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    • 2. 发明授权
    • Method for producing α-form titanylphthalocyanine and electrophotographic photoreceptor comprising α-form titanylphthalocyanine
    • α-形式的钛氧基酞菁的生产方法和包含α型钛氧基酞菁的电子照相感光体
    • US08053570B2
    • 2011-11-08
    • US12177738
    • 2008-07-22
    • Kenji TakakiYasuhiro Yamasaki
    • Kenji TakakiYasuhiro Yamasaki
    • C09B67/12
    • G03G5/0696C07F7/003
    • The present invention relates to a method for producing an α-form titanylphthalocyanine represented by the formula (1): which has a peak at a Bragg angle (2θ±0.2°) in X-ray diffraction spectrum with CuK α-ray: 7.5°, 10.2°, 12.6°, 13.2°, 15.1°, 16.3°, 17.3°, 18.3°, 22.5°, 24.2°, 25.3° and 28.6°, wherein the method includes steps of: (I) subjecting a crude titanylphthalocyanine having an α-form polymorph to an acid pasting treatment, and then filtering and washing with water to give a water-containing wet cake, and then subjecting the wet cake to drying and crushing to give a low crystalline titanylphthalocyanine; (II) adding a dispersing aid to the low crystalline titanylphthalocyanine and dispersing at room temperature, in DMF, to prepare a polymorph; and (III) filtering, washing, and drying under a reduced pressure.
    • 本发明涉及一种由式(1)表示的α-型钛氧基酞菁的制造方法:在具有CuKα射线的X射线衍射光谱中具有布拉格角(2θ= 0.2°)的峰值:7.5 °,10.2°,12.6°,13.2°,15.1°,16.3°,17.3°,18.3°,22.5°,24.2°,25.3°和28.6°,其中该方法包括以下步骤:(I)使粗钛酸酞菁 酸性糊状处理的α型多晶型物,然后过滤并用水洗涤,得到含水湿滤饼,然后使湿滤饼干燥并粉碎,得到低结晶性钛氧基酞菁; (II)向低结晶性钛氧基酞菁中加入分散助剂,并在室温下在DMF中分散,制备多晶型物; 和(III)在减压下过滤,洗涤和干燥。
    • 3. 发明申请
    • NODE DEVICE, NODE SYSTEM, AND METHOD AND PROGRAM FOR CHANGING STATISTIC INFORMATION MANAGEMENT TABLE USED FOR THE NODE DEVICE
    • 节点设备,节点系统,以及用于改变节点设备的统计信息管理表的方法和程序
    • US20100027436A1
    • 2010-02-04
    • US12529869
    • 2008-03-05
    • Yasuhiro Yamasaki
    • Yasuhiro Yamasaki
    • H04L12/26
    • H04L43/00H04L49/555H04L63/0227H04L63/20
    • To provide a node device improving the measurement accuracy of the network communication quality and creating a smaller table for managing statistics information on the communication quality. An importance degree judging section determines the importance degree of a flow by referencing data for judging the degree of importance in the Z-list. An E-list stores statistics data on a flow having a high degree of importance of monitoring. A change judging section makes a judgment on change according to the importance degree of the flow and the importance degree in the E-list. An integral quality calculating section totalizes the qualities of the normal packet information that was measured in a normal packet quality measuring section and the statistics information that was measured in a statistics information quality measuring section and records the total in a quality result section.
    • 提供一种提高网络通信质量的测量精度的节点设备,并创建一个较小的表,用于管理关于通信质量的统计信息。 重要度判断部分通过参考用于判断Z列表中的重要度的数据来确定流的重要程度。 电子清单存储具有高度监视重要性的流量的统计数据。 变更判断部根据流程的重要程度和电子清单的重要程度,对变更作出判断。 整体质量计算部分将正常分组质量测量部分中测量的正常分组信息的质量和在统计信息质量测量部分中测量的统计信息合并,并将总数记录在质量结果部分中。
    • 7. 发明申请
    • Loop detecting device, system, method and program
    • 环路检测装置,系统,方法和程序
    • US20110280145A1
    • 2011-11-17
    • US13137145
    • 2011-07-22
    • Nobuhiko ItohYasuhiro Yamasaki
    • Nobuhiko ItohYasuhiro Yamasaki
    • H04L12/26
    • H04L43/16H04L12/42H04L12/4625
    • A loop detecting device is provided which is capable of detecting a loop packet or a loop flow with less processing load. A sorting means 82 classifies packets from each of which information is extracted by a packet information extracting device, based on first predetermined information included in packet information, counts the number of the classified packets for each first predetermined information, and specifies first predetermined information in which a count result reaches greater than or equal to a first threshold value. A determining means 83 determines whether each packet having the first predetermined information specified by the sorting means 82 is a loop packet or whether each flow specified by the first predetermined information is a loop flow by using second predetermined information included in the packet information received by a receiving means 81 with the first predetermined information specified by the sorting means 82 as a target.
    • 提供一种环路检测装置,其能够以较少的处理负载检测环路分组或环路。 分类装置82基于分组信息中包含的第一预定信息,对分组信息提取装置提取的信息进行分类,对每个第一预定信息对分类分组的数量进行计数,并指定第一预定信息,其中, 计数结果达到大于或等于第一阈值。 确定装置83确定具有由分类装置82指定的第一预定信息的每个分组是否是循环分组,或者由第一预定信息指定的每个流是否是通过使用包括在由第一预定信息接收的分组信息中的第二预定信息 接收装置81具有由分类装置82指定的第一预定信息作为目标。
    • 10. 发明申请
    • COMMUNICATION QUALITY MEASURING APPARATUS AND COMMUNICATION QUALITY MEASURING METHOD
    • 通信质量测量装置和通信质量测量方法
    • US20090116402A1
    • 2009-05-07
    • US11577799
    • 2005-10-20
    • Yasuhiro Yamasaki
    • Yasuhiro Yamasaki
    • G06F11/30
    • H04L1/20H04L1/1867H04L43/024H04L43/0829
    • A measuring apparatus for measuring quality of a network accurately measures a number of times of a data loss even if all the packets to be measured are not obtained or cannot be obtained. Further, a process load applied to the measuring apparatus is decreased by processing a part of the packets to be measured.The measuring apparatus, which measures quality of a network, includes a means for estimating a sampling rate from a number showing sequences stored in packets and a number of received data and a means for estimating a data loss, which would be measured when all the packets were obtained, from a result of sampling measurement by carrying out a differential process and a statistical process using the sequences in the packets, thereby the measuring apparatus measures a number of times of the data loss in the sampling measurement.
    • 用于测量网络质量的测量装置即使没有获得所有要测量的分组或不能获得,也准确地测量数据丢失的次数。 此外,通过处理待测量的分组的一部分来减少施加到测量装置的处理负荷。 测量网络质量的测量装置包括用于从显示分组中存储的序列的数量和接收数据的数量估计采样率的装置以及用于估计数据丢失的装置,当所有数据包 通过进行差分处理和使用分组中的序列的统计处理从采样测量的结果获得,由此测量装置测量采样测量中数据丢失的次数。