公开(公告)号：US08732471B2

公开(公告)日：2014-05-20

申请号：US12092491

申请日：2006-08-02

申请人： Chisato Numaoka

发明人： Chisato Numaoka

IPC分类号： G06F21/00 ,  H04L9/32

CPC分类号： H04L9/3263 ,  G06F21/10 ,  G06F21/52 ,  G06F21/6209 ,  G06F21/73 ,  H04L9/3273 ,  H04L63/166 ,  H04L2209/60 ,  H04L2209/80

摘要： A computer including at least two processors is used to preferably perform a secure data communication. Data containing a processor ID identifying one of the at least two processors provided for a first computer (computer 31) is transmitted from the first computer to a second computer (a node at the other party) (S91, S92). The second computer returns data containing the processor ID contained in the data transmitted in S91 and S92 and a public key certificate relating to the second computer. The first computer receives the data returned from the second computer, acquires, from the received data, the processor ID contained therein, and causes a processor (SPE1), which is identified by the processor ID, to process the received data. At this moment, the processing of the data is restricted according to a content of the public key certificate contained in the received data.

摘要翻译： 使用包括至少两个处理器的计算机来优选地执行安全数据通信。 包含识别为第一计算机（计算机31）提供的至少两个处理器之一的处理器ID的数据从第一计算机发送到第二计算机（在另一方的节点）（S91，S92）。 第二计算机返回包含在S91和S92中发送的数据中的处理器ID的数据和与第二计算机有关的公钥证书。 第一计算机接收从第二计算机返回的数据，从接收到的数据中获取其中包含的处理器ID，并且使由处理器ID识别的处理器（SPE1）处理接收到的数据。 此时，根据接收到的数据中包含的公钥证书的内容来限制数据的处理。

公开(公告)号：US07181024B1

公开(公告)日：2007-02-20

申请号：US09705035

申请日：2000-11-02

申请人： Haruo Oba ,  Keiichi Totsuka ,  Shigeru Tajima ,  Chisato Numaoka

发明人： Haruo Oba ,  Keiichi Totsuka ,  Shigeru Tajima ,  Chisato Numaoka

IPC分类号： H04B3/00 ,  H04B5/00

CPC分类号： H04B13/005

摘要： A portable audio listening apparatus includes, for example, a portable audio playback apparatus serving as a portable transmission apparatus and a headphone serving as a portable receiving apparatus. The portable audio playback apparatus has an electrode at its side. The headphone includes an ear pad made from an electrically conductive material and an electric-circuit unit. The ear pad serves as an electrode and is connected to the electric-circuit unit by wiring. The electric-circuit unit includes a signal processing circuit and a battery. When the user wears the portable audio playback apparatus and the headphone, a transmission path is formed through the body of the user. A signal reproduced by the portable audio playback apparatus is sent through the body of the user and the ear pad to the electric-circuit unit of the headphone.

摘要翻译： 便携式音频收听装置包括例如用作便携式传输装置的便携式音频播放装置和用作便携式接收装置的耳机。 便携式音频播放装置在其侧面具有电极。 耳机包括由导电材料制成的耳垫和电路单元。 耳垫用作电极，并通过布线连接到电路单元。 电路单元包括信号处理电路和电池。 当用户佩戴便携式音频播放设备和耳机时，通过用户的主体形成传输路径。 由便携式音频播放装置再现的信号通过用户的身体和耳垫发送到耳机的电路单元。

公开(公告)号：US06434540B1

公开(公告)日：2002-08-13

申请号：US09234178

申请日：1999-01-19

申请人： Chisato Numaoka

发明人： Chisato Numaoka

IPC分类号： G06F1518

CPC分类号： G06N99/005

摘要： An architecture, which may be embodied in hardware, software or a combination of the two, implementing self-biased conditioning and having at least one primary response network (1) comprising: a single activation node (X) responding to a first value of an input signal received from at least one sensor (SA) by outputting a trigger signal (O1), one or more motor centers (M) receiving the trigger signal (O1) and having an innate response to generate an output signal (O3) for activating an actuator (C1), means (y+, y−) for applying positive and negative reinforcement signals to the motor center (M) to promote or inhibit the response of the motor center (M) to the trigger signal (O1), one or more expectation nodes (Y) receiving an input signal from at least one second sensor (SB), and generating an output signal (O2) indicating when the generation of said output signal (O3) for activating the actuator is not appropriate; and an associative memory (2) generating said positive and negative reinforcement signals in response to a determination that the response of the motor center requires promotion or inhibition.

摘要翻译： 可以以硬件，软件或两者的组合体现的体系结构，实现自偏置条件并具有至少一个主要响应网络（1），包括：单个激活节点（X），其响应于第一值 通过输出触发信号（O1）从所述至少一个传感器（SA）接收的输入信号，接收所述触发信号（O1）的一个或多个电动机中心（M）并且具有先天响应以产生用于激活的输出信号（O3） 致动器（C1），用于向马达中心（M）施加正和负加强信号以促进或禁止马达中心（M）对触发信号（O1）的响应的装置（y +，y-），一个或 接收来自至少一个第二传感器（SB）的输入信号的预期节点（Y），以及产生指示用于激活致动器的所述输出信号（O3）的生成何时不合适的输出信号（O2） 以及响应于确定所述电动机中心的响应需要促进或抑制的相关存储器（2）产生所述正负增强信号。

公开(公告)号：US08564415B2

公开(公告)日：2013-10-22

申请号：US12446779

申请日：2007-07-10

申请人： Masayuki Chatani ,  Chisato Numaoka

发明人： Masayuki Chatani ,  Chisato Numaoka

IPC分类号： H04Q5/22 ,  H04W24/00 ,  G06F17/30

CPC分类号： G06K7/10366 ,  G06Q30/02 ,  G06Q30/0201 ,  G06Q30/0601 ,  H04W4/029 ,  H04W4/80

摘要： An RFID aggregate storage stores a radio-frequency ID aggregate structure. The RFID aggregate structure is an aggregated data structure of a plurality of RFIDs, in which each RFID is associated with a location and time read out from a RFID tag, and RFID related information, hierarchically constructed by classifying RFIDs based on the readout location and further by classifying them based on the readout time. A proximity evaluator evaluates the proximity between the first user's RF ID aggregate and the second user's RFID aggregate. A user classifier classifies the first user and the second user in one group when the proximity is smaller than a predetermined threshold value.

摘要翻译： RFID聚合存储器存储射频ID聚合结构。 RFID集合结构是多个RFID的聚合数据结构，其中每个RFID与从RFID标签读出的位置和时间相关联，以及RFID相关信息，其通过基于读出位置对RFID进行分类构造，并且进一步 通过根据读出时间对它们进行分类。 接近评估器评估第一用户的RF ID聚合和第二用户的RFID集合之间的接近度。 当接近度小于预定阈值时，用户分类器对一组中的第一用户和第二用户进行分类。

公开(公告)号：US08446261B2

公开(公告)日：2013-05-21

申请号：US12446816

申请日：2007-07-10

申请人： Masayuki Chatani ,  Chisato Numaoka

发明人： Masayuki Chatani ,  Chisato Numaoka

IPC分类号： G06F7/00 ,  G06F17/30

CPC分类号： G06Q30/02

摘要： The RFID reader reads out an RFID stored in an RFID tag in the vicinity through wireless communication. The clock acquires an RFID readout time. The location sensor acquires an RFID readout location. The memory stores the RFID in association with the readout time and the readout location. The communication I/F acquires RFID-related information from a server asynchronously with readout of the RFID. The processor generates in the memory an RFID aggregate structure, which is a data structure of RFID aggregates constructed by classifying a plurality of RFIDs stored in the memory based on the readout time and the readout location and in which RFID-related information is stored in association with the constructed RFIDs.

摘要翻译： RFID读取器通过无线通信读出存储在附近的RFID标签中的RFID。 时钟获取RFID读取时间。 位置传感器获取RFID读出位置。 存储器与读出时间和读出位置相关联地存储RFID。 通信I / F与RFID的读出异步地从服务器获取RFID相关信息。 处理器在存储器中产生RFID聚合结构，其是通过基于读出时间和读出位置对存储在存储器中的多个RFID进行分类而构成的RFID集合体的数据结构，并且其中与RFID相关的信息相关联地存储 与构造的RFID。

公开(公告)号：US06526167B1

公开(公告)日：2003-02-25

申请号：US09317227

申请日：1999-05-24

申请人： Chisato Numaoka

发明人： Chisato Numaoka

IPC分类号： G06K980

CPC分类号： G06K9/6251 ,  G06K9/4652 ,  G06T7/254 ,  G06T7/73

摘要： An image processing apparatus and method and a provision medium arranged to perform image learning and image recognition in a short time. An image difference detector computes a differential image between an image stored in a frame buffer and an image stored in another frame buffer, and also computes the centroid of the differential image. A information collector forms RGB histogram data and binary data of a peripheral area about the centroid obtained by the image difference detector. A category former formed by a Kohonen network forms a category based on the RGB histogram data and binary data. A category statistic processor performs statistical processing of the categories output from the category former, and outputs a processing result to a learner formed by a recurrent neural network.

摘要翻译： 一种图像处理装置和方法以及用于在短时间内执行图像学习和图像识别的配置介质。 图像差分检测器计算存储在帧缓冲器中的图像与存储在另一帧缓冲器中的图像之间的差分图像，并且还计算差分图像的质心。 信息收集器形成由图像差分检测器获得的关于质心的周边区域的RGB直方图数据和二进制数据。 由Kohonen网络形成的类别前者基于RGB直方图数据和二进制数据形成一个类别。 类别统计处理器执行从类别分类输出的类别的统计处理，并将处理结果输出到由循环神经网络形成的学习者。

公开(公告)号：US20100013603A1

公开(公告)日：2010-01-21

申请号：US12446816

申请日：2007-07-10

申请人： Masayuki Chatani ,  Chisato Numaoka

发明人： Masayuki Chatani ,  Chisato Numaoka

IPC分类号： H04Q5/22

CPC分类号： G06Q30/02

摘要： The RFID reader 20 reads out an RFID stored in an RFID tag in the vicinity through wireless communication. The clock 28 acquires an RFID readout time. The location sensor 24 acquires an RFID readout location. The memory 16 stores the RFID in association with the readout time and the readout location. The communication I/F 22 acquires RFID-related information from a server asynchronously with readout of the RFID. The processor 10 generates in the memory 16 an RFID aggregate structure, which is a data structure of RFID aggregates constructed by classifying a plurality of RFIDs stored in the memory 16 based on the readout time and the readout location and in which RFID-related information is stored in association with the constructed RFIDs.

摘要翻译： RFID读取器20通过无线通信读出存储在附近的RFID标签中的RFID。 时钟28获取RFID读出时间。 位置传感器24获取RFID读出位置。 存储器16与读出时间和读出位置相关联地存储RFID。 通信I / F22与RFID的读出异步地从服务器获取RFID相关信息。 处理器10在存储器16中产生RFID集合结构，该RFID集合结构是通过基于读出时间和读出位置对存储在存储器16中的多个RFID进行分类而构成的RFID集合的数据结构，并且RFID相关信息是 与构建的RFID相关联地存储。

公开(公告)号：US20090265222A1

公开(公告)日：2009-10-22

申请号：US12446779

申请日：2007-07-10

申请人： Masayuki Chatani ,  Chisato Numaoka

发明人： Masayuki Chatani ,  Chisato Numaoka

IPC分类号： G06Q10/00 ,  G06G7/78 ,  H04Q5/22

CPC分类号： G06K7/10366 ,  G06Q30/02 ,  G06Q30/0201 ,  G06Q30/0601 ,  H04W4/029 ,  H04W4/80

摘要： An RFID aggregate storage stores a radio-frequency ID aggregate structure. The RFID aggregate structure is an aggregated data structure of a plurality of RFIDs, in which each RFID is associated with a location and time read out from a RFID tag, and RFID related information, hierarchically constructed by classifying RFIDs based on the readout location and further by classifying them based on the readout time. A proximity evaluator evaluates the proximity between the first user's RF ID aggregate and the second user's RFID aggregate. A user classifier classifies the first user and the second user in one group when the proximity is smaller than a predetermined threshold value.

摘要翻译： RFID聚合存储器存储射频ID聚合结构。 RFID集合结构是多个RFID的聚合数据结构，其中每个RFID与从RFID标签读出的位置和时间相关联，以及RFID相关信息，其通过基于读出位置对RFID进行分类构造，并且进一步 通过根据读出时间对它们进行分类。 接近评估器评估第一用户的RF ID聚合和第二用户的RFID集合之间的接近度。 当接近度小于预定阈值时，用户分类器对一组中的第一用户和第二用户进行分类。

公开(公告)号：US20090125721A1

公开(公告)日：2009-05-14

申请号：US12092491

申请日：2006-08-02

申请人： Chisato Numaoka

发明人： Chisato Numaoka

IPC分类号： H04L9/00

CPC分类号： H04L9/3263 ,  G06F21/10 ,  G06F21/52 ,  G06F21/6209 ,  G06F21/73 ,  H04L9/3273 ,  H04L63/166 ,  H04L2209/60 ,  H04L2209/80

摘要： A computer including at least two processors is used to preferably perform a secure data communication. Data containing a processor ID identifying one of the at least two processors provided for a first computer (computer 31) is transmitted from the first computer to a second computer (a node at the other party) (S91, S92). The second computer returns data containing the processor ID contained in the data transmitted in S91 and S92 and a public key certificate relating to the second computer. The first computer receives the data returned from the second computer, acquires, from the received data, the processor ID contained therein, and causes a processor (SPE1), which is identified by the processor ID, to process the received data. At this moment, the processing of the data is restricted according to a content of the public key certificate contained in the received data.

摘要翻译： 使用包括至少两个处理器的计算机来优选地执行安全数据通信。 包含识别为第一计算机（计算机31）提供的至少两个处理器之一的处理器ID的数据从第一计算机发送到第二计算机（在另一方的节点）（S91，S92）。 第二计算机返回包含在S91和S92中发送的数据中的处理器ID的数据和与第二计算机有关的公钥证书。 第一计算机接收从第二计算机返回的数据，从接收到的数据中获取其中包含的处理器ID，并且使由处理器ID识别的处理器（SPE1）处理接收到的数据。 此时，根据接收到的数据中包含的公钥证书的内容来限制数据的处理。

公开(公告)号：US06473068B2

公开(公告)日：2002-10-29

申请号：US09885481

申请日：2001-06-20

申请人： Chisato Numaoka

发明人： Chisato Numaoka

IPC分类号： G09G500

CPC分类号： H04N7/185 ,  H04N5/232 ,  H04N5/23293

摘要： A mobile data apparatus equipped with a display is improved in both operability and mobility. A frame difference detector 4 is provided for detecting a change in image between two consecutive frames transferred from a pair of frame buffers 2 and 3. The change in image is used in a barycenter calculator 5 for calculating the barycenter of each image. The barycenter is saved in a barycenter coordinates memory 6. A camera movement calculator 6 calculates a difference between the barycenter saved in the barycenter coordinates memory 6 and a reference barycenter saved in a barycenter coordinates memory 7 to determine a horizontal pixel shift DPx and a vertical pixel shift DPy of a camera. In response to those shifts, a horizontal angle-of-rotation controller 9 and a vertical angle-of-rotation controller 10 determine angles of rotation along the horizontal and vertical directions hx and hy for a virtual camera 11. Accordingly, the view of the virtual camera 11 can duly be controlled.