公开(公告)号：US20070237177A1

公开(公告)日：2007-10-11

申请号：US11702155

申请日：2007-02-05

申请人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

发明人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

IPC分类号： H04J3/22

CPC分类号： H04Q11/0067 ,  H04L47/115 ,  H04L47/263 ,  H04Q11/0071 ,  H04Q2011/0064

摘要： Disclosed herewith is a PON system and a bandwidth controlling method capable of controlling congestion with use of an upstream bandwidth in a PON section efficiently when congestion occurs in a gateway (GW) connected to an OLT. An OLT connected to a plurality of ONUs through a passive optical network (PON) and to a gateway (GW) through a communication line, when receiving a congestion occurrence notice indicating a congestion occurred output number from a GW, identifies the identifier of the ONU that is using a GW output line having the congestion output port number and shifts the bandwidth controlling of the PON section in a normal mode for allocating a bandwidth to each ONU normally to that in a bandwidth suppression mode for allocating a congestion time allowable bandwidth that is less than the current bandwidth to the ONU having the identified ONU identifier and a bandwidth to each of other ONUs according to its transmission queue length.

摘要翻译： 这里公开了一种PON系统和带宽控制方法，其能够在连接到OLT的网关（GW）中发生拥塞时有效地控制在PON部分中使用上行带宽的拥塞。 当从GW接收到指示发生拥塞发生拥塞的拥塞发生通知时，通过无线光网络（PON）连接到多个ONU并通过通信线路连接到网关（GW），识别ONU的标识符 正在使用具有拥塞输出端口号的GW输出线，并且以正常模式移动PON部分的带宽控制，以将每个ONU的带宽正常分配给带宽抑制模式中的带宽，以分配拥塞时间允许带宽 小于根据其传输队列长度具有所识别的ONU标识符的ONU的当前带宽和对于每个其他ONU的带宽。

公开(公告)号：US08169895B2

公开(公告)日：2012-05-01

申请号：US11703769

申请日：2007-02-08

申请人： Masayuki Takase ,  Kenichi Sakamoto ,  Masahiko Mizutani ,  Hideki Endo ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

发明人： Masayuki Takase ,  Kenichi Sakamoto ,  Masahiko Mizutani ,  Hideki Endo ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

IPC分类号： G06F11/07

CPC分类号： H04J3/14

摘要： The invention realizes defect indication on a multipoint logical path and switching of the logical path using a transfer protocol of configuring a logical path in a ring network. A working path and a backup path are set up where each transmits a frame from a transmitting end node to multicast receiving end nodes, forwards the frame to the transmitting end node and terminates it at the transmitting end node after going around the ring. Any node detecting a defect transmits a forward defect indication frame to a multipoint logical path in which the defect occurs. The transmitting end node receiving the forward defect indication frame halts the use of the notified multipoint logical path, and transmits a frame in another path where the forward defect indication frame is not received. When received from both multipoint logical paths, the transmitting end node copies the frame and forwards them to both paths.

摘要翻译： 本发明使用在环形网络中配置逻辑路径的传输协议来实现多点逻辑路径上的缺陷指示和逻辑路径的切换。 建立工作路径和备用路径，其中每个发送帧从发送端节点发送到多播接收端节点，将帧转发到发送端节点，并在环绕环后在发送端节点终止它。 检测到缺陷的任何节点将前向缺陷指示帧发送到发生缺陷的多点逻辑路径。 接收前向缺陷指示帧的发送端节点停止使用所通知的多点逻辑路径，并且在未接收到前向缺陷指示帧的另一路径中发送帧。 当从两个多点逻辑路径接收时，发送端节点复制帧并将它们转发到两个路径。

公开(公告)号：US20100021161A1

公开(公告)日：2010-01-28

申请号：US12572695

申请日：2009-10-02

申请人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki YAMAMOTO

发明人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki YAMAMOTO

IPC分类号： H04J14/00 ,  H04L12/24

CPC分类号： H04Q11/0067 ,  H04L47/115 ,  H04L47/263 ,  H04Q11/0071 ,  H04Q2011/0064

摘要： Disclosed herewith is a PON system and a bandwidth controlling method capable of controlling congestion with use of an upstream bandwidth in a PON section efficiently when congestion occurs in a gateway (GW) connected to an OLT. An OLT connected to a plurality of ONUs through a passive optical network (PON) and to a gateway (GW) through a communication line, when receiving a congestion occurrence notice indicating a congestion occurred output number from a GW, identifies the identifier of the ONU that is using a GW output line having the congestion output port number and shifts the bandwidth controlling of the PON section in a normal mode for allocating a bandwidth to each ONU normally to that in a bandwidth suppression mode for allocating a congestion time allowable bandwidth that is less than the current bandwidth to the ONU having the identified ONU identifier and a bandwidth to each of other ONUs according to its transmission queue length.

摘要翻译： 这里公开了一种PON系统和带宽控制方法，其能够在连接到OLT的网关（GW）中发生拥塞时有效地控制在PON部分中使用上行带宽的拥塞。 当从GW接收到指示发生拥塞发生拥塞的拥塞发生通知时，通过无线光网络（PON）连接到多个ONU并通过通信线路连接到网关（GW），识别ONU的标识符 正在使用具有拥塞输出端口号的GW输出线，并且以正常模式移动PON部分的带宽控制，以将每个ONU的带宽正常分配给带宽抑制模式中的带宽，以分配拥塞时间允许带宽 小于根据其传输队列长度具有所识别的ONU标识符的ONU的当前带宽和对于每个其他ONU的带宽。

公开(公告)号：US08098678B2

公开(公告)日：2012-01-17

申请号：US12572695

申请日：2009-10-02

申请人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

发明人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

IPC分类号： H04L12/28

CPC分类号： H04Q11/0067 ,  H04L47/115 ,  H04L47/263 ,  H04Q11/0071 ,  H04Q2011/0064

摘要： Disclosed herewith is a PON system and a bandwidth controlling method capable of controlling congestion with use of an upstream bandwidth in a PON section efficiently when congestion occurs in a gateway (GW) connected to an OLT. An OLT connected to a plurality of ONUs through a passive optical network (PON) and to a gateway (GW) through a communication line, when receiving a congestion occurrence notice indicating a congestion occurred output number from a GW, identifies the identifier of the ONU that is using a GW output line having the congestion output port number and shifts the bandwidth controlling of the PON section in a normal mode for allocating a bandwidth to each ONU normally to that in a bandwidth suppression mode for allocating a congestion time allowable bandwidth that is less than the current bandwidth to the ONU having the identified ONU identifier and a bandwidth to each of other ONUs according to its transmission queue length.

摘要翻译： 这里公开了一种PON系统和带宽控制方法，其能够在连接到OLT的网关（GW）中发生拥塞时有效地控制在PON部分中使用上行带宽的拥塞。 当从GW接收到指示发生拥塞发生拥塞的拥塞发生通知时，通过无线光网络（PON）连接到多个ONU并通过通信线路连接到网关（GW），识别ONU的标识符 正在使用具有拥塞输出端口号的GW输出线，并且以正常模式移动PON部分的带宽控制，以将每个ONU的带宽正常分配给带宽抑制模式中的带宽，以分配拥塞时间允许带宽 小于根据其传输队列长度具有所识别的ONU标识符的ONU的当前带宽和对于每个其他ONU的带宽。

公开(公告)号：US07602800B2

公开(公告)日：2009-10-13

申请号：US11702155

申请日：2007-02-05

申请人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

发明人： Hideki Endo ,  Masahiko Mizutani ,  Masayuki Takase ,  Kenichi Sakamoto ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

IPC分类号： H04L12/28

CPC分类号： H04Q11/0067 ,  H04L47/115 ,  H04L47/263 ,  H04Q11/0071 ,  H04Q2011/0064

摘要： Disclosed herewith is a PON system and a bandwidth controlling method capable of controlling congestion with use of an upstream bandwidth in a PON section efficiently when congestion occurs in a gateway (GW) connected to an OLT. An OLT connected to a plurality of ONUs through a passive optical network (PON) and to a gateway (GW) through a communication line, when receiving a congestion occurrence notice indicating a congestion occurred output number from a GW, identifies the identifier of the ONU that is using a GW output line having the congestion output port number and shifts the bandwidth controlling of the PON section in a normal mode for allocating a bandwidth to each ONU normally to that in a bandwidth suppression mode for allocating a congestion time allowable bandwidth that is less than the current bandwidth to the ONU having the identified ONU identifier and a bandwidth to each of other ONUs according to its transmission queue length.

摘要翻译： 这里公开了一种PON系统和带宽控制方法，其能够在连接到OLT的网关（GW）中发生拥塞时有效地控制在PON部分中使用上行带宽的拥塞。 当从GW接收到指示发生拥塞发生拥塞的拥塞发生通知时，通过无线光网络（PON）连接到多个ONU并通过通信线路连接到网关（GW），识别ONU的标识符 正在使用具有拥塞输出端口号的GW输出线，并且以正常模式移动PON部分的带宽控制，以将每个ONU的带宽正常分配给带宽抑制模式中的带宽，以分配拥塞时间允许带宽 小于根据其传输队列长度具有所识别的ONU标识符的ONU的当前带宽和对于每个其他ONU的带宽。

公开(公告)号：US20070242604A1

公开(公告)日：2007-10-18

申请号：US11703769

申请日：2007-02-08

申请人： Masayuki Takase ,  Kenichi Sakamoto ,  Masahiko Mizutani ,  Hideki Endo ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

发明人： Masayuki Takase ,  Kenichi Sakamoto ,  Masahiko Mizutani ,  Hideki Endo ,  Yoshihiro Ashi ,  Takayuki Kanno ,  Nobuyuki Yamamoto

IPC分类号： H04J3/14

CPC分类号： H04J3/14

摘要： The invention realizes defect indication on a multipoint logical path and switching of the logical path when the multipoint logical path is configured using a transfer protocol of configuring a logical path, typified by MPLS etc., in a ring network. Two routes of the multipoint logical paths, a working path and a backup path, are set up. Each of them not only transmits a frame transmitted from a transmitting end node to multicast receiving end nodes but also forwards the frame to the transmitting end node and terminates it also at the transmitting end node after making it go around the ring. Any node that detects a defect transmits a forward defect indication frame to a multipoint logical path in which the defect occurs. The transmitting end node having received the forward defect indication frame halts the use of the notified multipoint logical path, and transmits a frame in another path in which the forward defect indication frame is not received within a fixed time period. Moreover, when the forward defect indication frame is received from the both multipoint logical paths, the transmitting end node copies the frame and forwards them to the both multipoint logical paths.

摘要翻译： 本发明在环路网络中使用以MPLS等为代表的逻辑路径的配置传输协议来配置多点逻辑路径时，实现多点逻辑路径上的缺陷指示和逻辑路径的切换。 设置了多路逻辑路径的两条路由，即工作路径和备份路径。 它们中的每一个不仅将从发送端节点发送的帧发送到多播接收端节点，而且还将帧转发到发送端节点，并且在使其绕环之后也将其发送到发送端节点。 检测缺陷的任何节点将前向缺陷指示帧发送到发生缺陷的多点逻辑路径。 已经接收到前向缺陷指示帧的发送端节点停止所通知的多点逻辑路径的使用，并且在固定时间段内发送未接收到前向缺陷指示帧的另一路径中的帧。 此外，当从两个多点逻辑路径接收到前向缺陷指示帧时，发送端节点复制该帧并将其转发到两个多点逻辑路径。

公开(公告)号：US07876778B2

公开(公告)日：2011-01-25

申请号：US12073951

申请日：2008-03-12

申请人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

发明人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

IPC分类号： H04J3/16

CPC分类号： H04L69/08 ,  H04L12/5601 ,  H04L45/74 ,  H04L2012/5654 ,  H04L2012/5658 ,  H04L2012/5667 ,  H04L2012/5669 ,  H04L2012/5671

摘要： A packet transfer apparatus connects two networks of different protocols. The packet transfer apparatus, connected to a first communication network and a second communication network, performs the steps of: storing first destination correspondence information; receiving a packet of the first communication protocol; based on the first destination correspondence information, determining destination information of a packet of the second communication protocol corresponding to destination information of the received packet of the first communication protocol; generating the header of the packet of the second communication protocol, based on the determined destination information of the packet of the second communication protocol; converting the received one or more packets of the first communication protocol into one or more packets of the third communication protocol; and adding the generated header of the packet of the second communication protocol to the packets of the third communication protocol.

摘要翻译： 分组传送装置连接不同协议的两个网络。 连接到第一通信网络和第二通信网络的分组传送装置执行以下步骤：存储第一目的地对应信息; 接收第一通信协议的分组; 基于所述第一目的地对应信息，确定与所述第一通信协议的接收分组的目的地信息相对应的所述第二通信协议的分组的目的地信息; 基于所确定的第二通信协议的分组的目的地信息，生成第二通信协议的分组的报头; 将所接收的第一通信协议的一个或多个分组转换成第三通信协议的一个或多个分组; 以及将生成的第二通信协议的分组的报头添加到第三通信协议的分组。

公开(公告)号：US20090016378A1

公开(公告)日：2009-01-15

申请号：US12073951

申请日：2008-03-12

申请人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

发明人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

IPC分类号： H04J3/22

CPC分类号： H04L69/08 ,  H04L12/5601 ,  H04L45/74 ,  H04L2012/5654 ,  H04L2012/5658 ,  H04L2012/5667 ,  H04L2012/5669 ,  H04L2012/5671

摘要： A packet transfer apparatus connects two networks of different protocols. The packet transfer apparatus, connected to a first communication network and a second communication network, performs the steps of: storing first destination correspondence information; receiving a packet of the first communication protocol; based on the first destination correspondence information, determining destination information of a packet of the second communication protocol corresponding to destination information of the received packet of the first communication protocol; generating the header of the packet of the second communication protocol, based on the determined destination information of the packet of the second communication protocol; converting the received one or more packets of the first communication protocol into one or more packets of the third communication protocol; and adding the generated header of the packet of the second communication protocol to the packets of the third communication protocol.

摘要翻译： 分组传送装置连接不同协议的两个网络。 连接到第一通信网络和第二通信网络的分组传送装置执行以下步骤：存储第一目的地对应信息; 接收第一通信协议的分组; 基于所述第一目的地对应信息，确定与所述第一通信协议的接收分组的目的地信息相对应的所述第二通信协议的分组的目的地信息; 基于所确定的第二通信协议的分组的目的地信息，生成第二通信协议的分组的报头; 将所接收的第一通信协议的一个或多个分组转换成第三通信协议的一个或多个分组; 以及将生成的第二通信协议的分组的报头添加到第三通信协议的分组。

公开(公告)号：US20110096794A1

公开(公告)日：2011-04-28

申请号：US12929100

申请日：2010-12-30

申请人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

发明人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

IPC分类号： H04J3/16

CPC分类号： H04L69/08 ,  H04L12/5601 ,  H04L45/74 ,  H04L2012/5654 ,  H04L2012/5658 ,  H04L2012/5667 ,  H04L2012/5669 ,  H04L2012/5671

摘要： A packet transfer apparatus connects two networks of different protocols. The packet transfer apparatus, connected to a first communication network and a second communication network, performs the steps of: storing first destination correspondence information; receiving a packet of the first communication protocol; based on the first destination correspondence information, determining destination information of a packet of the second communication protocol corresponding to destination information of the received packet of the first communication protocol; generating the header of the packet of the second communication protocol, based on the determined destination information of the packet of the second communication protocol; converting the received one or more packets of the first communication protocol into one or more packets of the third communication protocol; and adding the generated header of the packet of the second communication protocol to the packets of the third communication protocol.

公开(公告)号：US08588251B2

公开(公告)日：2013-11-19

申请号：US12929100

申请日：2010-12-30

申请人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

发明人： Masayuki Takase ,  Hideki Endo ,  Takayuki Kanno ,  Akihiko Tanaka ,  Yoshihiro Ashi ,  Nobuyuki Yamamoto

IPC分类号： H04J3/24

CPC分类号： H04L69/08 ,  H04L12/5601 ,  H04L45/74 ,  H04L2012/5654 ,  H04L2012/5658 ,  H04L2012/5667 ,  H04L2012/5669 ,  H04L2012/5671

摘要： A packet transfer apparatus connects two networks of different protocols. The packet transfer apparatus, connected to a first communication network and a second communication network, performs the steps of: storing first destination correspondence information; receiving a packet of the first communication protocol; based on the first destination correspondence information, determining destination information of a packet of the second communication protocol corresponding to destination information of the received packet of the first communication protocol; generating the header of the packet of the second communication protocol, based on the determined destination information of the packet of the second communication protocol; converting the received one or more packets of the first communication protocol into one or more packets of the third communication protocol; and adding the generated header of the packet of the second communication protocol to the packets of the third communication protocol.