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    • 1. 发明授权
    • Method and apparatus for stabilizing communication in mobile communication system
    • 用于稳定移动通信系统中的通信的方法和装置
    • US06760588B2
    • 2004-07-06
    • US09748260
    • 2000-12-27
    • Ichiro OkajimaNarumi UmedaYoshifumi SuzukiYasushi Yamao
    • Ichiro OkajimaNarumi UmedaYoshifumi SuzukiYasushi Yamao
    • H04Q720
    • H04B7/022H04B7/026H04W92/20
    • A mobile communication system includes a plurality of base stations in a communication service area connected to a packet communications network. A mobile station communicates with a second station through the plurality of base stations and the network. The mobile communication system determines a virtual base station group as an aggregation of the plurality of base stations communicating with the mobile station, based on a condition of a radio transmission path between the mobile station and each base station, and combines information received by the plurality of base stations that belong to the virtual base station group at a base station included in the virtual base station group. The network connects the plurality of base stations non-hierarchically and the base station transmits combined information to the second station through the network relative to combined packets having the second station as a destination.
    • 移动通信系统包括连接到分组通信网络的通信服务区域中的多个基站。 移动站通过多个基站和网络与第二站通信。 移动通信系统基于移动台与各基站之间的无线传输路径的条件,将虚拟基站组确定为与移动台通信的多个基站的汇聚,并组合由多个基站接收的信息 在虚拟基站组中包括的基站处属于虚拟基站组的基站。 网络非层次地连接多个基站,并且基站相对于具有第二台站的目的地的组合分组,通过网络将组合信息发送到第二站。
    • 3. 发明申请
    • Aquarium purifier and aquarium purification method
    • 水族馆净化器和水族箱净化方法
    • US20080006576A1
    • 2008-01-10
    • US11819585
    • 2007-06-28
    • Yoshifumi SuzukiKenji HoritsuYoshio Chiyoda
    • Yoshifumi SuzukiKenji HoritsuYoshio Chiyoda
    • A01K63/04C02F3/02
    • A01K63/042A01K63/045C02F3/06C02F3/302Y02W10/15
    • The aquarium purifier of the invention includes a microaerophilic treatment tank and an aerobic treatment tank which microbiologically treat discharged water from an aquarium. Air in the discharged water is naturally deaerated in an introduction passage for the discharged water of the aquarium, the introduction passage communicating with the microaerophilic treatment tank. The discharged water of the aquarium is introduced from a lower section of the microaerophilic treatment tank. The microaeorphilic treatment tank and the aerobic treatment tank both are stored in an outer case. The microaerophilic treatment tank is provided with a culture bed container for denitrifiers placed therein and the aerobic treatment tank is provided with a pH control materials container placed therein. Above those, a physical filtering medium container for an ion exchange material is placed. The outer case is covered with a cover.
    • 本发明的水族净化器包括微生物处理槽和微生物处理来自水族箱的排出水的需氧处理槽。 排出水中的空气在用于水族箱的排出水的引入通道中自然脱气,导入通道与微生物处理槽连通。 水族箱的排出水从微生物处理槽的下部引入。 微晶化处理槽和好氧处理槽均存放在外壳中。 微生物处理槽设置有放置在其中的脱氮器的培养床容器,并且好氧处理槽中设置有pH控制材料容器。 在这些之上,放置用于离子交换材料的物理过滤介质容器。 外壳用盖子覆盖。
    • 5. 发明授权
    • Generating inviscid and viscous fluid flow simulations over a surface using a quasi-simultaneous technique
    • 使用准同步技术在表面上产生无粘性和粘性流体流动模拟
    • US08892408B2
    • 2014-11-18
    • US13070384
    • 2011-03-23
    • Peter SturdzaHerve Martins-RivasYoshifumi Suzuki
    • Peter SturdzaHerve Martins-RivasYoshifumi Suzuki
    • G06F7/60G06F17/10G06F17/50
    • G06F17/5018G06F2217/16
    • A fluid-flow simulation over a computer-generated surface is generated using a quasi-simultaneous technique. The simulation includes a fluid-flow mesh of inviscid and boundary-layer fluid cells. An initial fluid property for an inviscid fluid cell is determined using an inviscid fluid simulation that does not simulate fluid viscous effects. An initial boundary-layer fluid property a boundary-layer fluid cell is determined using the initial fluid property and a viscous fluid simulation that simulates fluid viscous effects. An updated boundary-layer fluid property is determined for the boundary-layer fluid cell using the initial fluid property, initial boundary-layer fluid property, and an interaction law. The interaction law approximates the inviscid fluid simulation using a matrix of aerodynamic influence coefficients computed using a two-dimensional surface panel technique and a fluid-property vector. An updated fluid property is determined for the inviscid fluid cell using the updated boundary-layer fluid property.
    • 使用准同步技术生成计算机生成的表面上的流体流动模拟。 该模拟包括一个非粘性和边界层流体细胞的流体流动网。 使用不模拟流体粘性效应的非粘性流体模拟来确定非粘性流体池的初始流体性质。 使用初始流体性质和模拟流体粘性效应的粘性流体模拟来确定边界层流体池的初始边界层流体性质。 使用初始流体性质,初始边界层流体性质和相互作用定律为边界层流体池确定更新的边界层流体性质。 相互作用定律近似于使用二维表面面板技术和流体特性向量计算的空气动力学影响系数矩阵的非粘性流体模拟。 使用更新的边界层流体属性为粘性流体池确定更新的流体性质。
    • 8. 发明授权
    • Modulation and demodulation method, modulator and demodulator
    • 调制解调方式,调制解调器
    • US5818875A
    • 1998-10-06
    • US627084
    • 1996-04-03
    • Yoshifumi SuzukiTadashi Shirato
    • Yoshifumi SuzukiTadashi Shirato
    • H04L27/34H04L1/06H04L27/02H04L27/32H04L27/36H04L27/38H04L5/12
    • H04L27/02H04L1/06H04L27/32H04L27/389
    • A modulation and demodulation method for communication between a transmitting side and a receiving side includes a step of at the transmitting side, producing a modulating signal, an amplitude ratio of a current instantaneous amplitude of the modulating signal and an instantaneous amplitude at n symbols previously in time (n is a natural number) of the modulating signal being set to correspond to a code to be transmitted, a step of at the transmitting side, modulating a carrier with a radio frequency or an intermediate frequency by the modulating signal to provide and transmit a modulated signal, a step of at the receiving side, receiving the transmitted modulated signal to provide a received signal, and a step of at the receiving side, deciding the transmitted code from an amplitude ratio of an instantaneous amplitude of a signal point in a signal space and an instantaneous amplitude of the signal point in the signal space n symbols previously in time with respect to the received signal. A first amplitude ratio value equal to or smaller than 1 and a second amplitude ratio value equal to or greater than 1 are prepared. The amplitude ratio is selected one of the first and second amplitude values so as to prevent the modulating signal from converging to zero and from diverging.
    • 用于发送侧和接收侧之间的通信的调制和解调方法包括在发送侧产生调制信号,调制信号的当前瞬时幅度的幅度比和先前在n个符号的瞬时振幅的步骤 调制信号的时间(n是自然数)被设置为对应于要发送的码,在发送侧的步骤,通过调制信号调制具有射频或中频的载波以提供和发送 调制信号,接收侧的步骤,接收所发送的调制信号以提供接收信号;以及接收侧的步骤,根据信号点的瞬时振幅的幅度比来确定发送的码 信号空间和相对于接收到的符号在时间上的信号空间中的信号点的瞬时振幅 al。 准备等于或小于1的第一幅度比值和等于或大于1的第二幅度比值。 振幅比选择第一和第二振幅值之一,以防止调制信号收敛到零和发散。