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    • 3. 发明授权
    • Optical disc apparatus and reproduction control method
    • 光盘装置和再现控制方法
    • US08130613B2
    • 2012-03-06
    • US12430963
    • 2009-04-28
    • Atsushi YamadaTooru KawashimaMitsuhiro Nishidate
    • Atsushi YamadaTooru KawashimaMitsuhiro Nishidate
    • G11B7/00
    • G11B20/10G11B20/18G11B2020/10944G11B2020/1265G11B2220/2537
    • The present invention makes it possible to reproduce reproduction images without a break without having to use any additional identification information even when real-time recorded data is not completely continuous. A control circuit references a data identification flag (“Recording Type”) which is attached to each sector of reproduction data to indicate the type of recorded data, and counts the number of sectors to which the data identification flag representing real-time recorded data is attached. When the count is not smaller than a threshold value, the control circuit reproduces all the sectors of the target reproduction block in a real-time reproduction mode. In the real-time reproduction mode, the control circuit masks a portion of reproduction data that is found to be defective, changes the value of the defective data to 0 (zero), and transfers the resulting reproduction data to a host device.
    • 即使在实时记录数据不是完全连续的情况下,本发明也可以不间断地再现再现图像,而不必使用任何附加的识别信息。 控制电路参考附加到每个再现数据扇区的数据识别标志(“记录类型”),以指示记录数据的类型,并且对表示实时记录数据的数据识别标志的扇区数进行计数 附上。 当计数不小于阈值时,控制电路在实时再现模式中再现目标再现块的所有扇区。 在实时再现模式中,控制电路遮蔽发现有缺陷的再现数据的一部分,将缺陷数据的值改变为0(零),并将所得到的再现数据传送到主机设备。
    • 4. 发明申请
    • OPTICAL DISC APPARATUS AND REPRODUCTION CONTROL METHOD
    • 光盘设备和复制控制方法
    • US20090303845A1
    • 2009-12-10
    • US12430963
    • 2009-04-28
    • Atsushi YamadaTooru KawashimaMitsuhiro Nishidate
    • Atsushi YamadaTooru KawashimaMitsuhiro Nishidate
    • G11B21/08
    • G11B20/10G11B20/18G11B2020/10944G11B2020/1265G11B2220/2537
    • The present invention makes it possible to reproduce reproduction images without a break without having to use any additional identification information even when real-time recorded data is not completely continuous. A control circuit references a data identification flag (“Recording Type”) which is attached to each sector of reproduction data to indicate the type of recorded data, and counts the number of sectors to which the data identification flag representing real-time recorded data is attached. When the count is not smaller than a threshold value, the control circuit reproduces all the sectors of the target reproduction block in a real-time reproduction mode. In the real-time reproduction mode, the control circuit masks a portion of reproduction data that is found to be defective, changes the value of the defective data to 0 (zero), and transfers the resulting reproduction data to a host device.
    • 即使在实时记录数据不是完全连续的情况下,本发明也可以不间断地再现再现图像,而不必使用任何附加的识别信息。 控制电路参考附加到每个再现数据扇区的数据识别标志(“记录类型”),以指示记录数据的类型,并且对表示实时记录数据的数据识别标志的扇区数进行计数 附上。 当计数不小于阈值时,控制电路以实时再现模式再现目标再现块的所有扇区。 在实时再现模式中,控制电路遮蔽发现有缺陷的再现数据的一部分,将缺陷数据的值改变为0(零),并将所得到的再现数据传送到主机设备。
    • 5. 发明授权
    • Percutaneous absorption-type pharmaceutical preparations
    • 经皮吸收型药物制剂
    • US08506992B2
    • 2013-08-13
    • US11514891
    • 2006-09-05
    • Yoshimi YusaKeiji YamamotoTooru Kawashima
    • Yoshimi YusaKeiji YamamotoTooru Kawashima
    • A61K9/70A61K31/135A61K47/30A61K47/32
    • A61K31/135A61K9/7084
    • A percutaneous absorption-type pharmaceutical preparation containing a sublimation drug is provided, where from a plaster layer, a drug is released as volatile substance with a lapse of time, but the released drug has no adverse effect on the handling of the preparation, and the quality of the preparation is maintained in storage over a long period of time. A percutaneous absorption-type pharmaceutical preparation, which comprises: a support comprising a plastic film and a nonwoven fabric; and a plaster layer containing a sublimation drug, wherein the plastic film and the nonwoven fabric are laminated with an adhesive having a glass transition temperature of 10° C. or higher, and the plaster layer is laminated on opposite side of the plastic film surface that the nonwoven fabric is laminated with.
    • 本发明提供一种含有升华药物的经皮吸收型药物制剂,其中,从膏药层,药物随时间释放为挥发性物质,但释放的药物对制剂的处理没有不利影响, 制剂的质量在长时间内保存在储存中。 一种经皮吸收型药物制剂,其包含:包含塑料膜和非织造织物的载体; 以及含有升华药的膏药层,其中,所述塑料膜和所述无纺布与玻璃化转变温度为10℃以上的粘合剂层叠,所述膏药层层叠在所述塑料膜表面的相反侧, 将无纺布层压。
    • 6. 发明授权
    • Method and system for data processing with high availability
    • 具有高可用性的数据处理方法和系统
    • US08201022B2
    • 2012-06-12
    • US12216269
    • 2008-07-02
    • Katsushi YakoNorihiro HaraTooru KawashimaMasami Hikawa
    • Katsushi YakoNorihiro HaraTooru KawashimaMasami Hikawa
    • G06F11/00
    • G06F11/2048G06F11/1658G06F11/2033G06F11/2035
    • A server to be changed is added to a destination unit in terms of configuration. The server to be changed is started to restore the database in the database storage region to which the server has access and to restore the transaction for the process that was executed when the server failed. The destination of the failed server (a system destination unit) when failure occurs is determined to stabilize the throughput of the entire system after the switchover of the system in the event of failure. The destination server is determined according to an instruction given in advance by the user. The database management system statistically determines the destination server in accordance with a policy designated by the user. Alternatively, the database management system dynamically determines the destination server according to the policy designated by the user when failure occurs.
    • 要更改的服务器在配置方面添加到目标单元。 要更改的服务器将启动恢复服务器访问的数据库存储区域中的数据库,并恢复在服务器发生故障时执行的进程的事务。 在发生故障时,故障服务器(系统目标单元)的目的地被确定为在发生故障时系统切换后稳定整个系统的吞吐量。 目的地服务器根据用户预先给出的指示来确定。 数据库管理系统根据用户指定的策略统计地确定目的地服务器。 或者,数据库管理系统根据用户在发生故障时指定的策略来动态地确定目的地服务器。
    • 7. 发明申请
    • Method and system for managing load balancing in data-processing system
    • 在数据处理系统中管理负载均衡的方法和系统
    • US20070220028A1
    • 2007-09-20
    • US11471479
    • 2006-06-21
    • Masami HikawaNorihiro HaraTooru Kawashima
    • Masami HikawaNorihiro HaraTooru Kawashima
    • G06F7/00
    • G06F9/505G06F9/5077G06F16/217G06F2209/5022G06F2209/508
    • In a database management system, responsive to imbalances appearing in amounts of data in databases to be used by database servers, loss in performance of database management system is reduced, and the imbalances in the performances of processing of the database servers, which execute access transactions, are redressed. Allocation of CPU resources for execution of the access transactions are determined by changing or maintaining the CPU resource allocations to the database servers. Amounts of data to be used respectively by the database servers during access transactions are obtained from each database and stored into a storage device. A ratio of CPU resource allocations is calculated based upon a ratio of the amounts of data stored for the respective database servers. The CPU resource allocations for the respective database servers are changed based upon the calculated ratio.
    • 在数据库管理系统中,响应于由数据库服务器使用的数据库中的数据量出现的不平衡,数据库管理系统的性能损失减少,执行访问事务的数据库服务器的处理性能不平衡 ,得到纠正。 通过更改或维护对数据库服务器的CPU资源分配来确定用于执行访问事务的CPU资源分配。 在访问事务期间由数据库服务器分别使用的数据量从每个数据库获取并存储到存储设备中。 基于为各个数据库服务器存储的数据量的比率来计算CPU资源分配的比率。 基于计算的比率来改变相应数据库服务器的CPU资源分配。
    • 10. 发明授权
    • Method and system for data processing with high availability
    • 具有高可用性的数据处理方法和系统
    • US07409588B2
    • 2008-08-05
    • US11138385
    • 2005-05-27
    • Katsushi YakoNorihiro HaraTooru KawashimaMasami Hikawa
    • Katsushi YakoNorihiro HaraTooru KawashimaMasami Hikawa
    • G06F11/00
    • G06F11/2048G06F11/1658G06F11/2033G06F11/2035
    • A server to be changed is added to a destination unit in terms of configuration. The server to be changed is started to restore the database in the database storage region to which the server has access and to restore the transaction for the process that was executed when the server failed. The destination of the failed server (a system destination unit) when failure occurs is determined to stabilize the throughput of the entire system after the switchover of the system in the event of failure. The destination server is determined according to an instruction given in advance by the user. The database management system statistically determines the destination server in accordance with a policy designated by the user. Alternatively, the database management system dynamically determines the destination server according to the policy designated by the user when failure occurs.
    • 要更改的服务器在配置方面添加到目标单元。 要更改的服务器将启动恢复服务器访问的数据库存储区域中的数据库,并恢复在服务器发生故障时执行的进程的事务。 在发生故障时,故障服务器(系统目标单元)的目的地被确定为在发生故障的情况下在系统切换之后稳定整个系统的吞吐量。 目的地服务器根据用户预先给出的指示来确定。 数据库管理系统根据用户指定的策略统计地确定目的地服务器。 或者,数据库管理系统根据用户在发生故障时指定的策略来动态地确定目的地服务器。