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    • 1. 发明授权
    • Communications system
    • 通讯系统
    • US07187740B2
    • 2007-03-06
    • US10648260
    • 2003-08-27
    • Keisuke KinoshitaToshiyuki KohriSusumu Morikura
    • Keisuke KinoshitaToshiyuki KohriSusumu Morikura
    • H04L25/08
    • H04L1/22H04J3/0641H04L7/0083
    • A communication system is provided in which normal communications can be ensured even upon a loss of synchronization on a part of transmission paths configuring a network.The system is to perform data communications within a network configured by a plurality of devices. A synchronization detecting section detects a loss of synchronization for data transmission between devices connected to each other via the network. Upon detection by the synchronization detecting section of the loss of synchronization, a control information retaining section and a switching section included in the first device cause a connection with the second device to be cut off, and then again cause a connection with the device. Upon connection caused by the switching section between the devices, a connection processing section 16 performs a connecting process for enabling data communications between these devices.
    • 提供了一种通信系统,其中即使在配置网络的传输路径的一部分上的同步丢失也可以确保正常通信。 该系统是在由多个设备配置的网络内执行数据通信。 同步检测部检测经由网络彼此连接的设备之间的数据传输的同步丢失。 在由同步检测部检测到失去同步的情况下,包括在第一装置中的控制信息保持部分和切换部分导致与第二装置的连接被切断,然后再次引起与装置的连接。 在由设备之间的切换部分引起的连接时,连接处理部分16执行用于在这些设备之间进行数据通信的连接处理。
    • 2. 发明授权
    • Optical receiving device and optical receiving method
    • 光接收装置及光接收方式
    • US07400836B2
    • 2008-07-15
    • US11037202
    • 2005-01-19
    • Keisuke KinoshitaSusumu Morikura
    • Keisuke KinoshitaSusumu Morikura
    • H04B10/06H04B1/10
    • H04B10/6931
    • An optical receiving device capable of outputting a control signal and a data signal received as an optical signal, even if a received optical power of an optical signal inputted via an optical fiber fluctuates. An optical-to-electrical conversion section converts the optical signal inputted via the optical fiber to an electrical signal. A received optical power detection section detects a received optical power of the optical signal. A detection level setting section outputs a first detection level value or a second detection level value as a detection level. A comparison section compares the received optical power with the detection level. An output/stop switching section outputs an electrical signal as an output signal when the received optical power is greater than the detection level, and stops outputting the signal when the received optical power Pt is smaller than the detection level Lt.
    • 即使经由光纤输入的光信号的接收光功率波动,也能够输出作为光信号接收的控制信号和数据信号的光接收装置。 光电转换部将经由光纤输入的光信号转换为电信号。 接收光功率检测部分检测光信号的接收光功率。 检测电平设定部输出第一检测电平值或第二检测电平值作为检测电平。 比较部分将接收的光功率与检测电平进行比较。 当接收的光功率大于检测电平时,输出/停止切换部分输出作为输出信号的电信号,并且当接收的光功率Pt小于检测电平Lt时,停止输出信号。
    • 4. 发明申请
    • Optical receiving device and optical receiving method
    • 光接收装置及光接收方式
    • US20050163505A1
    • 2005-07-28
    • US11037202
    • 2005-01-19
    • Keisuke KinoshitaSusumu Morikura
    • Keisuke KinoshitaSusumu Morikura
    • H04B10/69H04B10/08
    • H04B10/6931
    • An optical receiving device capable of outputting a control signal and a data signal received as an optical signal, even if a received optical power of an optical signal inputted via an optical fiber 7 fluctuates. An optical-to-electrical conversion section 2 converts the optical signal inputted via the optical fiber 7 to an electrical signal. A received optical power detection section 3 detects a received optical power of the optical signal. A detection level setting section 4 outputs a first detection level value or a second detection level value as a detection level. A comparison section 5 compares the received optical power with the detection level. An output/stop switching section 6 outputs an electrical signal as an output signal when the received optical power is greater than the detection level, and stops outputting the signal when the received optical power Pt is smaller than the detection level Lt.
    • 即使经由光纤7输入的光信号的接收光功率波动,也能够输出作为光信号接收的控制信号和数据信号的光接收装置。 光电转换部分2将经由光纤7输入的光信号转换为电信号。 接收光功率检测部分3检测光信号的接收光功率。 检测电平设定部分4输出第一检测电平值或第二检测电平值作为检测电平。 比较部分5将接收的光功率与检测电平进行比较。 当接收光功率大于检测电平时,输出/停止切换部分6输出作为输出信号的电信号,并且当接收光功率Pt小于检测电平Lt时,输出/停止切换部分6停止输出信号。
    • 6. 发明授权
    • Light source used in wavelength multiplexing
    • 光源用于波长复用
    • US06636342B2
    • 2003-10-21
    • US09764380
    • 2001-01-19
    • Satoshi FurusawaSusumu Morikura
    • Satoshi FurusawaSusumu Morikura
    • G02F202
    • H04J14/02G02F1/37H04B10/506H04B10/572
    • A group of semiconductor laser diodes outputs fundamental-wave lights controlled so that each wavelength thereof is double the wavelength of a light for wavelength multiplexing transmission. The fundamental-wave lights are provided to a light receiver, and then to a group of wavelength conversion elements, wherein the fundamental-wave lights are converted into lights each having half the wavelength of each fundamental-wave light. The group of wavelength conversion elements outputs lights including the converted lights each having half the wavelength of each fundamental-wave light and the fundamental-wave lights. The outputted lights are passed through a group of fundamental-wave optical eliminators typified by an optical filter for passing the converted lights and eliminating the fundamental-wave lights, a guiding part, and then an optical multiplexer, and then guided to a transmission medium. Thus, the light controlled in wavelength with high accuracy can be outputted without controlling the semiconductor laser diodes in oscillation wavelength with high accuracy.
    • 一组半导体激光二极管输出控制的基波光,使得其每个波长的波长为用于波长复用传输的光的波长的两倍。 将基波光提供给光接收器,然后提供给一组波长转换元件,其中基波光被转换成各自具有每个基波光的一半波长的光。 一组波长转换元件输出包括每个具有每个基波光的一半波长的转换光和基波光的光。 输出的光通过由滤光器代表的一组基波消光器,用于使转换的光通过,并消除基波光,引导部分,然后被引导到光复用器,然后被引导到传输介质。 因此,能够高精度地输出振荡波长的半导体激光二极管,能够高精度地控制波长的光。
    • 9. 发明授权
    • Radio signal transmitter
    • 无线电信号发射机
    • US06292673B1
    • 2001-09-18
    • US09343681
    • 1999-06-30
    • Kazuki MaedaHiroyuki SasaiKouichi MasudaSusumu Morikura
    • Kazuki MaedaHiroyuki SasaiKouichi MasudaSusumu Morikura
    • H04B700
    • H04B1/04
    • A signal including an RF signal and a code division multiple access signal is transmitted so that, in relation to both of the RF signal and the code division multiple access signal, a receiving end can obtain a signal having sufficiently larger power as compared with noise and with no distortion. In order to attain this object, a separation part separates the signal into the RF signal and the code division multiple access signal at a sending end. An amplification part amplifies the RF signal with an amplification factor related to its power. An amplification part amplifies the code division multiple access signal with an amplification factor related to its power. A combination part combines the amplified RF signal and the amplified code division multiple access signal with each other.
    • 发送包括RF信号和码分多址信号的信号,使得相对于RF信号和码分多址信号两者,接收端可以获得与噪声相比具有足够大功率的信号,并且 没有失真。 为了实现这个目的,分离部分在发送端将信号分离成RF信号和码分多址信号。 放大部分以与其功率相关的放大因子放大RF信号。 放大部分以与其功率相关的放大因子放大码分多址信号。 组合部分将放大的RF信号和放大的码分多址信号彼此组合。
    • 10. 发明授权
    • Optical transmission method, error rate evaluation method applied in
optical transmission and apparatus for generating a signal for error
rate evaluation
    • 光传输方法,光传输中使用的误码率评估方法以及用于产生用于错误率评估的信号的装置
    • US6118479A
    • 2000-09-12
    • US235486
    • 1999-01-22
    • Kazuki MaedaKuniaki UtsumiSusumu Morikura
    • Kazuki MaedaKuniaki UtsumiSusumu Morikura
    • H04J14/02H04L1/20H04N7/22H04N17/00H04B17/00H04K1/10H04L23/02
    • H04N7/22H04L1/20H04N17/00H04J14/0298
    • In FIG. 5, a plurality of signal sources 21.sub.1 to 21.sub.N each generate a carrier with different frequencies. A pulse signal generating portion 23 generates a pulse signal with the same period and time width as those of a horizontal synchronizing signal in NTSC system color television broadcasting. Delay devices 32.sub.1 to 32.sub.N delay timing of the pulse signal for a randomly predetermined delay amount. Level adjuster 52.sub.1 to 52.sub.N generate a modulating signal by adjusting each pulse base of the delayed pulse signal for a level within a range between 12.5% and 74.375% with respect to a pulse top. Modulators 42.sub.1 to 42.sub.N output a signal obtained by modulating the carrier with the modulating signal. A multiplex portion 24 multiplexes the modulated signals to output a resultant signal as a test signal. The error rate of a QAM signal is evaluated with the test signal. It is therefore possible to evaluate the error rate of the QAM signal in a signal state approximate at the maximum to a state of an actual AM video signal (that is, analogous distribution characteristics of the multiplex signal amplitude). In the error rate evaluation method according to an embodiment of the present invention, it is thus possible to accurately evaluate the error rate of the QAM signal under the strictest conditions, which may occur in the actual, AM video signal, thereby ensuring the reliability of the entire CATV system.
    • 在图 如图5所示,多个信号源211〜21N分别生成不同频率的载波。 脉冲信号生成部23生成与NTSC制彩色电视广播中的水平同步信号相同的周期和时间宽度的脉冲信号。 延迟装置321至32N延迟脉冲信号的定时以随机预定的延迟量。 电平调节器521至52N通过相对于脉冲顶部调整在12.5%至74.375%之间的范围内的电平来调节延迟脉冲信号的每个脉冲基,产生调制信号。 调制器421至42N输出通过调制信号调制载波获得的信号。 复用部分24复用调制信号以输出结果信号作为测试信号。 用测试信号评估QAM信号的误码率。 因此,可以以最大到实际AM视频信号的状态(即,复用信号幅度的类似分布特性)近似的信号状态来评估QAM信号的误码率。 在根据本发明的实施例的错误率评估方法中,因此可以在实际的AM视频信号中可能发生的最严格条件下准确地评估QAM信号的错误率,从而确保可靠性 整个CATV系统。