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    • 3. 发明授权
    • Method and apparatus for sub-band coding and decoding
    • 用于子带编码和解码的方法和装置
    • US06625574B1
    • 2003-09-23
    • US09645326
    • 2000-08-25
    • Shohei TaniguchiYutaka Banba
    • Shohei TaniguchiYutaka Banba
    • G10L1902
    • G10L19/0208
    • An input digital audio signal is divided into sub-band signals in respective sub-bands. Scale factors of the respective sub-bands are determined on the basis of the sub-band signals for every frame. Calculation is made as to differences between the determined scale factors for a first frame and the determined scale factors for a second frame preceding the first frame. Absolute values of the calculated scale-factor differences are calculated, and data representative of the calculated absolute values are generated. The data representative of the calculated absolute values are encoded into data of a Huffman code. Sign bits are generated which represent signs of the calculated scale-factor differences. The sub-band signals are quantized in response to the determined scale factors for every frame to generate quantized samples of the sub-band signals. The Huffman-code data, the generated sign bits, and the quantized samples of the sub-band signals are combined into a bit stream.
    • 输入数字音频信号被分成各子带中的子带信号。 基于每帧的子带信号确定各子带的比例因子。 对于第一帧的确定的比例因子与在第一帧之前的第二帧的确定的比例因子之间的差异进行计算。 计算出计算出的比例因子差的绝对值,生成表示计算出的绝对值的数据。 表示计算的绝对值的数据被编码为霍夫曼码的数据。 生成表示计算的比例因子差异的符号的符号位。 响应于每个帧的确定的比例因子对子带信号进行量化,以产生子带信号的量化样本。 霍夫曼码数据,生成的符号位和子带信号的量化样本被组合成比特流。
    • 4. 发明申请
    • MASSAGE APPARATUS
    • 按摩器具
    • US20100137761A1
    • 2010-06-03
    • US12598879
    • 2007-08-03
    • Shohei Taniguchi
    • Shohei Taniguchi
    • A61H15/00
    • A61H7/00A61H2201/0149A61H2201/5025A61H2201/5061A61H2201/5064A61H2201/5069
    • A massage apparatus in this invention comprises a massage mechanism, an actuator, and a controller. The massage mechanism has at least three rotational or translational joints to which an applicator is connected for contact with a human body. The actuator is configured to drive each of the joints independently from each other. The displacement detection means is configured to detect a displacement of each of the joints. The controller is provided for controlling the actuators. The controller is configured to provide a predetermined trace control plane. The controller comprises a position control means and a force control means. The position control means is provided for controlling a tracing path of the applicator in the trace control plane. The force control means is provided for controlling a force exerted by the applicator in a normal direction to the trace control plane.
    • 本发明的按摩器具包括按摩机构,致动器和控制器。 按摩机构具有至少三个旋转或平移接头,施用器连接到该接合器以与人体接触。 致动器构造成彼此独立地驱动每个接头。 位移检测装置被构造成检测每个关节的位移。 控制器用于控制致动器。 控制器被配置为提供预定的跟踪控制平面。 控制器包括位置控制装置和力控制装置。 位置控制装置被设置用于控制跟踪控制平面中的施加器的跟踪路径。 力控制装置用于控制施加器沿与轨迹控制平面正交的方向施加的力。
    • 5. 发明授权
    • Radio signal receiving apparatus and radio signal receiving method
    • 无线电信号接收装置和无线电信号接收方法
    • US07336936B2
    • 2008-02-26
    • US10452443
    • 2003-06-02
    • Shohei Taniguchi
    • Shohei Taniguchi
    • H04B3/033
    • H04B7/082H04B7/0888
    • Herein disclosed is a radio signal receiving apparatus for receiving radio signals each having a base band signal component, comprising: radio signal amplifying means for amplifying the radio signals each having a signal level; base band signal producing means for producing base band signals respectively indicative of the base band signal components of the radio signals amplified by the radio signal amplifying means, the base band signals each having a signal level; controlling means for controlling the radio signal amplifying means to have the radio signal amplifying means amplify the radio signals in response to the signal level of each of the base band signals to be produced by the base band signal producing means; base band signal selecting means for periodically selecting one of the base band signals from among the base band signals produced by the base band signal producing means in response to the signal level of each of the radio signals; and base band signal outputting means for outputting the base band signal periodically selected by the base band signal selecting means to an exterior device.
    • 这里公开了一种用于接收各自具有基带信号分量的无线电信号的无线电信号接收装置,包括:无线电信号放大装置,用于放大每个具有信号电平的无线电信号; 基带信号产生装置,用于产生分别指示由无线电信号放大装置放大的无线电信号的基带信号分量的基带信号,每个信号电平的基带信号; 用于控制无线电信号放大装置的控制装置,使得无线电信号放大装置响应于由基带信号产生装置产生的每个基带信号的信号电平放大无线电信号; 基带信号选择装置,用于响应于每个无线电信号的信号电平,周期性地从基带信号产生装置产生的基带信号中选择一个基带信号; 以及基带信号输出装置,用于将由基带信号选择装置周期性选择的基带信号输出到外部装置。
    • 7. 发明申请
    • DELIVERY MANAGEMENT METHOD
    • 交货管理方法
    • US20140297555A1
    • 2014-10-02
    • US14360582
    • 2011-11-24
    • Yasushi KawanoShohei Taniguchi
    • Yasushi KawanoShohei Taniguchi
    • G06Q10/08
    • G06Q10/0837
    • To provide a delivery management method that is based on resource conservation, energy conservation, ecology and the like. [Resolution Means] Host computers (10 and 20) that provide the steps of: selecting between a packaging mode using a cardboard box and a packaging mode using a return box that goes back and forth between a delivery destination and a product delivery center without the use of the cardboard box with regards to the packaging of a product when an order for a product is received from a terminal device (S103); assigning a return box and a pickup location of a delivery company in a zone that includes the delivery destination of the product when the packaging mode using the return box is selected using a selection screen (S111); stowing the product in the assigned return box at the product delivery center (S115); delivering the return box from the product delivery center (S116); and returning the return box to the product delivery center after the return box has been delivered (S119).
    • 提供基于资源节约,节能,生态等方面的交付管理方法。 [解决方法]主机(10和20)提供以下步骤:使用纸板箱的包装模式和包装模式之间进行选择,使用在送货目的地和产品交付中心之间来回转换的包装模式,而不需要 当从终端装置接收到产品的订购时,使用纸板盒关于产品的包装(S103); 当使用选择屏幕选择使用返回箱的包装模式时,在包括产品的传送目的地的区域中分配传送公司的返回箱和拾取位置(S111); 将产品放在产品交付中心的指定回程箱中(S115); 从产品交付中心交付退货箱(S116); 并在退货箱交付后将退货箱退回产品交付中心(S119)。
    • 8. 发明授权
    • Time division multiplexing radio system for controlling transmission power
    • 时分复用无线电系统,用于控制发射功率
    • US07496063B2
    • 2009-02-24
    • US09879077
    • 2001-06-13
    • Kazuya TokiShohei Taniguchi
    • Kazuya TokiShohei Taniguchi
    • H04B7/185
    • H04W52/16H03F1/32H03G3/3047H04B1/0475H04B17/354H04B2001/0416H04W52/24
    • A time-division multiplexing radio system controls transmission power based on an adjacent-channel leakage power ratio with precision and stability. The system has a directional coupler arranged at an output stage of a power amplifier in a transmitter and that has outputs directed to an antenna and a receiver, and a reception RF switch arranged at an input stage of a frequency converter in a receiver and that has inputs directed to the antenna and the coupler. Under transmission, the switch is switched over to the coupler so that the receiver receives the present channel to detect transmission power thereof. Also the receiver is set to receive an adjacent channel under transmission, so that adjacent-channel leakage power is detected. Based on those pieces of detected information, the ratio is calculated. To make the power ratio meet a specified condition, the transmission power of the transmitter is controlled.
    • 时分复用无线电系统以精确和稳定的方式控制基于相邻信道泄漏功率比的传输功率。 该系统具有布置在发射机中的功率放大器的输出级的定向耦合器,并且具有定向到天线和接收器的输出以及布置在接收器中的变频器的输入级的接收RF开关,并且具有 输入到天线和耦合器。 在传输下,开关切换到耦合器,使得接收器接收当前信道以检测其发射功率。 此外,接收机被设置为接收传输下的相邻信道,从而检测相邻信道泄漏功率。 基于这些检测到的信息,计算该比率。 为了使功率比达到规定的条件,控制发射机的发射功率。
    • 10. 发明授权
    • Wireless microphone system, voice receiving apparatus, and wireless microphone
    • US06987949B2
    • 2006-01-17
    • US10283446
    • 2002-10-30
    • Shohei TaniguchiKenji Matsumoto
    • Shohei TaniguchiKenji Matsumoto
    • H04B15/00
    • H04R1/083H04R3/005H04R2420/07
    • Herein disclosed is a wireless microphone system comprising a plurality of wireless microphones each having a microphone storage area having a unique global identification element stored therein, each of the wireless microphones operative to collect a voice, convert the voice thus collected into an audio signal, and transmit the audio signal and the global identification element; and a voice receiving apparatus for receiving the audio signal and the global identification element from a wireless microphone. The voice receiving apparatus includes a storage section for storing an identification table including a plurality of local identification elements in association with a plurality of global identification elements. The voice receiving apparatus is operative to assign a local identification element to the wireless microphone in accordance with the global identification element with reference to the identification table stored in the storage section, and transmit the local identification element to the wireless microphone, and the wireless microphone is operative to receive the local identification element, store the local identification element in the microphone storage area, and communicate with the voice receiving apparatus with the local identification element thus stored.