Alignment device and method for optical system
    1.
    发明授权
    Alignment device and method for optical system 有权
    光学系统对准装置及方法

    公开(公告)号:US08085400B2

    公开(公告)日:2011-12-27

    申请号:US12730673

    申请日:2010-03-24

    申请人: Kenta Sudo

    发明人: Kenta Sudo

    IPC分类号: G01B11/00 G01B11/14

    摘要: An alignment device is provided for aligning a primary mirror with a secondary mirror in an optical system having the primary mirror and the secondary mirror arranged so as to face each other along the optical axis. The alignment device has a dichroic film formed on a surface on the front side of the secondary mirror and configured to reflect light used in the optical system and to transmit alignment light, a back reflecting surface formed on the back side of the secondary mirror and configured to reflect the alignment light, and a detection system which detects a positional deviation between the primary mirror and the secondary mirror, based on the alignment light having traveled via the dichroic film, the back reflecting surface, and a reflecting surface of the primary mirror.

    摘要翻译: 提供了一种对准装置,用于将主镜与副反射镜对准在具有主镜和副镜的光学系统中,所述主镜被布置为沿着光轴彼此面对。 对准装置具有形成在副反射镜的正面的表面上的二向色膜,其被配置为反射在光学系统中使用的光并透射对准光,形成在副反射镜的背面上的背面反射面, 以及基于经由二向色膜,背反射面和主反射镜的反射面行进的取向光,检测主反射镜和副反射镜之间的位置偏差的检测系统。

    ALIGNMENT DEVICE AND METHOD FOR OPTICAL SYSTEM
    2.
    发明申请
    ALIGNMENT DEVICE AND METHOD FOR OPTICAL SYSTEM 有权
    光学系统的对准设备和方法

    公开(公告)号:US20100177315A1

    公开(公告)日:2010-07-15

    申请号:US12730673

    申请日:2010-03-24

    申请人: Kenta SUDO

    发明人: Kenta SUDO

    IPC分类号: G02B7/182

    摘要: An alignment device is provided for aligning a primary mirror with a secondary mirror in an optical system having the primary mirror and the secondary mirror arranged so as to face each other along the optical axis. The alignment device has a dichroic film formed on a surface on the front side of the secondary mirror and configured to reflect light used in the optical system and to transmit alignment light, a back reflecting surface formed on the back side of the secondary mirror and configured to reflect the alignment light, and a detection system which detects a positional deviation between the primary mirror and the secondary mirror, based on the alignment light having traveled via the dichroic film, the back reflecting surface, and a reflecting surface of the primary mirror.

    摘要翻译: 提供了一种对准装置,用于将主镜与副反射镜对准在具有主镜和副镜的光学系统中,所述主镜被布置为沿着光轴彼此面对。 对准装置具有形成在副反射镜的正面的表面上的二向色膜,其被配置为反射在光学系统中使用的光并透射对准光,形成在副反射镜的背面上的背面反射面, 以及基于经由二向色膜,背反射面和主反射镜的反射面行进的取向光,检测主反射镜和副反射镜之间的位置偏差的检测系统。

    System and method for communicating biological signal data
    3.
    发明申请
    System and method for communicating biological signal data 有权
    用于传播生物信号数据的系统和方法

    公开(公告)号:US20050119535A1

    公开(公告)日:2005-06-02

    申请号:US10995330

    申请日:2004-11-24

    摘要: A measurement apparatus and a receiver apparatus are communicatively connected in a wireless manner. Biological signal data is obtained from a detector attached on a living body. A data packet is prepared from the biological signal data. A first CRC of the biological signal data is calculated and appended to the data packet. The data packet is periodically transmitted with the first CRC from the measurement apparatus to the receiver apparatus. A second CRC of the data packet received at the receiver apparatus is calculated. The received data packet is verified when the second CRC is coincident with the first CRC. Acknowledgement data is transmitted from the receiver apparatus to the measurement apparatus when the received data packet is verified. The data packet is retransmitted from the measurement apparatus to the receiver apparatus when the acknowledgement data is not received at the measurement apparatus within a prescribed time period from a previous transmission of the data packet. The data packet is stored in a storage when the number of retransmission exceeds a prescribed value.

    摘要翻译: 测量设备和接收机设备以无线方式通信地连接。 从附着在生物体上的检测器获得生物信号数据。 根据生物信号数据准备数据包。 计算生物信号数据的第一个CRC并附加到数据包。 周期性地从测量装置向接收装置发送数据分组与第一CRC。 计算在接收机装置处接收的数据分组的第二CRC。 当第二CRC与第一个CRC一致时,验证所接收的数据分组。 当验证接收的数据分组时,确认数据从接收装置发送到测量装置。 当从数据分组的先前传输起的规定时间段内,当在测量装置处没有接收到确认数据时,将数据分组从测量装置重传到接收机装置。 当重发次数超过规定值时,数据包存储在存储器中。

    INFRARED IMAGE CAPTURE DEVICE
    4.
    发明申请
    INFRARED IMAGE CAPTURE DEVICE 审中-公开
    红外图像捕获设备

    公开(公告)号:US20140002669A1

    公开(公告)日:2014-01-02

    申请号:US14005272

    申请日:2012-03-14

    申请人: Kenta Sudo

    发明人: Kenta Sudo

    IPC分类号: H04N5/33

    摘要: In an infrared image capture device, an infrared optical system (10) has an objective optical system (13) that includes a primary mirror (11) and an auxiliary mirror (12) disposed to face each other along an optical axis (AX), and forms an intermediate image of an object (not illustrated) by sequentially reflecting the infrared ray from the object using the primary mirror (11) and the auxiliary mirror (12), and a non-transmitting portion (12f) which does not transmit the infrared rays from the object exists in the center portion of the auxiliary mirror (12). The non-transmitting portion (12f) in the center portion of the auxiliary mirror (12) is formed in a concave surface which satisfies a following conditional expression (1): L/1.2

    摘要翻译: 在红外图像捕获装置中,红外光学系统(10)具有物镜光学系统(13),其包括沿着光轴(AX)彼此相对设置的主反射镜(11)和辅助反射镜(12) 并且通过使用主反射镜(11)和辅助反射镜(12)顺序地反射来自物体的红外线,形成物体(未示出)的中间图像,以及不透射该物体的非透射部分(12f) 来自物体的红外线存在于辅助镜(12)的中心部分。 辅助反射镜(12)的中心部分的非透射部分(12f)形成为满足以下条件表达式(1)的凹面:L / 1.2

    System and method for communicating biological signal data
    5.
    发明授权
    System and method for communicating biological signal data 有权
    用于传播生物信号数据的系统和方法

    公开(公告)号:US07547280B2

    公开(公告)日:2009-06-16

    申请号:US10995330

    申请日:2004-11-24

    IPC分类号: A61B5/00

    摘要: A measurement apparatus and a receiver apparatus are communicatively connected in a wireless manner. Biological signal data is obtained from a detector attached on a living body. A data packet is prepared from the biological signal data. A first CRC of the biological signal data is calculated and appended to the data packet. The data packet is periodically transmitted with the first CRC from the measurement apparatus to the receiver apparatus. A second CRC of the data packet received at the receiver apparatus is calculated. The received data packet is verified when the second CRC is coincident with the first CRC. Acknowledgement data is transmitted from the receiver apparatus to the measurement apparatus when the received data packet is verified. The data packet is retransmitted from the measurement apparatus to the receiver apparatus when the acknowledgement data is not received at the measurement apparatus within a prescribed time period from a previous transmission of the data packet. The data packet is stored in a storage when the number of retransmission exceeds a prescribed value.

    摘要翻译: 测量设备和接收机设备以无线方式通信地连接。 从附着在生物体上的检测器获得生物信号数据。 根据生物信号数据准备数据包。 计算生物信号数据的第一个CRC并附加到数据包。 周期性地从测量装置向接收装置发送数据分组与第一CRC。 计算在接收机装置处接收的数据分组的第二CRC。 当第二CRC与第一个CRC一致时,验证所接收的数据分组。 当验证接收的数据分组时,确认数据从接收装置发送到测量装置。 当从数据分组的先前传输起的规定时间段内,当在测量装置处没有接收到确认数据时,将数据分组从测量装置重传到接收机装置。 当重发次数超过规定值时,数据包存储在存储器中。