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    • 1. 发明申请
    • IMAGING APPARATUS
    • 成像设备
    • US20110135273A1
    • 2011-06-09
    • US12961704
    • 2010-12-07
    • Katsumi WATANABE
    • Katsumi WATANABE
    • H04N9/80
    • H04N5/772G11B20/10527G11B20/12G11B2020/10537G11B2220/41H04N5/907H04N9/8205
    • An imaging apparatus includes an image unit, a video recording medium configured to store video data generated by the imaging unit, and a controller configured to control recording of the video data in the video recording medium. The video recording medium includes a first recording medium having a data area in which data can be recorded, and at least one second recording medium having first and second data areas in which data can be recorded. The second data area can be written data at a higher speed than a speed for writing data in the first data area. The controller records video data and management data for managing the video data in the first recording medium, using whole data area of the first recording medium. The controller records video data in the second recording medium, using only the second data area of the second recording medium.
    • 一种成像装置包括图像单元,被配置为存储由该成像单元生成的视频数据的视频记录介质,以及控制器,被配置为控制视频数据在视频记录介质中的记录。 视频记录介质包括具有其中可以记录数据的数据区域的第一记录介质,以及具有其中可以记录数据的第一和第二数据区域的至少一个第二记录介质。 可以以比用于在第一数据区域中写入数据的速度更高的速度来写入第二数据区域。 控制器使用第一记录介质的整个数据区记录用于管理第一记录介质中的视频数据的视频数据和管理数据。 控制器仅使用第二记录介质的第二数据区在第二记录介质中记录视频数据。
    • 2. 发明申请
    • HIGH-PRESSURE TREATMENT APPARATUS
    • 高压处理设备
    • US20110030186A1
    • 2011-02-10
    • US12988680
    • 2009-06-05
    • Masahiro YamagataKatsumi Watanabe
    • Masahiro YamagataKatsumi Watanabe
    • B23P17/00
    • B01J3/03B01J3/008B01J3/04B01J2219/00094B01J2219/00162B08B7/0021B30B11/002F27B17/0016Y10T29/49805
    • The objective is to provide a high-pressure treatment apparatus with which the pressure or temperature in a treatment chamber can be efficiently adjusted in a short period of time without an overall significant increase in the size or complication of the apparatus. The high-pressure treatment apparatus has a pressure-resistant container having pressure-resistant walls surrounding a treatment chamber, a lid member that closes an open end of the pressure-resistant container, a supply means that supplies a process fluid into the treatment chamber, a partition wall that is thinner than the pressure-resistant wall and is provided along the inside surface of said pressure-resistant container to form a partitioned chamber with said inside surface, and a heat transfer control means. Said heat transfer control means controls heat transfer between said treatment chamber and said partitioned chamber by heating or cooling a heating medium outside the container and feeding said heating medium into said partitioned chamber.
    • 目的是提供一种高压处理设备,其中可以在短时间内有效地调节处理室中的压力或温度,而不会显着增加设备的尺寸或复杂性。 高压处理装置具有耐压性容器,该耐压容器具有围绕处理室的耐压壁,封闭耐压容器的开口端的盖构件,将处理流体供给到处理室的供给单元, 分隔壁比所述耐压壁更薄,并且沿着所述耐压容器的内表面设置以形成具有所述内表面的分隔室,以及传热控制装置。 所述传热控制装置通过加热或冷却容器外部的加热介质并将所述加热介质供入所述分隔室来控制所述处理室和所述分隔室之间的热传递。
    • 5. 发明申请
    • Wireless Communication Apparatus and Method Thereof
    • 无线通信装置及其方法
    • US20080152056A1
    • 2008-06-26
    • US11948896
    • 2007-11-30
    • Katsumi Watanabe
    • Katsumi Watanabe
    • H04L7/04
    • H04L27/227H04L2027/0036
    • A wireless communication apparatus for performing reception processing while tracking a symbol timing obtained by synchronization, the wireless communication apparatus includes a resampler for performing resampling to oversample a received symbol in a plurality of phases by using a sampling rate higher than a symbol rate, a phase-error detector for obtaining a phase error in a time sequence at each of sampling points where the resampling is performed, an error-signal generator for generating an error signal on the basis of the phase error detected at each of the sampling points where the resampling is performed, and a sampling point controller for detecting an offset direction at each of the sampling points on the basis of the error signal and for controlling an offset direction of each of the sampling points of the received symbol.
    • 一种用于在跟踪通过同步获得的符号定时的同时执行接收处理的无线通信装置,所述无线通信装置包括:重采样器,用于通过使用高于符号率的采样率来执行重采样以对多个相位中的接收符号进行过采样,相位 误差检测器,用于在进行重采样的每个采样点处获得时间序列中的相位误差;误差信号发生器,用于基于在采样点的每个采样点处检测到的相位误差产生误差信号, 以及采样点控制器,用于基于误差信号检测每个采样点处的偏移方向,并用于控制接收符号的每个采样点的偏移方向。
    • 6. 发明申请
    • Radio Communication Device
    • 无线电通信设备
    • US20080152050A1
    • 2008-06-26
    • US11958161
    • 2007-12-17
    • Katsumi Watanabe
    • Katsumi Watanabe
    • H04L27/06
    • H04B1/0025
    • Disclosed herein is a radio communication device configured to perform baseband processing by subjecting a received signal to an AD conversion at a predetermined sampling frequency and converting a digital signal resulting from the AD conversion into a baseband signal by frequency conversion, the radio communication device including: a frequency converting unit configured to convert the digital signal resulting from the AD conversion into a complex baseband signal at a frequency f2 having a relation such that a ratio of the sampling frequency Fs at a time of the AD conversion to the frequency f2 is one of a ratio of 4 to 1 and a ratio of 4 to 3; a waveform shaping unit configured to subject the baseband signal to waveform shaping; and a down-sampling unit configured to subject the baseband signal to sample discrete reduction taking one sample in N′ (=N/2) samples, using a relation such that a ratio of a band occupied by the baseband signal to the sampling frequency Fs is 1 to N (N is an even number of two or more).
    • 这里公开了一种无线电通信装置,其被配置为通过使接收到的信号以预定的采样频率进行AD转换并通过频率转换将从AD转换得到的数字信号转换为基带信号来执行基带处理,该无线电通信装置包括: 频率转换单元,被配置为将从AD转换得到的数字信号转换为频率f 2 2的复基带信号,其具有使得采样频率F S / 在AD转换到频率f 2时,SUB>是4比1和4比3之一; 波形整形单元,被配置为对所述基带信号进行波形整形; 以及下采样单元,被配置为使用所述基带信号对N'(= N / 2)采样中的一个采样进行采样离散衰减,使用这样的关系,使得所述基带信号占据的带的比率与采样频率F 是1到N(N是偶数2或更多)。
    • 8. 发明申请
    • RANGING AND POSITIONING SYSTEM, RANGING AND POSITIONING METHOD, AND RADIO COMMUNICATION APPARATUS
    • 范围和定位系统,定位和定位方法和无线电通信装置
    • US20070099646A1
    • 2007-05-03
    • US11563959
    • 2006-11-28
    • Katsuyuki TanakaMitsuhiro SuzukiShin SaitoKatsumi Watanabe
    • Katsuyuki TanakaMitsuhiro SuzukiShin SaitoKatsumi Watanabe
    • H04B7/00H04Q7/20
    • H04W64/00G01S5/0221G01S5/0289G01S13/76G01S13/87
    • A system and method for performing ranging and positioning as follows by using the procedure for packet transmission and reception between a sender and a recipient. A first radio set transmits packets to a second radio set as a recipient. The second radio set returns the packets without fail after the lapse of time (from the detection of packets) which corresponds to an integral multiple of a prescribed unit time. The first radio set counts, by using its counter, the time which has elapsed from its transmission of packets to its detection of packets from the second radio set. The remainder of the thus counted time after subtraction of the time taken by the second radio set from packet detection to packet return and the processing time of the first radio set itself is converted into the distance of propagation between the first radio set and the second radio set as a recipient.
    • 通过使用发送方和接收方之间的分组发送和接收的过程来执行如下的测距和定位的系​​统和方法。 第一无线电设备将分组发送到作为接收者的第二无线电设备。 第二无线电设备在经过时间(从分组的检测)之后返回分组,这对应于规定的单位时间的整数倍。 第一个无线电设备通过使用其计数器来计数从其传输数据包到从第二个无线电设备检测数据包所经过的时间。 在将第二无线电设备从分组检测到分组返回所消耗的时间和第一无线电设备本身的处理时间减去之后的计数时间的其余部分被转换为第一无线电设备和第二无线电设备之间的传播距离 设为收件人
    • 9. 发明授权
    • Transmission method, transmitter, reception method, and receiver
    • 传输方式,发射机,接收方式和接收机
    • US07162213B2
    • 2007-01-09
    • US10764448
    • 2004-01-27
    • Katsumi WatanabeSachio IidaMitsuhiro Suzuki
    • Katsumi WatanabeSachio IidaMitsuhiro Suzuki
    • H04B1/04
    • H04B1/7176H04B1/40H04B1/71635H04B1/71637
    • For the purpose of efficient transmission based on the UWB system, first and second baseband waveforms are generated at a cycle equivalent to an integral multiple of a carrier to have a specified phase difference from each other. The first baseband waveform is multiplied by the carrier and a first transmission data sequence to acquire a first transmission waveform. The second baseband waveform is multiplied by a phase shifted carrier and a second transmission data sequence to acquire a second transmission waveform. The first transmission waveform is mixed with the second transmission waveform to acquire a transmission signal. The transmission signal is transmitted as a π/2 shift BPSK signal to transmit a UWB signal. Selecting the baseband waveforms and the carrier makes it possible to configure the transmission band and easily provide division multiplexing transmission.
    • 为了基于UWB系统的有效传输的目的,第一和第二基带波形以等于载波的整数倍的周期产生,以具有指定的相位差。 将第一基带波形乘以载波和第一传输数据序列以获取第一传输波形。 将第二基带波形与相移载波和第二发送数据序列相乘以获取第二发送波形。 第一传输波形与第二传输波形混合以获取传输信号。 发送信号作为pi / 2移位BPSK信号发送以发送UWB信号。 选择基带波形和载波使得可以配置传输频带并轻松提供分路复用传输。