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    • 1. 发明申请
    • NETWORK CONFIGURATION RESTORATION METHOD AND SYSTEM
    • 网络配置恢复方法与系统
    • US20090012966A1
    • 2009-01-08
    • US12167499
    • 2008-07-03
    • Daisuke AraiKiyohito YoshiharaAkira IdoueHiroki Horiuchi
    • Daisuke AraiKiyohito YoshiharaAkira IdoueHiroki Horiuchi
    • G06F7/00G06F17/30
    • H04L41/0846H04L41/082
    • The present invention provides a network configuration restoration method and system which can perform restoration by copying past configuration files in a short time. An updating judging unit 304 judges updating of each network device by comparing an acquired configuration file and a registered configuration file linked to a first identifier representing a copy timing. A new save unit 312 acquires an updated configuration file from a network device, and links the updated configuration file to a first identifier and a second identifier which sets the current timing as a new save timing and saves it in a configuration file database 301. A save unit 311 copies a registered configuration file of a network device whose configuration file has not been updated and links it to a first identifier representing the copy timing and a second identifier linked to this configuration file and saves it.
    • 本发明提供一种可以在短时间内复制过去的配置文件来进行恢复的网络配置恢复方法和系统。 更新判定单元304通过比较获取的配置文件和链接到表示复制定时的第一标识符的注册配置文件来判断每个网络设备的更新。 新的存储单元312从网络设备获取更新的配置文件,并将更新的配置文件链接到第一标识符和将当前定时设置为新的保存定时的第二标识符,并将其保存在配置文件数据库301中。 保存单元311复制其配置文件尚未更新的网络设备的注册配置文件,并将其链接到表示复制定时的第一标识符,以及链接到该配置文件的第二标识符并将其保存。
    • 2. 发明申请
    • MESSAGE SUBSTITUTION RESPONSE SYSTEM
    • 消息替代响应系统
    • US20090010172A1
    • 2009-01-08
    • US12167562
    • 2008-07-03
    • Daisuke AraiKiyohito YoshiharaAkira IdoueHiroki Horiuchi
    • Daisuke AraiKiyohito YoshiharaAkira IdoueHiroki Horiuchi
    • G01R31/08
    • H04L41/145H04L41/0213H04L41/12
    • In a network including equipment noncompliant to the topology management protocol, a message substitution response system executing substitution response to a message discovered or topology search message in lieu of the noncompliant equipment is provided. The substitution response module generation unit 22 generates a substitution response module which responds to Discover message and topology search message in lieu of each of LLTD noncompliant equipment for every LLTD noncompliant equipment. The network simulation module generation unit 23 generates a network simulation module for simulating message transmission on the home network. The substitution response functional unit 24 simulates message transmission between the home network and each of substitution response modules, and message transmission between each of substitution response modules by said network simulation module.
    • 在包括不符合拓扑管理协议的设备的网络中,提供了对发现的消息或拓扑搜索消息执行替代响应的消息替代响应系统来代替不合规设备。 替代响应模块生成单元22生成替代响应模块,其响应于发现消息和拓扑搜索消息,代替每个LLTD不符合设备的每个LLTD不合规设备。 网络模拟模块生成单元23生成用于模拟家庭网络上的消息传输的网络模拟模块。 替代响应功能单元24模拟家庭网络和每个替换响应模块之间的消息传输,以及由所述网络模拟模块在每个替换响应模块之间的消息传输。
    • 3. 发明授权
    • Route selection method
    • 路线选择方法
    • US06259673B1
    • 2001-07-10
    • US09128520
    • 1998-08-03
    • Kiyohito YoshiharaHiroki HoriuchiKeizo SugiyamaSadao Obana
    • Kiyohito YoshiharaHiroki HoriuchiKeizo SugiyamaSadao Obana
    • H04L1228
    • H04Q11/0478H04L45/10H04L2012/562H04L2012/5638
    • If an error range is specified with regard to the cost beforehand, a route satisfying all of a plurality of QoS conditions at a low cost and having a cost in the error range is selected as an optimum route. Such a route selection method is provided. At step S1, a plurality of QoS conditions to be satisfied are set. At step S2, an approximation error &egr; is input. At step S3, a range of a cost for searching for an optimum route is tentatively set. At step S4, an optimum solution cost approximation procedure is executed. At step S5, it is determined whether the cost searching range has been sufficiently narrowed. If the narrowed cost searching range is still too wide, then the processing returns to the step S4 and the optimum solution cost approximation procedure is repeated. If the cost searching range has already been narrowed, an optimum solution deriving procedure is executed at step S6.
    • 如果预先关于成本指定了错误范围,则选择以低成本满足所有多个QoS条件并且在错误范围内具有成本的路线作为最佳路线。 提供这种路由选择方法。在步骤S1中,设置要满足的多个QoS条件。 在步骤S2,输入近似误差εi。 在步骤S3,暂时设定用于搜索最佳路线的成本的范围。 在步骤S4,执行最优解成本近似程序。 在步骤S5中,确定成本搜索范围是否已经足够缩小。 如果缩小的成本搜索范围仍然太宽,则处理返回到步骤S4,并且重复最优解成本近似过程。 如果成本搜索范围已经缩小,则在步骤S6执行最优解导出过程。
    • 4. 发明授权
    • Network configuration restoration method and system
    • 网络配置恢复方法和系统
    • US07870237B2
    • 2011-01-11
    • US12167499
    • 2008-07-03
    • Daisuke AraiKiyohito YoshiharaAkira IdoueHiroki Horiuchi
    • Daisuke AraiKiyohito YoshiharaAkira IdoueHiroki Horiuchi
    • G06F15/16
    • H04L41/0846H04L41/082
    • The present invention provides a network configuration restoration method and system which can perform restoration by copying past configuration files in a short time. An updating judging unit 304 judges updating of each network device by comparing an acquired configuration file and a registered configuration file linked to a first identifier representing a copy timing. A new save unit 312 acquires an updated configuration file from a network device, and links the updated configuration file to a first identifier and a second identifier which sets the current timing as a new save timing and saves it in a configuration file database 301. A save unit 311 copies a registered configuration file of a network device whose configuration file has not been updated and links it to a first identifier representing the copy timing and a second identifier linked to this configuration file and saves it.
    • 本发明提供一种可以在短时间内复制过去的配置文件来进行恢复的网络配置恢复方法和系统。 更新判定单元304通过比较获取的配置文件和链接到表示复制定时的第一标识符的注册配置文件来判断每个网络设备的更新。 新的存储单元312从网络设备获取更新的配置文件,并将更新的配置文件链接到第一标识符和将当前定时设置为新的保存定时的第二标识符,并将其保存在配置文件数据库301中。 保存单元311复制其配置文件尚未更新的网络设备的注册配置文件,并将其链接到表示复制定时的第一标识符,以及链接到该配置文件的第二标识符并将其保存。
    • 5. 发明申请
    • CONSUMER EQUIPMENT REMOTE OPERATION SYSTEM AND OPERATING METHOD FOR THE SAME
    • 消费者设备远程操作系统及其操作方法
    • US20070067431A1
    • 2007-03-22
    • US11464530
    • 2006-08-15
    • Kiyohito YoshiharaShinji MotegiHiroki Horiuchi
    • Kiyohito YoshiharaShinji MotegiHiroki Horiuchi
    • G06F15/173
    • H04L67/025H04L12/2803H04L12/2809H04L12/281H04L12/2818H04L29/12226H04L41/082H04L41/0886H04L41/12H04L43/00H04L43/0811H04L43/0817H04L61/2015
    • By simply connecting consumer equipments physically to a home network, configurations are set automatically for the consumer equipment, and the consumer equipment is enabled to be remote operated easily via a home gateway that is not necessarily fixed in address. A home gateway 51 includes: a home management table 212a that manages equipment information of consumer equipment connected to the home network; an equipment detector 206 that cyclically transmits a detection request along the home network, detects consumer equipment, and acquires the equipment information of the detected consumer equipment; an equipment management unit 211 that updatingly registers the equipment information of the detected consumer equipment into the above-described home management table 212a; a DHCP server function 210a that sets network configurations for newly detected consumer equipment; and an equipment information registration unit that updatingly registers the equipment information in the home management table cyclically into a portal server 4.
    • 通过简单地将消费者设备物理连接到家庭网络,为消费者设备自动设置配置,并且能够通过不一定固定在地址中的家庭网关轻松地远程操作消费者设备。 家庭网关51包括:家庭管理表212a,其管理连接到家庭网络的消费者设备的设备信息; 沿着家庭网络循环地发送检测请求的设备检测器206,检测消费者设备,并获取检测到的消费者设备的设备信息; 将检测到的消费者设备的设备信息更新地登记到上述家庭管理表212a中的设备管理单元211; 设置新检测到的消费者设备的网络配置的DHCP服务器功能210a; 以及设备信息登记单元,其将家庭管理表中的设备信息周期性地更新登记到门户服务器4中。
    • 7. 发明授权
    • Consumer equipment remote operation system and operating method for the same
    • 消费者设备远程操作系统和操作方法相同
    • US08103744B2
    • 2012-01-24
    • US11464530
    • 2006-08-15
    • Kiyohito YoshiharaShinji MotegiHiroki Horiuchi
    • Kiyohito YoshiharaShinji MotegiHiroki Horiuchi
    • G06F15/16
    • H04L67/025H04L12/2803H04L12/2809H04L12/281H04L12/2818H04L29/12226H04L41/082H04L41/0886H04L41/12H04L43/00H04L43/0811H04L43/0817H04L61/2015
    • By simply connecting consumer equipments physically to a home network, configurations are set automatically for the consumer equipment, and the consumer equipment is enabled to be remote operated easily via a home gateway that is not necessarily fixed in address.A home gateway 51 includes: a home management table 212a that manages equipment information of consumer equipment connected to the home network; an equipment detector 206 that cyclically transmits a detection request along the home network, detects consumer equipment, and acquires the equipment information of the detected consumer equipment; an equipment management unit 211 that updatingly registers the equipment information of the detected consumer equipment into the above-described home management table 212a; a DHCP server function 210a that sets network configurations for newly detected consumer equipment; and an equipment information registration unit that updatingly registers the equipment information in the home management table cyclically into a portal server 4.
    • 通过简单地将消费者设备物理连接到家庭网络,为消费者设备自动设置配置,并且能够通过不一定固定在地址中的家庭网关轻松地远程操作消费者设备。 家庭网关51包括:家庭管理表212a,其管理连接到家庭网络的消费者设备的设备信息; 沿着家庭网络循环地发送检测请求的设备检测器206,检测消费者设备,并获取检测到的消费者设备的设备信息; 更新地将检测到的消费者设备的设备信息登记到上述家庭管理表212a中的设备管理单元211; 设置新检测到的消费者设备的网络配置的DHCP服务器功能210a; 以及设备信息登记单元,其将家庭管理表中的设备信息周期性地更新登记到门户服务器4中。
    • 8. 发明授权
    • Method and device for controlling route and computer program therefor
    • 用于控制路线及其计算机程序的方法和装置
    • US07336614B2
    • 2008-02-26
    • US10461109
    • 2003-06-12
    • Shinji MotegiKiyohito YoshiharaHiroki Horiuchi
    • Shinji MotegiKiyohito YoshiharaHiroki Horiuchi
    • H04L12/26
    • H04W40/28H04L45/24H04W4/06H04W48/16H04W60/00
    • A method for controlling routes in a network which is temporarily formed among a plurality of nodes. The method includes the steps of broadcasting a discovery demand of a destination node; receiving a first reply from the destination node with respect to the discovery demand; referring a joint count contained in the first reply and registering the joint count in a node which received the reply; adding 1 to the joint count if there is a plurality of nodes forming a plurality of links to which the reply is transferred, and transmitting the reply to each of the links, and selecting one of the links having a smaller registered joint count as a route if there is a plurality of links through which the data is transmitted to the destination node.
    • 一种用于控制在多个节点之间暂时形成的网络中的路由的方法。 该方法包括以下步骤:广播目的地节点的发现需求; 从所述目的地节点接收关于所述发现需求的第一回复; 引用第一答复中包含的联合计数,并在接收到回复的节点中注册联合计数; 如果存在多个节点形成多个返回应答的链路,则向联合计数添加1,并向每个链路发送回复,并选择具有较小注册关节数的链路之一作为路由 如果存在将数据通过其发送到目的地节点的多个链路。
    • 10. 发明授权
    • Polling period controlling apparatus
    • 投票期控制装置
    • US06791998B1
    • 2004-09-14
    • US09255177
    • 1999-02-22
    • Kiyohito YoshiharaHiroki HoriuchiKeizo SugiyamaSadao Obana
    • Kiyohito YoshiharaHiroki HoriuchiKeizo SugiyamaSadao Obana
    • H04L12403
    • H04L41/12H04L12/403H04L41/0896H04L43/103
    • A polling period controlling apparatus capable of polling with a period traceable temporal variations of management information values of a managed unit is provided with a polling period calculator 5 which decomposes a sequence of management information values, stored in the sequence memory 4, into the sum of sinusoids with different frequencies to find the maximum frequency and determines the polling period from an inverse of two times the largest frequency. A central controller 2 then compares between the required bandwidth specified by the polling period and a network management bandwidth and, when the former is smaller than the latter, obtains the management information value from the managed unit 11 using the polling period. When the former is greater, the central controller 2 obtains the management information value using the polling period determined from the network management bandwidth. The management information value obtained is saved in the sequence memory 4 while the oldest group of management data is eliminated.
    • 轮询周期计算器5具有轮询周期计算器5,其将存储在序列存储器4中的一系列管理信息值分解为一个被管理单元的管理信息值的和 具有不同频率的正弦曲线找到最大频率,并从最大频率的两倍的倒数确定轮询周期。 然后,中央控制器2在轮询周期指定的所需带宽与网络管理带宽之间进行比较,并且当前者小于后者时,使用轮询周期从被管理单元11获取管理信息值。 当前者较大时,中央控制器2使用从网络管理带宽确定的轮询周期获得管理信息值。 所获得的管理信息值被保存在序列存储器4中,而最早的一组管理数据被消除。