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    • 4. 发明申请
    • MANAGING APPARATUS, MANAGING METHOD
    • 管理设备,管理方法
    • US20120151282A1
    • 2012-06-14
    • US13292493
    • 2011-11-09
    • Yukihiro WATANABEYasuhide MATSUMOTOMasazumi MATSUBARAAtsuji SEKIGUCHI
    • Yukihiro WATANABEYasuhide MATSUMOTOMasazumi MATSUBARAAtsuji SEKIGUCHI
    • G06F11/07
    • G06F11/076
    • A managing apparatus includes: a storing unit configured to store fault co-occurrence information storing the number of detection times that a first message pattern indicating a message group including messages received from an information processing system in a predetermined duration is deleted; a determining unit configured to detect the first message pattern, to read the number of detection times from the fault co-occurrence information, to calculate a co-occurrence probability of the fault and the first message pattern based on the number of detection times, and to determine that the fault has occurred if the co-occurrence probability is equal to or higher than a threshold value; and an updating unit configured to create a second message pattern indicating a message group obtained by excluding a message output by a changed component from the first message pattern, and to update the first message pattern to the second message pattern.
    • 管理装置包括:存储单元,被配置为存储存储检测次数的故障同现信息,所述检测次数指定消息群组,所述第一消息模式包括在预定持续时间内从信息处理系统接收的消息; 确定单元,被配置为检测所述第一消息模式,从所述故障同现信息读取所述检测次数,基于所述检测次数来计算所述故障和所述第一消息模式的同现概率;以及 如果同现概率等于或高于阈值,则确定发生了故障; 以及更新单元,被配置为创建指示通过从所述第一消息模式排除由改变的组件输出的消息而获得的消息组的第二消息模式,并且将所述第一消息模式更新为所述第二消息模式。
    • 5. 发明申请
    • INFORMATION MANAGEMENT APPARATUS AND COMPUTER PRODUCT
    • 信息管理装置和计算机产品
    • US20120011172A1
    • 2012-01-12
    • US13236067
    • 2011-09-19
    • Yuji WADAYasuhide MATSUMOTOMasazumi MATSUBARAHiroshi OTSUKA
    • Yuji WADAYasuhide MATSUMOTOMasazumi MATSUBARAHiroshi OTSUKA
    • G06F17/30
    • H04L41/085H04L41/022
    • An object is to integrate pieces of information related to mutually the same target, though the pieces of information do not contain, in common, an attribute unique to one target. To achieve the object, from a generated condition storage unit storing generated integration conditions each specifying one or more attributes contained, in duplicate, in pieces of information related to mutually the same target, one of the generated integration conditions specifying one or more attributes being the same as one or more attributes contained in integration target information is obtained as a generated integration condition corresponding to the integration target information. A CI 200b containing the attributes specified by the obtained generated integration condition and in which the values of the attributes specified are identical to the values of the attributes contained is determined as a CI related to the same target as the integration target information is related to.
    • 目的是整合与相互相同的目标有关的信息,尽管这些信息通常不包含一个目标唯一的属性。 为了实现该目的,从存储生成的集成条件的生成条件存储单元中,生成的集成条件,每一个指定一个或多个属性,重复地包含与相互相同的目标相关的信息,所生成的集成条件之一指定一个或多个属性为 获得与集成目标信息中包含的一个或多个属性相同的作为与集成目标信息对应的生成的集成条件。 包含由获得的所生成的积分条件指定的属性的CI 200b,其中指定的属性的值与所包含的属性的值相同,被确定为与与集成目标信息相关的相同目标相关的CI。
    • 6. 发明申请
    • CONFIGURATION MANAGEMENT DEVICE, MEDIUM AND METHOD
    • 配置管理设备,介质和方法
    • US20110276572A1
    • 2011-11-10
    • US13153736
    • 2011-06-06
    • Yuji WadaYasuhide MATSUMOTOMasazumi MatsubaraKenji MorimotoHiroshi Otsuka
    • Yuji WadaYasuhide MATSUMOTOMasazumi MatsubaraKenji MorimotoHiroshi Otsuka
    • G06F17/30
    • G06F9/44505H04L41/0853H04L41/0856
    • A configuration management device includes: an update processing unit 102 for storing, as cache information, identification information included in each of a plurality of CIs managed by an MDR 20 associated with origin information which is the information indicating the position of a configuration item including the identical identification information; a request processing unit 101 for accepting a search request including a search condition; and a search processing unit 103 for acquiring a CI indicated by the origin information in the cache information 104 from the MDR 20 when the search request is accepted, merging the acquired CI with the CIs associated with the identical origin information in the cache information 104, determining whether or not a result of the merge satisfies the search condition, and returning as a response the result of the merge determined as satisfying the search condition.
    • 一种配置管理装置,包括:更新处理单元102,用于存储作为高速缓存信息的识别信息,所述识别信息包括在与作为指示配置项目的位置的原始信息相关联的MDR 20所管理的多个CI中的每一个中, 相同的识别信息; 请求处理单元101,用于接受包括搜索条件的搜索请求; 以及搜索处理单元103,用于当接收到搜索请求时从MDR 20获取由高速缓存信息104中的原始信息指示的CI,将所获取的CI与与高速缓存信息104中的相同原始信息相关联的CI合并, 确定所述合并的结果是否满足所述搜索条件,并且将作为所述合并的结果确定为满足所述搜索条件的响应返回。
    • 9. 发明申请
    • TIME FACTOR FEATURE GENERATION SYSTEM, TIME FACTOR FEATURE GENERATION METHOD AND TIME FACTOR FEATURE GENERATION PROGRAM
    • 时间因子特征生成系统,时间因子特征生成方法和时间因子特征生成程序
    • US20080103853A1
    • 2008-05-01
    • US11873848
    • 2007-10-17
    • Satoru WATANABEYouji KOHDAMasatomo YASAKIYasuhide MATSUMOTOMasashi UYAMAMitsuru ODAHiroki ICHIKI
    • Satoru WATANABEYouji KOHDAMasatomo YASAKIYasuhide MATSUMOTOMasashi UYAMAMitsuru ODAHiroki ICHIKI
    • G06Q10/00
    • G06Q30/02G06Q10/063G06Q30/0241G06Q30/0242G06Q30/0251G06Q30/0272G06Q30/0277G06Q30/0601
    • A time factor feature generation system includes: a use status grasping portion that extracts transition data showing variations in degree of use of a site from log data; a variation data generating portion that generates, based on the transition data, variation data expressing the variations in degree of use of the site as a group Y of values showing the degree of use of the site; a time factor data recording portion in which a plurality of time factors and time factor values of each of the plurality of time factors are recorded; a time factor extracting portion that generates groups Di of time factor values, each of which corresponds to a time factor extracted from among the plurality of time factors; and a time factor feature generating portion 13 that calculates coefficients ai such that a square of an error b has a minimum value in an equation in which the groups Di and the group Y are used as an explaining variable and an explained variable, respectively, thereby to generate data showing a time factor feature of a use status of the site. By this configuration, the time factor feature generation system generates data quantitatively showing a time factor feature of a use status of a site.
    • 时间因素特征生成系统包括:使用状态抓取部,其从日志数据提取表示站点的使用程度的变化的过渡数据; 变化数据生成部,其基于所述过渡数据生成表示所述场所的使用程度的变化的变化数据,作为表示所述场所的使用程度的值的组Y; 时间因素数据记录部分,其中记录了多个时间因素中的每一个的多个时间因素和时间因子值; 时间因子提取部分,其生成时间因子值的组D i,其中每个时间因子值对应于从多个时间因子中提取的时间因子; 以及时间因子特征生成部分13,其计算系数α1,使得误差b的平方在组D和i中的等式中具有最小值, 组Y分别用作解释变量和解释变量,从而生成表示站点使用状态的时间因子特征的数据。 通过该配置,时间因子特征生成系统生成定量地显示站点的使用状态的时间因素特征的数据。
    • 10. 发明申请
    • NETWORK SYSTEM, MANAGEMENT SERVER, AND VIRTUAL MACHINE DEPLOYMENT METHOD
    • 网络系统,管理服务器和虚拟机部署方法
    • US20110302580A1
    • 2011-12-08
    • US13113642
    • 2011-05-23
    • Fumi IIKURAYasuhide MATSUMOTO
    • Fumi IIKURAYasuhide MATSUMOTO
    • G06F9/455
    • G06F9/45558G06F8/63G06F2009/45595
    • A network system includes a plurality of cloud systems. Each of the plurality of cloud systems includes a plurality of servers. Each of the plurality of servers allows virtual machines to run thereon. A first cloud system of the plurality of cloud systems includes a first generator and a deployer. The first generator generates, on the basis of first performance information regarding one virtual machine and a first predetermined coefficient predetermined for the first cloud system, second performance information regarding the one virtual machine. The first performance information is included in a first augmented image of the one virtual machine. The first augmented image is created in a second cloud system other than the first cloud system. The deployer deploys the one virtual machine on one of the plurality of servers included in the first cloud system on the basis of the generated second performance information.
    • 网络系统包括多个云系统。 多个云系统中的每一个都包括多个服务器。 多个服务器中的每一个允许虚拟机在其上运行。 多个云系统的第一云系统包括第一发生器和部署器。 第一生成器基于关于一个虚拟机的第一性能信息和针对第一云系统预先确定的第一预定系数,生成关于该虚拟机的第二性能信息。 第一性能信息被包括在一个虚拟机的第一增强图像中。 第一个增强图像是在除第一个云系统之外的第二个云系统中创建的。 基于生成的第二性能信息,部署者在一个虚拟机中部署在第一云系统中的多个服务器之一上。