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    • 1. 发明授权
    • Cluster system and node switching method
    • 集群系统和节点切换方法
    • US08051321B2
    • 2011-11-01
    • US12547106
    • 2009-08-25
    • Jun NakagawaTakahiro KojimaRyuji MaruyamaShinji YamauchiKeiji Sakai
    • Jun NakagawaTakahiro KojimaRyuji MaruyamaShinji YamauchiKeiji Sakai
    • G06F11/00
    • G06F11/2028G06F11/1482
    • When a first server node fails in a cluster system, a client node device transmits failure detection information to a second server node device. Upon receipt of the failure detection information, the second server node device transmits a survival confirmation request to the first server node device. When receiving no survival confirmation response from the first server node device, the second server node device determines that the first server node device has failed and starts the switching control of a server node device which performs a service process. Upon receipt of failure detection information, the second server node device starts switching control when further receiving failure detection information from another client node device.
    • 当集群系统中的第一服务器节点故障时,客户端节点设备向第二服务器节点设备发送故障检测信息。 在接收到故障检测信息时,第二服务器节点设备向第一服务器节点设备发送存活确认请求。 当从第一服务器节点设备接收到没有生存确认响应时,第二服务器节点设备确定第一服务器节点设备已经失败并且开始执行服务进程的服务器节点设备的切换控制。 当接收到故障检测信息时,第二服务器节点设备在进一步从另一客户端节点设备接收故障检测信息时开始切换控制。
    • 2. 发明申请
    • CLUSTER SYSTEM AND NODE SWITCHING METHOD
    • 集群系统和节点切换方法
    • US20100017646A1
    • 2010-01-21
    • US12547106
    • 2009-08-25
    • Jun NakagawaTakahiro KojimaRyuji MaruyamaShinji YamauchiKeiji Sakai
    • Jun NakagawaTakahiro KojimaRyuji MaruyamaShinji YamauchiKeiji Sakai
    • G06F11/20
    • G06F11/2028G06F11/1482
    • When a first server node fails in a cluster system, a client node device transmits failure detection information to a second server node device. Upon receipt of the failure detection information, the second server node device transmits a survival confirmation request to the first server node device. When receiving no survival confirmation response from the first server node device, the second server node device determines that the first server node device has failed and starts the switching control of a server node device which performs a service process. Upon receipt of failure detection information, the second server node device starts switching control when further receiving failure detection information from another client node device.
    • 当集群系统中的第一服务器节点故障时,客户端节点设备向第二服务器节点设备发送故障检测信息。 在接收到故障检测信息时,第二服务器节点设备向第一服务器节点设备发送存活确认请求。 当从第一服务器节点设备接收到没有生存确认响应时,第二服务器节点设备确定第一服务器节点设备已经失败并且开始执行服务进程的服务器节点设备的切换控制。 当接收到故障检测信息时,第二服务器节点设备在进一步从另一客户端节点设备接收故障检测信息时开始切换控制。
    • 3. 发明授权
    • Non-destructive sugar content measuring apparatus
    • 无损糖含量测定装置
    • US06504154B2
    • 2003-01-07
    • US09783994
    • 2001-02-16
    • Junji IidaAkira TerashimaKazuo MaedaShintaro IshikawaShinji Yamauchi
    • Junji IidaAkira TerashimaKazuo MaedaShintaro IshikawaShinji Yamauchi
    • G01N2135
    • G01N21/3563G01N33/025
    • A non-destructive sugar content measuring apparatus having a plurality of trays on which vegetables and fruits are to be placed, a transport device for successively delivering the trays at appropriate intervals, and first, second and third measuring sections provided in the course of a transport path and at which laser beams having wavelengths &lgr;1, &lgr;2 and &lgr;3 are respectively made incident on each vegetable or fruit and the amount of light of each laser beam emergent from the vegetable or fruit is measured with a detector provided at each measuring section and the absorbance of each laser beam is determined from the amount of incident light made incident on the vegetable or fruit and the amount of detected light which has been measured with the detector, to measure the sugar content of the vegetables and fruits on the basis of each absorbance.
    • 一种无损糖测量装置,具有多个托盘,蔬菜和水果放置在其上,用于以适当的间隔连续输送托盘的运送装置以及在运输过程中设置的第一,第二和第三测量部分 路径,并且具有波长lambd1,lambd2和lambd3的激光束分别入射到每个蔬菜或水果上,并且用在每个测量部分提供的检测器测量从蔬菜或水果出射的每个激光束的光量,并且吸光度 根据入射到植物或果实上的入射光量和用检测器测量的检测光的量来确定每个激光束,以根据每个吸光度测量蔬菜和水果的糖含量。
    • 4. 发明申请
    • ANODE FOR OXYGEN GENERATION
    • 氧气生成阳极
    • US20120091007A1
    • 2012-04-19
    • US13319115
    • 2010-04-28
    • Hiroki ImotoShinji YamauchiHirokatsu Shimizu
    • Hiroki ImotoShinji YamauchiHirokatsu Shimizu
    • C25D17/12C25B11/03C25D11/00
    • C25B11/02C25B1/02C25B11/0447
    • In an insoluble anode for use in an electrolysis step accompanied by oxygen generation, by making the anode exert sufficient durability even in electrolysis accompanied by cathodic polarization besides anodic polarization, a service life of an electrode is prolonged and works of electrode repair, replacement, and the like are reduced. In order to realize this, an active material supporting member made of a porous metal sheet such as an expanded metal, a punching metal, or a bamboo blind-like or net-shaped metal is bonded to a conductive metal as an electrode structure, to configure an electrode substrate. The electrode substrate is coated, on the side to which the supporting member is bonded, with an electrode active material consisting mainly of iridium oxide. Thus, the anode for oxygen generation, which is highly resistant to a cathodization phenomenon, is obtained.
    • 在用于伴随氧气产生的电解步骤的不溶性阳极中,通过使阳极甚至在阳极极化以外伴随着阴极极化的电解也产生足够的耐久性,电极的使用寿命延长,电极修复,更换和 减少了。 为了实现这一点,将由多孔金属片如膨胀金属,冲孔金属或竹盲形或网状金属制成的活性材料支撑构件结合到作为电极结构的导电金属上, 配置电极基板。 电极基板与主要由氧化铱组成的电极活性物质一起涂布在与支撑部件接合的一侧。 因此,获得了高度耐阴极化现象的氧气生成用阳极。