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    • 1. 发明授权
    • Personal authentication system
    • 个人认证系统
    • US07375615B2
    • 2008-05-20
    • US11147246
    • 2005-06-08
    • Kenji KitagawaMotoaki Satoyama
    • Kenji KitagawaMotoaki Satoyama
    • G06F11/00
    • G07C9/00031G06F21/35H04W4/80H04W12/06
    • An apparatus is disclosed for reducing the vexatious complication of personal authentication when using an information technology device or a card. A combination of RFID tags worn by a user is stored when personal authentication is carried out. The RFID tags are detected again In a situation where personal authentication is required. The continuous use of the previous personal authentication is permitted depending on the extent of coincidence between pieces of RFID information thus detected and the combination of stored RFID information, so that further authentication operations can be omitted. In addition, reference is made to a past archive when an RFID list is created. A weighted coefficient is then calculated based on the put-on frequency (put-on archive) in terms of a user's single article or a combination of such articles. The utilization of the weighted coefficient provides personal authentication with a high level of reliability.
    • 公开了一种用于在使用信息技术设备或卡时减少个人认证的麻烦的复杂性的装置。 当进行个人认证时,存储用户佩戴的RFID标签的组合。 在需要个人认证的情况下,再次检测RFID标签。 根据所检测到的RFID信息和存储的RFID信息的组合之间的一致性的程度,允许连续使用以前的个人认证,从而可以省略进一步的认证操作。 另外,当创建RFID列表时,可以参考过去的归档。 然后,根据用户的单一物品或这些物品的组合,根据放置频率(放置档案)计算加权系数。 加权系数的使用提供了高度的可靠性的个人认证。
    • 2. 发明申请
    • Personal authentication system
    • 个人认证系统
    • US20050278776A1
    • 2005-12-15
    • US11147246
    • 2005-06-08
    • Kenji KitagawaMotoaki Satoyama
    • Kenji KitagawaMotoaki Satoyama
    • G06K17/00G06F1/26G06F15/00G06F21/00G06F21/20G07C9/00H04L9/32
    • G07C9/00031G06F21/35H04W4/80H04W12/06
    • To reduce the vexatious complication of personal authentication when using an information technology device or a card, a combination of RFID tags worn by a user is stored when personal authentication is carried out. After that, the RFID tags are detected again in a situation where personal authentication is required. The continuous use of the previous personal authentication is permitted depending on the extent of coincidence between pieces of RFID information thus detected and the combination of stored RFID information, so that further authentication operations can be omitted. In addition, reference is made to a past archive when an RFID list is created. A weighted coefficient is then calculated based on the put-on frequency (put-on archive) in terms of a user's single article or a combination of such articles. The utilization of the weighted coefficient provides personal authentication with a high level of reliability.
    • 为了减少在使用信息技术装置或卡片时个人认证的麻烦的复杂性,当进行个人认证时,存储用户佩戴的RFID标签的组合。 之后,在需要个人认证的情况下再次检测RFID标签。 根据所检测到的RFID信息和存储的RFID信息的组合之间的一致性的程度,允许连续使用以前的个人认证,从而可以省略进一步的认证操作。 另外,当创建RFID列表时,可以参考过去的归档。 然后,根据用户的单一物品或这些物品的组合,根据放置频率(放置档案)计算加权系数。 加权系数的使用提供了高度的可靠性的个人认证。
    • 6. 发明申请
    • Data processing apparatus and ic card
    • 数据处理装置和IC卡
    • US20060117308A1
    • 2006-06-01
    • US10521551
    • 2002-08-30
    • Kazuya HirayanagiKenji KitagawaKesami HagiwaraTkanori AokiNaoki Mitsuishi
    • Kazuya HirayanagiKenji KitagawaKesami HagiwaraTkanori AokiNaoki Mitsuishi
    • G06F9/45
    • G06F9/30174G06F9/30181
    • A data processing apparatus (1) can implement the execution of a virtual machine instruction based on an execution routine specified by the native instruction of a CPU (2) and has an address converting unit (3) capable of sequentially converting an address output from the CPU into the address of the native instruction by utilizing the address of a prepared execution routine in response to the application of a prescribed condition. The address converting unit reads a virtual machine instruction to be executed next and prepares the address of an execution routine corresponding thereto in parallel with the execution of the execution routine by the CPU based on the address of the native instruction which is sequentially converted. Accordingly, it is possible to reduce the overhead of a processing of loading the virtual machine instruction and a processing of executing an instruction in accordance with the execution routine which is caused by an address calculation processing based on the load processing. Consequently, it is possible to increase the speed of a data processing to be carried out by a virtual machine program described in a virtual machine instruction.
    • 数据处理装置(1)可以基于由CPU(2)的本机指令指定的执行例程来实现虚拟机指令的执行,并具有地址转换单元(3),其能够顺序地转换从 CPU响应于规定条件的应用利用准备的执行例程的地址,将其写入本地指令的地址。 地址转换单元读取下一个要执行的虚拟机指令,并根据顺序地转换的本地指令的地址,通过CPU执行执行例程来准备与之相对应的执行例行程序的地址。 因此,可以减少加载虚拟机指令的处理的开销和根据由基于加载处理的地址计算处理引起的执行例程来执行指令的处理。 因此,可以增加由虚拟机指令中描述的虚拟机程序执行的数据处理的速度。
    • 9. 发明授权
    • Method and device for peeling a film
    • 剥离膜的方法和装置
    • US5496432A
    • 1996-03-05
    • US327384
    • 1994-10-21
    • Shigeo SumiKenji Kitagawa
    • Shigeo SumiKenji Kitagawa
    • B65H29/54B29C63/00B65H41/00G03F7/34B32B31/00
    • B29C63/0013G03F7/343Y10S156/926Y10T156/1126Y10T156/1972
    • It is an object of the invention to provide film peeling method and device which, when a circuit board with laminated thin films coated on the front and back surfaces thereof is beaten by vibrator rods from the front and back sides thereof to thereby peel the film, can absorb variations in the coated positions of the front and back laminated thin films and also prevent the vibrator rods from being damaged when they beat each other idly.Vibrators 16A, 16B are disposed on the front and back sides of a circuit board 14 with laminated thin films 12A, 12B coated on the front and back surfaces thereof, back and front back-up rollers 24B, 24A are disposed at positions respectively opposed to the front and back rods 18A, 18B of the vibrators 16A, 16B, and the back and front back-up rollers 24B, 24A are moved synchronously with the front and back rods 18A, 18B, respectively.
    • 本发明的目的是提供一种薄膜剥离方法和装置,当其正面和背面涂覆有层压薄膜的电路板被其前后侧的振动棒击打,从而剥离薄膜时, 可以吸收前后层压薄膜的涂布位置的变化,并且也可以防止振动棒在彼此彼此相互撞击时被损坏。 振动器16A,16B设置在电路板14的前侧和后侧,涂覆有前后表面的层压薄膜12A,12B,前支撑辊24B,24A设置在与 振动器16A,16B以及后支撑辊24B,24A的前杆18A和后杆18B分别与前杆18A和后杆18B同步地移动。