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    • 1. 发明授权
    • Transport control server, transport control system, and transport control method
    • 运输控制服务器,运输控制系统和运输控制方法
    • US08605593B2
    • 2013-12-10
    • US13207504
    • 2011-08-11
    • Hitoshi YabusakiDaisuke MatsubaraYukiko TakedaYoji Ozawa
    • Hitoshi YabusakiDaisuke MatsubaraYukiko TakedaYoji Ozawa
    • G01R31/08
    • H04L43/0888H04L47/32
    • A transport control server coupled to a plurality of nodes in a network through which a plurality of traffics passes through is provided. The transport control server is configured to receive bandwidth information from each of the nodes when the traffics pass through the nodes. For each of the traffics, the transport control server calculates bandwidths at an entry edge node and at an exit edge node based on the received bandwidth information. The transport control server defines as a first traffic, based on the calculated bandwidths at the entry edge node and the exit edge node, a traffic having a discarded bandwidth that is larger than a first predetermined bandwidth. Also, the transport control server defines as a second traffic, based on the received bandwidth information, a first traffic having a bandwidth at the two or more nodes that exceeds a specified second bandwidth.
    • 耦合到多个通信通过的网络中的多个节点的传输控制服务器被提供。 传输控制服务器被配置为当业务通过节点时从每个节点接收带宽信息。 对于每个业务,传输控制服务器基于接收到的带宽信息来计算入口边缘节点和出口边缘节点处的带宽。 传输控制服务器基于计算出的入口边缘节点和出口边缘节点的带宽,将具有大于第一预定带宽的丢弃带宽的业务定义为第一流量。 此外,传输控制服务器基于接收到的带宽信息,定义具有超过指定的第二带宽的两个或多个节点的带宽的第一业务作为第二业务。
    • 2. 发明申请
    • Transport Control Server, Transport Control System, and Transport Control Method
    • 运输控制服务器,运输控制系统和运输控制方法
    • US20120069739A1
    • 2012-03-22
    • US13207504
    • 2011-08-11
    • Hitoshi YABUSAKIDaisuke MatsubaraYukiko TakedaYoji Ozawa
    • Hitoshi YABUSAKIDaisuke MatsubaraYukiko TakedaYoji Ozawa
    • H04L12/26
    • H04L43/0888H04L47/32
    • There is a need to extract a traffic related to congestion in consideration of an entire network. Multiple traffics are received from multiple nodes. There is available information about bandwidths for the traffics passing through nodes. Bandwidths for the traffics at an entry node and an exit node are extracted from the bandwidth information. Each traffic first passes through the entry node and last passes through the exit node. A bandwidth is dropped when the traffic passes through the nodes. The dropped bandwidth is calculated based on the extracted bandwidths for the traffics at the entry node and the exit node. The calculated bandwidth to be dropped is compared with a specified first bandwidth. One or more first traffics are extracted because of having the dropped bandwidth larger than the first bandwidth. Based on band information, a second traffic is extracted from the extracted first traffic. The second traffic has a bandwidth that is dropped at two or more nodes for the first traffic to pass through and exceeds a specified second bandwidth.
    • 考虑到整个网络,需要提取与拥塞有关的流量。 从多个节点接收多个业务。 有关通过节点的流量的带宽的可用信息。 从带宽信息中提取入口节点和出口节点处的流量的带宽。 每个流量首先通过入口节点,最后通过出口节点。 当流量通过节点时,带宽将被丢弃。 基于在入口节点和出口节点处的业务提取的带宽来计算丢弃的带宽。 将计算的要丢弃的带宽与指定的第一带宽进行比较。 由于带宽大于第一带宽,所以提取了一个或多个第一业务。 基于频带信息,从提取的第一业务中提取第二业务。 第二个流量具有在两个或更多节点处丢弃的带宽,以使第一个流量通过并超过指定的第二个带宽。
    • 3. 发明授权
    • Transport control system and transport control server
    • 运输控制系统和运输控制服务器
    • US08588217B2
    • 2013-11-19
    • US13203828
    • 2010-03-02
    • Daisuke MatsubaraHitoshi YabusakiYoji Ozawa
    • Daisuke MatsubaraHitoshi YabusakiYoji Ozawa
    • H04L12/66H04L12/28
    • H04L69/08H04L45/50H04L2212/00
    • A transport control server (100) wherein a conversion table including a pre-conversion identifier and a post-conversion identifier, and a conversion type indicating the aggregate/transfer of a path are previously stored for each two segments that are connected to each other. When devices (111, 118) at the endpoints of the path are specified, the transport control server (100) calculates the route between the devices to identify one or a plurality of gateway nodes (112 to 117) on the route. Also, the transport control server (100) acquires from a storage unit the pre-conversion identifier, post-conversion identifier, and conversion type corresponding to two segments that are connected by the identified nodes for each of the identified nodes, and sets the acquired identifiers and conversion type to each of the nodes. Each of the nodes encapsulates and transmits a received packet including the set pre-conversion identifier using the set post-conversion identifier, or replaces the set pre-conversion identifier with the set post-conversion identifier and transmits the post-conversion identifier in accordance with the set conversion type.
    • 传输控制服务器(100),其中预先存储包括预转换标识符和转换后标识符的转换表以及指示路径的聚合/传送的转换类型,其中,每个两个彼此连接的段被预先存储。 当指定路径端点处的设备(111,118)时,传输控制服务器(100)计算用于识别路由上的一个或多个网关节点(112至117)的设备之间的路由。 此外,传输控制服务器(100)从存储单元获取与所识别的节点中的每一个相关联的由识别的节点连接的两个段对应的转换前标识符,转换后标识符和转换类型,并且设置所获取的 标识符和转换类型到每个节点。 每个节点使用设置的转换后标识符封装并发送包括所设置的预转换标识符的接收分组,或者使用所设置的转换后标识符替换所设置的预转换标识符,并根据 设置转换类型。
    • 4. 发明申请
    • TRANSPORT CONTROL SYSTEM AND TRANSPORT CONTROL SERVER
    • 运输控制系统和运输控制服务器
    • US20120020357A1
    • 2012-01-26
    • US13203828
    • 2010-03-02
    • Daisuke MatsubaraHitoshi YabusakiYoji Ozawa
    • Daisuke MatsubaraHitoshi YabusakiYoji Ozawa
    • H04L12/56
    • H04L69/08H04L45/50H04L2212/00
    • A transport control server (100) wherein a conversion table including a pre-conversion identifier and a post-conversion identifier, and a conversion type indicating the aggregate/transfer of a path are previously stored for each two segments that are connected to each other. When devices (111, 118) at the endpoints of the path are specified, the transport control server (100) calculates the route between the devices to identify one or a plurality of gateway nodes (112 to 117) on the route. Also, the transport control server (100) acquires from a storage unit the pre-conversion identifier, post- conversion identifier, and conversion type corresponding to two segments that are connected by the identified nodes for each of the identified nodes, and sets the acquired identifiers and conversion type to each of the nodes. Each of the nodes encapsulates and transmits a received packet including the set pre-conversion identifier using the set post-conversion identifier, or replaces the set pre-conversion identifier with the set post-conversion identifier and transmits the post-conversion identifier in accordance with the set conversion type.
    • 传输控制服务器(100),其中预先存储包括预转换标识符和转换后标识符的转换表以及指示路径的聚合/传送的转换类型,其中,每个两个彼此连接的段被预先存储。 当指定路径端点处的设备(111,118)时,传输控制服务器(100)计算用于识别路由上的一个或多个网关节点(112至117)的设备之间的路由。 此外,传输控制服务器(100)从存储单元获取与所识别的节点中的每一个相关联的由识别的节点连接的两个段对应的预转换标识符,转换后标识符和转换类型,并且设置所获取的 标识符和转换类型到每个节点。 每个节点使用设置的转换后标识符封装并发送包括所设置的预转换标识符的接收分组,或者使用所设置的转换后标识符替换所设置的预转换标识符,并根据 设置转换类型。
    • 5. 发明授权
    • Apparatus and system for estimating network configuration
    • 用于估计网络配置的设备和系统
    • US08356093B2
    • 2013-01-15
    • US12840926
    • 2010-07-21
    • Akihiro KoizumiEri KawaiYoji Ozawa
    • Akihiro KoizumiEri KawaiYoji Ozawa
    • G06F15/173
    • H04L41/06H04L41/12
    • When a failure occurs in a network or in a network apparatus, a connection state of the network is changed. There is provided a network configuration estimating apparatus for knowing logical route information quickly after a failure occurrence in accordance with information collected from network apparatuses, although it is conventionally difficult to know this information quickly. The network configuration estimating apparatus executes: a process of generating network configuration information such as physical and logical topologies from information collected in advance; a process of monitoring a network failure; a process of calculating a network configuration to be estimated after a network failure occurrence, from the network configuration information generated in advance and network failure information; a process of visually displaying the calculated network configuration; and a process of managing history of calculated network configurations.
    • 当网络或网络装置发生故障时,网络的连接状态发生变化。 提供了一种网络配置估计装置,用于根据从网络装置收集的信息快速了解故障发生后的逻辑路由信息,但是通常难以快速地知道该信息。 网络配置估计装置执行从提前收集的信息生成诸如物理和逻辑拓扑的网络配置信息的处理; 监控网络故障的过程; 从预先生成的网络配置信息和网络故障信息中计算要在网络故障发生之后估计的网络配置的处理; 视觉显示所计算的网络配置的过程; 以及管理计算的网络配置历史的过程。
    • 6. 发明授权
    • Network system, network management server, and access filter reconfiguration method
    • 网络系统,网络管理服务器和访问过滤器重构方法
    • US08081640B2
    • 2011-12-20
    • US12222841
    • 2008-08-18
    • Yoji OzawaHideki Okita
    • Yoji OzawaHideki Okita
    • H04L12/28
    • H04L41/0853H04L41/12H04L45/02
    • Provided is a network system, comprising: a plurality of network devices; a network constructed from the plurality of network devices; and a management server managing the network. The plurality of network devices include a first network device in which a filter assigned as a target of reconfiguration is set and a second network device coupled at a lower level of the first network device. The management server obtains topology of the network from the plurality of network devices; reconfigures, by referring to the obtained network topology, the filters of the first and second network device such that a range in which a packet can be forwarded through a reconfiguring filter set in the first network device is made equal to a range in which a packet can be forwarded through the filter set in the second network device; and sets the reconfigured filters into the network devices.
    • 提供一种网络系统,包括:多个网络设备; 由所述多个网络装置构成的网络; 以及管理网络的管理服务器。 多个网络设备包括第一网络设备,其中设置分配为重配置的目标的过滤器,以及耦合在第一网络设备的较低级别的第二网络设备。 管理服务器从多个网络设备获取网络拓扑; 通过参照所获得的网络拓扑,重新配置第一和第二网络设备的过滤器,使得可以通过在第一网络设备中设置的重新配置过滤器来转发分组的范围等于其中分组 可以通过第二网络设备中的过滤器集转发; 并将重新配置的过滤器设置为网络设备。
    • 7. 发明授权
    • Network management apparatus and network system
    • 网络管理设备和网络系统
    • US07801060B2
    • 2010-09-21
    • US11542436
    • 2006-10-04
    • Takashi SumiyoshiHideki OkitaYoji Ozawa
    • Takashi SumiyoshiHideki OkitaYoji Ozawa
    • H04L12/28H04L12/56
    • H04L41/0893H04L41/0816
    • A network management apparatus and a network management system are provided which are capable of reducing setting workloads required when an initial setting operation of a network communication apparatus is performed, and a network structure is changed. The network management apparatus acquires information as to respective network communication apparatus which belong to the same network when an operation of the network is commenced, or when a structure of the network is changed. Then, the network management apparatus determines a concrete operating content of said network communication apparatus based upon the acquired information and an operation policy so as to set the determined operating content. Also, the network management apparatus is equipped with a GUI (Graphical User Interface) used to set a role of the network communication apparatus by a manner.
    • 提供了一种网络管理装置和网络管理系统,其能够减少在执行网络通信装置的初始设置操作时所需的设置工作量,并且改变网络结构。 当网络的操作开始时,或当网络的结构改变时,网络管理装置获取关于属于同一网络的各个网络通信装置的信息。 然后,网络管理装置基于获取的信息和操作策略来确定所述网络通信装置的具体操作内容,以便设置确定的操作内容。 此外,网络管理装置配备有用于通过一种方式设置网络通信装置的角色的GUI(图形用户界面)。
    • 9. 发明授权
    • Network system and management server
    • 网络系统和管理服务器
    • US08862939B2
    • 2014-10-14
    • US13368391
    • 2012-02-08
    • Yoji OzawaEri KawaiAkihiro Koizumi
    • Yoji OzawaEri KawaiAkihiro Koizumi
    • G06F11/00H04L12/26
    • H04L43/10H04L43/0811
    • A network system configured from a test device that executes a test including a continuity test and a performance test of a network configured from a plurality of transfer devices and a management server that requests an execution of the test for the test device, in this way, one or more backup session used for executing the test is selected from a plurality of sessions, the test is executed for a processing interval in a success, a next test is executed by the backup session when the processing time for the test exceeds over a specified time, thereby, a large number of tests can be executed and the test can be executed regularly even when the processing time becomes longer caused by a failure etc.
    • 一种由测试装置配置的网络系统,所述测试装置执行包括由多个传送装置配置的网络的连续性测试和性能测试以及请求执行所述测试装置的测试的管理服务器的测试, 从多个会话中选择用于执行测试的一个或多个备份会话,成功执行处理间隔的测试,当测试的处理时间超过指定的时间时,由备份会话执行下一个测试 从而可以执行大量测试,并且即使当由于故障等而导致处理时间变长时,也可以定期执行测试。
    • 10. 发明申请
    • NETWORK SYSTEM, NETWORK MANAGEMENT SERVER, AND CONFIGURATION SCHEDULING METHOD
    • 网络系统,网络管理服务器和配置调度方法
    • US20100153532A1
    • 2010-06-17
    • US12637908
    • 2009-12-15
    • Yoji OzawaKazuma YumotoTatsuhiko MiyataEri Kawai
    • Yoji OzawaKazuma YumotoTatsuhiko MiyataEri Kawai
    • G06F15/173
    • H04L41/0813H04L12/4641H04L67/125H04L67/325
    • A reservation processing is executed according to the configuration request to VPN and network device to inform a user's terminal of scheduled period. In a network system including plural network devices for transmitting a packet and a management server, plural logical networks (VPNs) are formed on the plural network devices. The management server receives a configuration request including configuration data for VPN and configuration desired time from a user's terminal to generate the configuration data for the network device from the configuration data for the VPN. The management server refers to a configuration reservation table to confirm whether free time is available in the same period about all target network devices. If free time is available, the management server makes configuration reservation and configures the target network device in the reserved time. The management server notifies the user's terminal of the reserved time.
    • 根据对VPN和网络设备的配置请求执行预约处理,通知用户的预定时段。 在包括用于发送分组的多个网络装置和管理服务器的网络系统中,在多个网络装置上形成多个逻辑网络(VPN)。 管理服务器从用户终端接收包括用于VPN的配置数据和配置所需时间的配置请求,以从VPN的配置数据生成网络设备的配置数据。 管理服务器参考配置预约表,以确认在所有目标网络设备的相同时间段内空闲时间是否可用。 如果空闲时间可用,管理服务器进行配置预留,并在预留时间内配置目标网络设备。 管理服务器通知用户的预留时间。