request information.

According to the present invention, when a network function is realized by using software and a server and an auxiliary device are used, it is possible to reduce the processing load of the server or the auxiliary device.

It is a figure which shows the configuration example of the passive optical network in embodiment. It is a figure which shows the example of the extended GATE message in an embodiment. It is a figure which shows the example of the extended REPORT message in an embodiment. It is a sequence diagram which shows the process which concerns on the extended GATE message of a plurality of subscriber line termination devices in embodiment. It is a sequence diagram which shows the process about the extended GATE message of one subscriber line terminating apparatus in embodiment. FIG. 5 is a sequence diagram showing an example of processing related to an extended REPORT message of a plurality of subscriber line termination devices in the embodiment. It is a sequence diagram which shows the process which concerns on the extended REPORT message of one subscriber line terminating apparatus in embodiment. It is a figure which shows the configuration example of the passive optical network. It is a sequence diagram which shows the example of the outline of MPCP.

Embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 is a diagram showing a configuration example of a passive optical network 1 (PON). The passive optical network 1 includes a subscriber line end station device 10 (intra-station optical end device), an optical splitter 11, and a subscriber line end device 12-1 to 12-k (in-house optical end device). The subscriber line end station device 10 includes a server 100 and an auxiliary device 200.

A configuration example of the server 100 will be described.
The server 100 is a general-purpose server. The server 100 realizes at least a part of the functions of the subscriber line end station device 10 by using software. The server 100 includes an OLT process execution unit 101, an extended GATE generation unit 102, and an extended REPORT interpretation unit 103.

A part or all of each functional unit of the server 100 is a memory in which a processor such as a CPU (Central Processing Unit) or a GPU (Graphics Processing Unit) is a non-volatile recording medium (non-temporary recording medium). It is realized as software by executing the stored program. A part of the functional parts of the server 100 may be realized by using hardware such as LSI (Large Scale Integration) or FPGA (Field Programmable Gate Array).

The OLT process execution unit 101 (band allocation unit) refers to the transmission request amount included in the uplink transmission request information read for each subscriber line termination device 12 by the extended REPORT interpretation unit 103. The OLT process execution unit 101 derives the transmission band of the uplink signal of each subscriber line termination device 12 based on the result of referring to the transmission request amount. The OLT process execution unit 101 allocates an uplink signal transmission band to each subscriber line termination device 12. The OLT process execution unit 101 transmits uplink transmission information (information regarding permission for uplink transmission) including information on the transmission band of the uplink signal of each subscriber line termination device 12 to the extended GATE generation unit 102.

The extended GATE generation unit 102 (permission signal generation unit) has one or more GATE messages (hereinafter referred to as "extended GATE message" or "extended transmission permission signal") including uplink transmission information of one or more subscriber line termination devices. With respect to the subscriber line terminating device 12, it is generated based on the information representing the transmission band of the uplink signal of each subscriber line terminating device 12. The extended GATE generation unit 102 transmits the extended GATE message to the auxiliary device 200.

From the viewpoint of preventing collisions between uplink signals corresponding to different extended GATE message frames, the number of extended GATE message frames for all subscriber line termination devices 12 permitted to be transmitted in the same band allocation cycle is 1. It is desirable that the number is individual. The number of frames of the extended GATE message may be plural in the same bandwidth allocation cycle. The extended GATE generation unit 102 transmits the generated extended GATE message to the auxiliary device 200. With respect to the values restated in the GATE message by the auxiliary device 200, the extended GATE generator 102 may include "Null" or "arbitrary value" in the extended GATE message. By not stamping or stamping an "arbitrary value", the extended GATE generation unit 102 does not need to calculate the value. As a result, the amount of processing in the extended GATE generation unit 102 is reduced. When the processing time of the extended GATE generation unit 102 or the like has sufficient margin, the extended GATE generation unit 102 may correctly describe the value overwritten in the GATE message by the auxiliary device 200 in the extended GATE message. When the processing time of the extended GATE generation unit 102 or the like is not sufficient, the extended GATE generation unit 102 may describe "Null" or "arbitrary value" in the extended GATE message.

The extended REPORT interpretation unit 103 (reading unit) transmits a REPORT message (hereinafter referred to as “extended REPORT message” or “extended transmission request signal”) including uplink transmission request information of one or more subscriber line termination devices to the auxiliary device 200. Receive from.

From the viewpoint of reducing the message reception processing, it is desirable that the number of frames of the extended REPORT message associated with all the subscriber line termination devices 12 that have transmitted the REPORT message is one in the same band allocation cycle. The number of frames of the extended REPORT message may be multiple in the same bandwidth allocation cycle.

The extended REPORT interpretation unit 103 acquires uplink transmission request information representing the transmission request amount of each subscriber line terminating device 12 from the extended REPORT message. The extended REPORT interpretation unit 103 transmits uplink transmission request information representing the transmission request amount of each subscriber line termination device 12 to the OLT process execution unit 101. A predetermined value such as a value using statistical processing such as averaging the round trip time values of a plurality of subscriber line termination devices 12, a value of the round trip time of a specific subscriber line termination device 12, and a predetermined value. Reduced so that the original round-trip time value or equivalent can be restored using either the difference information about the individual subscriber line termination device 12 round-trip time values relative to the value. When a round trip time value is required for deriving the uplink transmission request information, the extended REPORT interpretation unit 103 or the OLT process execution unit 101 sets the round trip time of each subscriber line termination device 12 or a value equivalent thereto. Using the above predetermined value, restoration is performed based on the difference information of the round trip time and the like.

Next, a configuration example of the auxiliary device 200 will be described.
The auxiliary device 200 executes at least one of a process of generating one or more GATE messages based on the extended GATE message and a process of generating an extended REPORT message based on one or more REPORT messages.

The auxiliary device 200 includes a server-side port unit 201, a GATE message processing unit 202, a PON-side port unit 203, and a REPORT message processing unit 204. A part or all of the functional parts of the auxiliary device 200 are realized by using hardware such as LSI or FPGA.

The server-side port unit 201 transmits and receives information between the server 100 and the auxiliary device 200. The server-side port unit 201 receives the extended GATE message from the extended GATE generation unit 102. The server-side port unit 201 transmits the extended GATE message to the GATE message processing unit 202. The server-side port unit 201 may receive other control signals and downlink user data from the server 100. The server-side port unit 201 may transmit other control signals and downlink user data to the PON-side port unit 203.

The server-side port unit 201 receives the extended REPORT message from the REPORT message processing unit 204. The server-side port unit 201 transmits an extended REPORT message to the extended REPORT interpretation unit 103. The server-side port unit 201 may receive other control signals and uplink user data from the PON-side port unit 203. The server-side port unit 201 may transmit other control signals and uplink user data to the server 100.

The GATE message processing unit 202 (permission signal processing unit) converts the extended GATE message transmitted from the extended GATE generation unit 102 into a GATE message for each subscriber line terminating device 12 with respect to one or more subscriber line terminating devices 12. To do. For example, when a GATE message for a plurality of subscriber line termination devices 12 and an extended GATE message are associated with each other, the GATE message processing unit 202 extracts information from the extended GATE message, and the extracted information and a predetermined calculation are performed. Generate a GATE message based on the algorithm. The GATE message processing unit 202 may restore information such as the transmission start time based on the value of the round trip time. In the process of restoring information such as the transmission start time, the GATE message processing unit 202 sets the value of the round trip time to, for example, a predetermined time, a current time, and a time different from the current time by a predetermined time. Add or subtract for each subscriber line termination device 12. The GATE message processing unit 202 sets, for example, the value of the difference information with respect to the representative value of the round trip time at any time between the predetermined time, the current time, and the time different from the current time by a predetermined time. It may be added or subtracted for each. The GATE message processing unit 202 includes an extended GATE reception unit 2021, a GATE information holding unit 2022, and a GATE generation unit 2023.

The extended GATE reception unit 2021 receives the extended GATE message from the extended GATE generation unit 102 via the server-side port unit 201. The extended GATE reception unit 2021 acquires the uplink transmission information of each subscriber line termination device 12 included in the extended GATE message from the extended GATE message. The extended GATE reception unit 2021 records the uplink transmission information of each subscriber line termination device 12 in the GATE information holding unit 2022. When all the uplink transmission information included in the extended GATE message is recorded in the GATE information holding unit 2022, the extended GATE reception unit 2021 informs the GATE generation unit 2023 that the recording of all the uplink transmission information is completed. You may notify. Immediately before all the uplink transmission information included in the extended GATE message is recorded in the GATE information holding unit 2022, and immediately before the recording of all the uplink transmission information is completed, the GATE generation unit 2023 is notified. May be good. The GATE information holding unit 2022 stores the uplink transmission information of each subscriber line termination device 12.

When the GATE generation unit 2023 is notified that the recording of all the uplink transmission information is completed, the GATE generation unit 2023 acquires the uplink transmission information of each subscriber line termination device 12 from the GATE information holding unit 2022. Even if the GATE generation unit 2023 has not been notified that the recording of all the uplink transmission information has been completed, if the current time is after the scheduled recording completion time, the uplink transmission of each subscriber line termination device 12 Information may be acquired from the GATE information holding unit 2022. The scheduled recording completion time is determined in advance based on, for example, the time required for the recording process. As described above, an example is shown in which the GATE generation unit 2023 starts processing in a state where the uplink transmission information of one or more subscriber line termination devices 12 is aligned or is expected to be aligned. The more the GATE generation unit 2023 collectively acquires the uplink transmission information of many subscriber line termination devices 12, the higher the processing efficiency of the GATE generation unit 2023. The GATE generator 2023 acquires the uplink transmission information of one or more subscriber line termination devices 12 even if the uplink transmission information of one or more subscriber line termination devices 12 is aligned or not expected to be aligned. The process may be started at that point. For example, the GATE generation unit 2023 may execute the process by sequentially assigning an algorithm such as IPACT (Interleaved Polling with Adaptive Cycle Time).

The GATE generation unit 2023 generates a GATE message for each subscriber line termination device 12 based on the uplink transmission information of each subscriber line termination device 12. The GATE generation unit 2023 transmits each generated GATE message to the PON side port unit 203. The GATE generation unit 2023 transmits the LLID (Logical Link ID) (logical line identification information) of the subscriber line termination device, which is the destination (transmission destination) of the GATE message, to the REPORT information holding unit 2042.

If the allocated bandwidth is not allocated based on the result of subtracting the transmission request amount in the REPORT information, but the bandwidth is allocated based on the latest value of the transmission request amount in the REPORT information, the GATE generation unit 2023 It is not necessary to transmit the LLID to the REPORT information holding unit 2042.

The GATE generation unit 2023 does not transmit the LLID of the subscriber line terminating device 12 for which the transmission request amount report is not requested, but instead transmits the LLID of the subscriber line terminating device 12 for which the transmission request amount report is requested. , May be transmitted to the REPORT information holding unit 2042. The GATE generation unit 2023 sends the LLID of the subscriber line termination device 12 for which the transmission request amount report is requested multiple times to the REPORT information holding unit 2042 so that it can be seen that the transmission request amount report is requested multiple times. You may send it.

Instead of transmitting the LLID to the REPORT information holding unit 2042, the GATE generation unit 2023 may transmit the estimated time of arrival of the REPORT information to the REPORT information holding unit 2042 using an extended GATE message or the like. When the estimated time of arrival of the REPORT information is the time based on the band allocation cycle, the GATE generation unit 2023 does not have to transmit the estimated time of arrival of the REPORT information to the REPORT information holding unit 2042. When the estimated arrival time of the REPORT information is a time after a predetermined time from the arrival time of the extended GATE message, the GATE generation unit 2023 does not have to transmit the estimated arrival time of the REPORT information to the REPORT information holding unit 2042.

The PON side port unit 203 transmits information to each subscriber line termination device 12 via the optical splitter 11 (PON line). The PON side port unit 203 receives the GATE message (transmission permission signal) specified in the MPCP or the like from the GATE message processing unit 202 for each subscriber line termination device 12. The PON side port unit 203 transmits each GATE message to each subscriber line termination device 12 via the optical splitter 11.

The PON side port unit 203 may receive another control signal and downlink user data from the server side port unit 201 via another route (not shown). The PON side port unit 203 may transmit other control signals and downlink user data to each subscriber line termination device 12 via the optical splitter 11.

The PON side port unit 203 may receive other control signals and downlink user data from other than the server 100. For example, when a switch (not shown) is connected to the server side port unit 201, the PON side port unit 203 may receive an extended GATE message from the server 100 via the switch. The PON side port unit 203 may receive downlink user data and other control signals from a higher-level device (not shown) other than the server 100 via a switch.

The PON side port unit 203 receives information from each subscriber line termination device 12 via the optical splitter 11 (PON line). The PON side port unit 203 receives the REPORT message defined in MPCP or the like, other control signals, and uplink user data from each subscriber line termination device 12 via the optical splitter 11.

The PON side port unit 203 transmits each REPORT message received from each subscriber line terminating device 12 to the REPORT message processing unit 204. The PON side port unit 203 transmits other control signals and uplink user data to the server side port unit 201 via another route (not shown). When the REPORT message processing unit 204 cannot receive the information on the round trip time of the subscriber line terminal device 12 immediately after being registered in the subscriber line end station device 10, the REPORT message processing unit 204 sets the measured value of the round trip time. Based on this, an extended REPORT message is generated. The REPORT message processing unit 204 may generate an extended REPORT message based on the measured value of the round trip time received from the server 100.

The server-side port unit 201 does not have to transmit other control signals and uplink user data to the server. For example, when a switch (not shown) is connected to the server side port unit 201, the server side port unit 201 may transmit the extended REPORT, the register value, and the like to the server 100 via the switch. The server-side port unit 201 may transmit uplink user data and other control signals to a higher-level device (not shown) other than the server 100 via a switch.

The REPORT message processing unit 204 (request signal processing unit) receives the transmission request amount of each subscriber line termination device 12 from the PON side port unit 203. The REPORT message processing unit 204 generates an extended REPORT message including uplink transmission request information indicating the transmission request amount of each subscriber line termination device 12. The REPORT message processing unit 204 transmits an extended REPORT message to the server-side port unit 201. The REPORT message processing unit 204 includes a REPORT reception unit 2041, a REPORT information holding unit 2042, and an extended REPORT generation unit 2043.

The REPORT reception unit 2041 receives the REPORT message from each subscriber line terminating device 12 via the PON side port unit 203. The REPORT reception unit 2041 measures the reception time of the REPORT message (hereinafter referred to as "REPORT reception time") in the subscriber line end station device 10 for each REPORT message. The REPORT reception unit 2041 describes the REPORT reception time in the REPORT message as a part of the uplink transmission request information.

The REPORT reception time may be described in the extended REPORT message. Therefore, if the received REPORT message and the REPORT reception time are associated with each other, the REPORT reception unit 2041 does not need to describe the REPORT reception time in the REPORT message received from each subscriber line terminal device 12. May be good.

The REPORT reception unit 2041 describes the round trip time derived from the time stamp value received from the subscriber line termination device 12 and the REPORT reception time in the area where the time stamp value is described in the uplink transmission request information. You may. The REPORT reception unit 2041 describes the round trip time derived from the time stamp value received from the subscriber line termination device 12 and the REPORT reception time in the area where the REPORT reception time is described in the uplink transmission request information. You may.

The REPORT reception unit 2041 acquires the uplink transmission request information from the REPORT message. The REPORT reception unit 2041 records the uplink transmission request information in the REPORT information holding unit 2042.

The REPORT information holding unit 2042 stores the uplink transmission request information of each subscriber line termination device 12. The REPORT information holding unit 2042 receives the GATE message from the GATE generation unit 2023. The REPORT information holding unit 2042 determines whether or not the subscriber line end station device 10 has received all the REPORT messages in the current band allocation cycle based on the LLID of each subscriber line end device 12 that has transmitted the GATE message. judge.

The REPORT information holding unit 2042 may determine whether or not the subscriber line end station device 10 has received all the REPORT messages in the current band allocation cycle based on the LLID received from the GATE generation unit 2023. .. The REPORT information holding unit 2042 determines whether or not the subscriber line end station device 10 has received all the REPORT messages in the band allocation cycle of the current time, and the completion time of the time when the REPORT message is notified is after the current time. It may be judged based on whether or not. The completion time of the time when the REPORT message is notified may be a predetermined time, a notified time, or a derived time. Even if each REPORT message of all the subscriber line termination devices 12 in the current band allocation cycle has not arrived, the completion time of the time when the REPORT message is notified is a predetermined number as the number to be processed collectively. It may be the time when the above REPORT message arrives at the PON side port unit 203, or it may be the time when a predetermined time has elapsed from the arrival time of the REPORT message that arrived earlier.

When it is determined that the subscriber line end station device 10 has received all the REPORT messages in the current band allocation cycle, the REPORT information holding unit 2042 informs the extended REPORT generation unit 2043 that the reception of the REPORT message has been completed. Notice.

The extended REPORT generation unit 2043 acquires the uplink transmission request information of each subscriber line termination device 12 from the REPORT information holding unit 2042. The extended REPORT generation unit 2043 generates an extended REPORT message based on the uplink transmission request information of each subscriber line termination device 12. The extended REPORT generation unit 2043 transmits the generated extended REPORT message to the server side port unit 201.

Next, an example of an extended GATE message will be described.
FIG. 2 is a diagram showing an example of an extended GATE message. The extended GATE message includes a part of the extended GATE message so that the frame length of the extended GATE message is shortened. For example, the extended GATE message includes a combination of uplink transmission information of each LLID (uplink transmission information # 1, uplink transmission information # 2, ...) For one or more subscriber line termination devices 12. The extended GATE message may be split for the plurality of subscriber line terminating units 12.

Extended GATE messages include destination (destination) MAC (Media Access Control) address, source MAC address, VLAN (Virtual Local Area Network) tag, MPCP "Type", MPCP "OpCode", and time. Includes stamp value and. The extended GATE message further includes information on the number of subscriber line terminating devices 12 to which information is distributed "number of distributed ONUs (= number of uplink transmission information)" and uplink transmission information of each subscriber line terminating device 12. ..

In FIG. 2, the value of the destination MAC address is an example. The extended GATE message may not include a VLAN tag as long as the extended GATE message can be distinguished from other messages. When the auxiliary device 200 records the time stamp value, the extended GATE message does not have to include the time stamp value and the number of distributed ONUs.

The extended GATE message may be a message in which the combination of the GATE messages of each subscriber line termination device 12 is encapsulated. The coupling of GATE messages in each subscriber line terminating unit 12 is encapsulated using, for example, an Ethernet (registered trademark) frame or the like.

An example of uplink transmission information of the subscriber line termination device 12 will be described with reference to FIG.
The uplink transmission information includes information on the LLID of the subscriber line termination device, information on the round trip time “RTT”, and information on the transmission start time and transmission band for each queue. In the extended GATE message, when the number of uplink transmission information is plural, the order (# 1, # 2, ...) In which the uplink transmission information is described is, for example, the subscriber line termination device 12. The ascending or descending order of the code "k" assigned to the GATE message, the order of circulation for each transmission opportunity of the extended GATE message, or the transmission order of the GATE message may be used.

The uplink transmission information may include the LLID and the transmission band of the subscriber line terminating device 12, and may not include the transmission start time and the time stamp value of the subscriber line terminating device 12. When the server 100 executes the discovery process of the subscriber line termination device 12 and the termination process of the REPORT message, the round trip time described in the uplink transmission information may be a statistical value of the round trip time. When the auxiliary device 200 executes the discovery process of the subscriber line termination device 12 and the termination process of the REPORT message, the round trip time described in the uplink transmission information may be the latest value of the round trip time. In the uplink transmission information, the round trip time may be described in the area where the transmission start time is described.

When the REPORT message processing unit 204 derives the round trip time, the REPORT message processing unit 204 processes the round trip time information in the auxiliary device 200 from the viewpoint of reducing the processing related to the extended GATE message and the extended REPORT message. It may be transmitted to the unit 202.

When the REPORT message processing unit 204 derives the round trip time, the REPORT message processing unit 204 may transmit the round trip time information to the server 100 by using the extended REPORT message. The server 100 may transmit the round trip time information to the GATE message processing unit 202 by using the extended GATE message.

When the server 100 derives the round trip time, the server 100 transmits the round trip time information to the GATE message processing unit 202 by using the extended GATE message. The server 100 may transmit the round trip time information to the auxiliary device 200 without using the extended GATE message.

If the extended GATE message is stamped with a time stamp value, the time stamp value is not re-stamped in the extended GATE message. In this case, it is possible to prevent the uplink signals that are permitted to be transmitted from colliding with each other based on the uplink transmission information in a single extended GATE message. It is not possible to prevent the uplink signals that are permitted to be transmitted from colliding with each other based on the uplink transmission information in a plurality of consecutive extended GATE messages. Since the time stamp value stamped on the extended GATE message and the actual transmission time of the GATE message are different, the transmission start time of the GATE message needs to be changed. Even if the time stamp value is stamped in the extended GATE message, the time stamp value may be reprinted in the extended GATE message.

If the time stamp value is not reprinted in the extended GATE message, the time stamp value is posted as is in the GATE message.

(Transmission delay time between server 100 and auxiliary device 200) + (fluctuation time) + (waiting time from reception to transmission of GATE message) + (from transmission start time of GATE message to transmission start time of next GATE message) Time) × (GATE message transmission order-1), the transmission start time of the GATE message is delayed.

Therefore, the server 100 or the auxiliary device 200 starts sending one GATE between the subscriber line terminating devices that are continuously transmitted from the transmission start time of the GATE message for each subscriber line terminating device 12 (for each queue). Subtract the time from to start sending the next GATE.

In the following, the total of the transmission delay time between the server 100 and the auxiliary device 200, the fluctuation time, and the waiting time from the reception to the transmission of the GATE message is expressed as "T _x ". The time from the transmission start time of the GATE message to the transmission start time of the next GATE message is expressed as " _Ty ". The transmission start time when the time stamp value of the transmission time of each GATE message is stamped in the GATE message is written as "t _1k (= t ₁₁ , t ₁₂ , ...)".

The port unit 203 on the PON side sets the transmission start time of the kth GATE message to the time “t ₁₂ + T _x + T _y × (k-1)”. For example, the PON side port unit 203 sets the transmission start time of the first GATE message to the time “t ₁₁ + T _x ”. The port unit 203 on the PON side sets the transmission start time of the second GATE message to the time “t ₁₂ + T _x + T _y × 1”.

Next, an example of the extended REPORT message will be described.
FIG. 3 is a diagram showing an example of an extended REPORT message. Since the load on the server 100 is reduced by using the extended REPORT message, the subscriber line end station device 10 can suppress a decrease in throughput due to an increase in the processing load of the server. The extended REPORT message includes uplink transmission request information of each subscriber line termination device 12 for one or more subscriber line termination devices 12. The extended REPORT message may be split for the plurality of subscriber line terminating units 12. The extended REPORT message includes a destination (destination) MAC address, a source MAC address, a VLAN tag, an MPCP "Type", and an MPCP "OpCode". The extended REPORT message further includes information on the number of uplink transmission request information "number of transmission request information" included in the extended REPORT message, and uplink transmission request information of each subscriber line termination device 12.

In FIG. 3, the value of the destination MAC address is an example. The extended REPORT message may not include the VLAN tag and the number of transmission request information if it can be identified as the extended REPORT message.

The extended REPORT message may be a message in which the combination of the REPORT messages of each subscriber line termination device 12 is encapsulated. The coupling of REPORT messages in each subscriber line terminating unit 12 is encapsulated using, for example, an Ethernet® frame or the like.

An example of uplink transmission request information of the subscriber line termination device 12 will be described with reference to FIG.
The uplink transmission request information includes LLID information of the subscriber line terminal device 12, time stamp value, REPORT reception time (OLT reception time) information, transmission queue number (queue number) information, and transmission for each queue. Includes information on the requested amount (transmission request band).

At least one of the uplink transmission request information and the uplink transmission information includes information on the round trip time "RTT" for each subscriber line termination device 12. Therefore, at least one of the extended REPORT message and the extended GATE message includes information on the round trip time "RTT" for each subscriber line termination device 12. In the extended REPORT message, at least one of the time stamp value and the REPORT reception time may be replaced with the information of the round trip time "RTT" derived based on the time stamp value and the REPORT reception time. When the uplink transmission request information includes the REPORT reception time or the time stamp value, the uplink transmission request information may be used for time synchronization.

In the example of the uplink transmission request information shown in FIG. 3, in the fields in which the time stamp value and the REPORT reception time are described, only the information of the round trip time "RTT" and the round trip time and the time stamp value are displayed. , Round trip time and REPORT reception time may be described. When the uplink transmission request information is information about one subscriber line terminal device 12, the time stamp value and the REPORT reception time may be replaced with the information of the round trip time “RTT”. As a result, the load on the server 100 is reduced, so that the subscriber line end station device 10 can suppress the decrease in throughput. When the difference information of the round trip time of each subscriber line termination device 12 is held in the server 100, the representative value of the round trip time common to each subscriber line termination device 12 is described in the uplink transmission request information. You may.

The value of the round trip time "RTT" described in the uplink transmission request information may be used as the round trip time common to the plurality of subscriber line termination devices 12. For example, the REPORT information holding unit 2042 may hold information on the difference in round trip time in advance with respect to the plurality of subscriber line termination devices 12. The extended REPORT generation unit 2043 may derive the round trip time for each subscriber line termination device 12 based on the difference in the round trip time.

Next, processing related to the extended GATE message will be described.
FIG. 4 is a sequence diagram showing an example of processing related to an extended GATE message of a plurality of subscriber line termination devices 12. In the server 100, the OLT process execution unit 101 acquires the uplink transmission request information of each subscriber line termination device 12 from the extended REPORT message. The OLT process execution unit 101 derives the transmission band and the transmission start time of the uplink signal of each subscriber line termination device based on the uplink transmission request information of each subscriber line termination device 12. The OLT process execution unit 101 transmits information on the transmission band and transmission start time of the uplink signal of each subscriber line termination device 12 to the extended GATE generation unit 102.

The extended GATE generation unit 102 receives information on the transmission band and transmission start time of the uplink signal of each subscriber line termination device 12 from the OLT process execution unit 101. The extended GATE generation unit 102 generates an extended GATE message including the uplink transmission information of one or more subscriber line termination devices 12 based on the information of the transmission band and the transmission start time of the uplink signal of each subscriber line termination device 12. To do. The extended GATE generation unit 102 transmits the extended GATE message to the auxiliary device 200.

At the timing when the extended GATE generation unit 102 generates the extended GATE message, the transmission band of the uplink signal of all the subscriber line termination devices 12 connected to the subscriber line end station device 10 is derived by the OLT process execution unit 101. It is not limited to the timing. In the extended GATE generation unit 102, the transmission band of the uplink signal of some of the subscriber line termination devices 12 among all the subscriber line termination devices 12 connected to the subscriber line end station device 10 is the OLT process execution unit. An extended GATE message including the derived uplink transmission information may be generated at the timing derived by 101.

In this way, the server 100 generates the extended GATE message. The server 100 collectively transmits the uplink transmission information of each subscriber line termination device 12 to the auxiliary device 200 using the extended GATE message. That is, the server 100 does not generate a GATE message (packet) for each subscriber line terminating device 12 and transmits each GATE message to each subscriber line terminating device 12, but generates an extended GATE message and an extended GATE. A message is transmitted to the auxiliary device 200 (step S101).

The extended GATE reception unit 2021 receives the extended GATE message from the extended GATE generation unit 102 via the server-side port unit 201. The extended GATE reception unit 2021 acquires the uplink transmission information of each subscriber line termination device 12 from the extended GATE message. The extended GATE reception unit 2021 records the uplink transmission information of each subscriber line termination device 12 in the GATE information holding unit 2022.

The GATE generation unit 2023 retains the uplink transmission information of each subscriber line termination device 12 when the process of storing all the uplink transmission information included in the extended GATE message by the GATE information holding unit 2022 is completed. Obtained from section 2022. When the number of uplink transmission information stored in the GATE information holding unit 2022 reaches a predetermined number, the GATE generation unit 2023 acquires the uplink transmission information of each subscriber line termination device 12 from the GATE information holding unit 2022. May be good. When a predetermined time elapses from the start self term of the process in which the GATE information holding unit 2022 stores the uplink transmission information, the GATE generation unit 2023 transmits the uplink transmission information of each subscriber line termination device 12 from the GATE information holding unit 2022. You may get it.

The GATE generation unit 2023 is based on the uplink transmission information of each subscriber line termination device 12, and the IEEE 802.3. ah or IEEE802.3. Generates a GATE message specified in av and the like. The GATE message transmitted to each subscriber line termination device 12 includes uplink transmission information in which information such as a transmission start time and a transmission band is described. The GATE generation unit 2023 transmits each GATE message to the PON side port unit 203.

The PON side port unit 203 transmits each GATE message to each subscriber line terminating device 12. When transmitting each GATE message, the PON side port unit 203 may transmit all the GATE messages in one transmission process by shortening the guard time between the GATE messages as much as possible. The GATE generation unit 2023 notifies the REPORT information holding unit 2042 of the LLID of the subscriber line terminating device 12 which is the destination (transmission destination) of the GATE message. The REPORT information holding unit 2042 stores the LLID of the subscriber line terminating device that is the destination (destination) of the GATE message.

The GATE generation unit 2023 does not transmit the LLID of the subscriber line terminating device 12 for which the transmission request amount report is not requested, but instead transmits the LLID of the subscriber line terminating device 12 for which the transmission request amount report is requested. , May be transmitted to the REPORT information holding unit 2042. The GATE generation unit 2023 sends the LLID of the subscriber line termination device 12 for which the transmission request amount report is requested multiple times to the REPORT information holding unit 2042 so that it can be seen that the transmission request amount report is requested multiple times. You may send it.

Instead of transmitting the LLID to the REPORT information holding unit 2042, the GATE generation unit 2023 may transmit the estimated time of arrival of the REPORT information to the REPORT information holding unit 2042 using an extended GATE message or the like. When the estimated time of arrival of the REPORT information is the time based on the band allocation cycle, the GATE generation unit 2023 does not have to transmit the estimated time of arrival of the REPORT information to the REPORT information holding unit 2042. When the estimated arrival time of the REPORT information is a time after a predetermined time from the arrival time of the extended GATE message, the GATE generation unit 2023 does not have to transmit the estimated arrival time of the REPORT information to the REPORT information holding unit 2042.

As described above, the auxiliary device 200 generates a GATE message destined for each subscriber line terminating device 12 from the extended GATE message (step S102). The auxiliary device 200 transmits each GATE message to each subscriber line termination device 12 (step S103).

In order to reduce the processing load of the server 100, the server 100 may generate an extended GATE message including uplink transmission information in which LLID and transmission band information is described and transmission start time is not described. The server 100 may generate an extended GATE message including uplink transmission information in which LLID and transmission band information is described and the transmission start time and time stamp value are not described. The server 100 may send an extended GATE message such as these to the auxiliary device 200.

When the transmission start time is not described in the extended GATE message, the GATE generation unit 2023 will perform each subscriber line termination device 12 based on the transmission band of each subscriber line termination device 12 described in the extended GATE message. Derived the transmission start time. For example, the GATE generation unit 2023 derives the transmission start time described in the GATE message so that the uplink signals transmitted from each subscriber line termination device 12 do not collide on the optical splitter 11.

The server 100 may describe the transmission start time in the extended GATE message. The server 100 may describe the difference information of the transmission start time between the plurality of subscriber line termination devices 12 in the extended GATE message. The GATE generation unit 2023 may derive the transmission start time for each subscriber line termination device 12 based on the difference information of the transmission start time.

When the time stamp value is not described in the extended GATE message, the GATE generation unit 2023 describes the current time as the time stamp value in the time stamp area of the GATE message when transmitting each GATE message to the PON side port unit 203. You may. When the time stamp value is described in the extended GATE message, the GATE generation unit 2023 re-enters the current time as the time stamp value in the time stamp area of the GATE message when transmitting each GATE message to the PON side port unit 203. You may carve it.

As a result, the GATE generation unit 2023 can improve the accuracy of time synchronization between the plurality of subscriber line termination devices 12. When the time stamp value is reprinted in the time stamp area of the GATE message, the initial time stamp value may be a value "Null" indicating nothing. The initial time stamp value may be an indefinite value within a range in which the operation of the subscriber line termination device 12 is not unstable due to the reception of the GATE message.

(effect)
When the auxiliary device 200 is realized by using at least one of software and hardware having high real-time performance in the subscriber line end station device 10, the length of transmission processing time of each GATE message is almost the same. It becomes the length. As a result, the subscriber line end station device 10 can improve the accuracy of time synchronization between the plurality of subscriber line termination devices 12 without the subscriber line termination device 12 changing the time information. is there.

Since the server 100 transmits the extended GATE message, the subscriber line end station device 10 can shorten the transmission processing time as compared with the case where the server 100 transmits the GATE message a plurality of times. As a result, the subscriber line end station device 10 can suppress the occurrence of an uplink signal collision. The subscriber line end station device 10 can suppress a decrease in throughput in the upstream direction.

FIG. 5 is a sequence diagram showing an example of processing related to an extended GATE message of one subscriber line termination device 12. Regarding FIG. 5, the differences from FIG. 4 will be mainly described. The server 100 generates an extended GATE message for the subscriber line terminating device 12-2. The server 100 transmits the uplink transmission information of the subscriber line terminating device 12-2 to the auxiliary device 200 using the extended GATE message (step S101a). The auxiliary device 200 generates a GATE message destined for the subscriber line terminating device 12-2 from the extended GATE message (step S102a). The auxiliary device 200 transmits a GATE message to the subscriber line terminating device 12-2 (step S103a).

Next, the processing related to the extended REPORT message will be described.
FIG. 6 is a sequence diagram showing an example of processing related to the extended REPORT message of the plurality of subscriber line termination devices 12. Each subscriber line termination device 12 transmits a REPORT message in which the uplink transmission request information is described to the auxiliary device 200 (step S201).

The REPORT reception unit 2041 receives the REPORT message from each subscriber line terminating device 12 via the PON side port unit 203. The REPORT reception unit 2041 describes the REPORT reception time in the REPORT message as a part of the uplink transmission request information.

The REPORT reception unit 2041 acquires the uplink transmission request information from the REPORT message. The REPORT reception unit 2041 records the uplink transmission request information in the REPORT information holding unit 2042.

The REPORT information holding unit 2042 stores the uplink transmission request information of each subscriber line termination device 12. The REPORT information holding unit 2042 receives the GATE message from the GATE generation unit 2023. The REPORT information holding unit 2042 determines whether or not the subscriber line end station device 10 has received all the REPORT messages in the current band allocation cycle based on the LLID of each subscriber line end device 12 that has transmitted the GATE message. judge.

When it is determined that the subscriber line end station device 10 has received all the REPORT messages in the current band allocation cycle, the REPORT information holding unit 2042 informs the extended REPORT generation unit 2043 that the reception of the REPORT message has been completed. Notice.

The extended REPORT generation unit 2043 acquires the uplink transmission request information of each subscriber line termination device 12 from the REPORT information holding unit 2042. That is, the extended REPORT generation unit 2043 acquires the uplink transmission request information of the transmission queue of each subscriber line termination device 12 from the REPORT information holding unit 2042. The extended REPORT generation unit 2043 generates an extended REPORT message based on the uplink transmission request information of each subscriber line termination device 12. The extended REPORT generation unit 2043 transmits the generated extended REPORT message to the server side port unit 201.

In this way, the auxiliary device 200 generates an extended REPORT message based on the REPORT message received from each subscriber line termination device 12 (step S202). The auxiliary device 200 transmits an extended REPORT message to the server 100 (step S203).

The extended REPORT interpretation unit 103 receives the extended REPORT message from the auxiliary device 200 via the server-side port unit 201. The extended REPORT interpretation unit 103 acquires uplink transmission request information representing the transmission request amount of each subscriber line terminating device 12 from the extended REPORT message. The extended REPORT interpretation unit 103 transmits uplink transmission request information representing the transmission request amount of each subscriber line termination device 12 to the OLT process execution unit 101.

The OLT process execution unit 101 acquires the uplink transmission request information of each subscriber line termination device 12 from the extended REPORT message. The OLT process execution unit 101 derives the transmission band transmission start time of the uplink signal of each subscriber line termination device based on the uplink transmission request information of each subscriber line termination device 12. The OLT process execution unit 101 transmits information on the transmission band of the uplink signal of each subscriber line termination device 12 to the extended GATE generation unit 102.

The OLT process execution unit 101 may derive the transmission start time of the uplink signal of each subscriber line termination device based on the uplink transmission request information of each subscriber line termination device 12. The OLT process execution unit 101 may transmit information on the transmission start time of the uplink signal of each subscriber line termination device 12 to the extended GATE generation unit 102. In this way, the server 100 collectively receives a plurality of REPORT messages (uplink transmission request information) using the extended REPORT messages (step S204).

FIG. 7 is a sequence diagram showing an example of processing related to an extended REPORT message of one subscriber line termination device 12. With respect to FIG. 7, the differences from FIG. 6 will be mainly described. The subscriber line terminating device 12-1 transmits a REPORT message in which the uplink transmission request information is described to the auxiliary device 200 (step S201a). The auxiliary device 200 generates an extended REPORT message based on the REPORT message received from the subscriber line termination device 12-1 (step S202a). The auxiliary device 200 transmits the extended REPORT message of the subscriber line terminating device 12-1 to the server 100 (step S203a). The server 100 receives the REPORT message (uplink transmission request information) of the subscriber line terminating device 12-1 by using the extended REPORT message (step S204a).

As described above, the subscriber line end station device 10 of the embodiment includes an extended GATE generation unit 102 (permission signal generation unit) and a GATE message processing unit 202 (permission signal processing unit). The extended GATE generation unit 102 generates an extended transmission permission signal. The extended transmission permission signal includes uplink transmission information, which is information regarding permission for uplink transmission, for each subscriber line terminating device 12. The GATE message processing unit 202 reads the uplink transmission information for each subscriber line termination device 12 from the extended transmission permission signal. The GATE message processing unit 202 generates a transmission permission signal including the read uplink transmission information for each subscriber line termination device 12.

As a result, the subscriber line end station device 10 can improve the accuracy of time synchronization between the plurality of subscriber line end devices 12. When the network function is realized by using software and the server 100 and the auxiliary device 200 are used, the subscriber line end station device 10 can reduce the processing load of the server 100 or the auxiliary device 200. For example, the subscriber line end station device 10 can shorten the processing time for the subscriber line end station device 10 to receive the REPORT message of each subscriber line end device 12. The subscriber line end station device 10 can suppress a long time until the subscriber line end station device 10 allocates a transmission band, and can prevent a long user data transmission delay time. By reducing the bandwidth used for REPORT, GRANT, etc. between the server 100 and the auxiliary device 200, it is possible to increase the bandwidth available for user data or the like between the server 100 and the auxiliary device 200. .. Furthermore, by slightly reducing the processing time by taking over the round trip time calculation processing, the time until allocation is reduced, and the throughput is improved by reducing the round trip time in TCP / IP control, which is different from the round trip time in PON. Is also connected. Therefore, the subscriber line end station device 10 can suppress a decrease in throughput.

The subscriber line end station device 10 of the embodiment includes a REPORT message processing unit 204 (request signal processing unit), an extended REPORT interpretation unit 103 (reading unit), and an OLT process execution unit 101 (band allocation unit). The REPORT message processing unit 204 (request signal processing unit) generates an extended request signal. The extended request signal includes uplink transmission request information, which is information regarding an uplink transmission request, for each subscriber line terminating device 12. The extended REPORT interpretation unit 103 (reading unit) acquires uplink transmission request information for each subscriber line termination device 12 from the extended request signal. The extended REPORT interpretation unit 103 reads out a transmission request signal including the acquired uplink transmission request information for each subscriber line termination device 12. The OLT process execution unit 101 (band allocation unit) allocates the uplink transmission band to the subscriber line termination device based on the read uplink transmission request information.

In the subscriber line end station device 10, the auxiliary device 200 transmits an extended REPORT message in which a plurality of REPORT messages are collected to the server 100. As a result, the server 100 can receive the REPORT message (uplink transmission request information) of each subscriber line termination device 12 with only one reception process.

When the REPORT message processing unit 204 derives the round trip time, for example, by describing the round trip time in the extended REPORT format as field information in the extended REPORT format, the auxiliary device 200 can reduce the reception processing time of the server 100. It will be possible. The auxiliary device 200 shortens the data length of the uplink transmission request information, and makes it possible to store more transmission request information in one Ethernet (registered trademark) frame. When the number of subscriber line terminating devices 12 is large, the auxiliary device 200 can reduce the number of frames of the extended REPORT and reduce the reception processing time of the server 100.

When the server 100 derives the round trip time, for example, by describing the round trip time in the extended GATE frame as the field information of the GATE frame, the processing executed by the auxiliary device 200 can be reduced.

(Modification example)
The auxiliary device 200 may resend the extended REPORT message to the server 100. The auxiliary device 200 includes a timer. The timer of the auxiliary device 200 measures the time from when the extended REPORT generation unit 2043 transmits the extended REPORT message to the server 100 until the extended GATE reception unit 2021 receives the extended GATE message from the server 100.

If the GATE message processing unit 202 has not received the extended GATE message even after a certain period of time has elapsed since the REPORT message processing unit 204 transmitted the extended REPORT message, the auxiliary device 200 uses the server-side port unit 201 and the server 100. It is determined that the extended REPORT message has been lost. If the extended REPORT message is lost, the extended REPORT generator 2043 regenerates the previously (immediately before) extended REPORT message. The regenerated extended REPORT message is an extended REPORT message that the GATE message processing unit 202 could not receive within a certain period of time.

The REPORT message processing unit 204 retransmits the extended REPORT message to the server 100 via the server-side port unit 201. The server 100 executes the bandwidth allocation process based on the retransmitted extended GATE message. As a result, the subscriber line end station device 10 can prevent the extended REPORT message from being lost in the server 100 and the link down from occurring when the load is high.

The server 100 may resend the extended GATE message to the auxiliary device 200. The server 100 includes a timer. The timer of the server 100 measures the time from when the extended GATE generation unit 102 transmits the extended GATE message to the auxiliary device 200 until the extended REPORT interpreting unit 103 receives the extended REPORT message from the auxiliary device 200.

If the extended REPORT interpretation unit 103 has not received the extended GATE message even after a certain period of time has elapsed since the extended GATE generation unit 102 transmitted the extended GATE message, the server 100 may use the server side port unit 201 and the server 100. It is determined that the extended GATE message has been lost between. If the extended GATE message is lost, the extended GATE generation unit 102 regenerates the previously (immediately preceding) generated extended GATE message. The regenerated extended GATE message is an extended GATE message that the extended REPORT interpretation unit 103 could not receive within a certain period of time.

The extended GATE generation unit 102 retransmits the extended GATE message generated last time (immediately before). When the time stamp value and the transmission start time are described in the extended GATE message, the extended GATE generation unit 102 sends the extended GATE message the time stamp value indicating the time after a certain time or more has elapsed.

The subscriber line end station device 10 of the embodiment includes at least one of a processing function related to an extended GATE message and a processing function related to an extended REPORT message. Even if the subscriber line end station device 10 has both the processing function related to the extended GATE message and the processing function related to the extended REPORT message, the case where the subscriber line end station device 10 has only the processing function related to the extended REPORT message. However, the REPORT message processing unit 204 may retransmit the extended REPORT message.

As described in the embodiments, an extended REPORT message containing a round trip time "RTT" of one or more subscriber line terminators 12 and a normal GATE message, a round trip time "RTT" are included. It may be combined with an extended GATE message that is not present, or at least one of an extended GATE message that includes one or more subscriber line termination devices 12 round trip times "RTT". In these cases, the processing load on the server 100 is reduced.

An extended GATE message containing a round-trip time "RTT" of one or more subscriber line terminators 12 and a normal REPORT message, an extended REPORT message not including a round-trip time "RTT", or one or more. May be combined with at least one of the extended REPORT messages that includes the round trip time "RTT" of the subscriber line termination device 12. In these cases, the processing load of the auxiliary device 200 is reduced.

Further, a combination of these messages may be combined with an extended GATE message that includes the round trip time "RTT" of one or more subscriber line terminators 12.

Although the embodiments of the present invention have been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and the design and the like within a range not deviating from the gist of the present invention are also included.

The present invention is applicable to optical access networks.

1 ... Passive optical network, 1a ... Passive optical network, 10 ... Subscriber line end station device, 10a ... Subscriber line end station device, 11 ... Optical splitter, 12 ... Subscriber line termination device, 100 ... Server, 101 ... OLT Process execution unit, 102 ... Extended GATE generation unit, 103 ... Extended REPORT interpretation unit, 200 ... Auxiliary device, 201 ... Server side port unit, 202 ... GATE message processing unit, 203 ... PON side port unit, 204 ... REPORT message processing unit , 2021 ... Extended GATE reception unit, 2022 ... GATE information holding unit, 2023 ... GATE generation unit, 2041 ... REPORT reception unit, 2042 ... REPORT information holding unit, 2043 ... Extended REPORT generation unit

Claims (8)

A permission signal generator that generates an extended transmission permission signal that includes uplink transmission information for each subscriber line termination device, which is information related to uplink transmission permission.
An authorization signal processing unit that reads the uplink transmission information for each subscriber line terminating device from the extended transmission permission signal and generates a transmission permission signal including the read uplink transmission information for each subscriber line terminating device. Subscriber line-end station device. A request signal processing unit that generates an extended request signal that includes uplink transmission request information that is information related to an uplink transmission request for each of the subscriber line termination devices.
A reading unit that acquires the uplink transmission request information for each subscriber line terminating device from the extended request signal and reads out the transmission request signal including the acquired uplink transmission request information for each subscriber line terminating device.
The subscriber line end station apparatus according to claim 1, further comprising a band allocation unit that allocates an uplink transmission band to the subscriber line termination device based on the read uplink transmission request information. If the permission signal processing unit has not acquired the extended transmission permission signal even after a certain period of time has elapsed after transmitting the uplink transmission request information to the reading unit, the request signal processing unit performs the uplink transmission. The subscriber line end station device according to claim 2, wherein the request information is retransmitted to the reading unit. The subscriber line end station device according to claim 2 or 3, wherein at least one of the uplink transmission information and the uplink transmission request information includes information on the round trip time of the subscriber line termination device. A request signal processing unit that generates an extended request signal that includes uplink transmission request information for each subscriber line termination device, which is information related to uplink transmission requests.
A reading unit that acquires the uplink transmission request information for each subscriber line terminating device from the extended request signal and reads out the transmission request signal including the acquired uplink transmission request information for each subscriber line terminating device.
A subscriber line end station apparatus including a band allocation unit that allocates an uplink transmission band to the subscriber line termination device based on the read uplink transmission request information. The subscriber line end station device according to claim 5, wherein the uplink transmission request information includes information on the round trip time of the subscriber line termination device. It is a communication control method executed by the subscriber line end station device.
A step of generating an extended transmission permission signal that includes uplink transmission information for each subscriber line termination device, which is information related to uplink transmission permission, and
Communication including a step of reading the uplink transmission information for each subscriber line terminating device from the extended transmission permission signal and generating a transmission permission signal including the read uplink transmission information for each subscriber line terminating device. Control method. It is a communication control method executed by the subscriber line end station device.
A step of generating an extended request signal including uplink transmission request information for each subscriber line termination device, which is information related to uplink transmission request, and
A step of acquiring the uplink transmission request information for each of the subscriber line terminating devices from the extended request signal and reading a transmission request signal including the acquired uplink transmission request information for each of the subscriber line terminating devices.
A communication control method including a step of allocating an uplink transmission band to the subscriber line terminating device based on the read uplink transmission request information.

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