公开(公告)号：US20130314215A1

公开(公告)日：2013-11-28

申请号：US13953201

申请日：2013-07-29

申请人： Hitoshi KITAYOSHI

发明人： Hitoshi KITAYOSHI

IPC分类号： G06K7/10

CPC分类号： G06K7/10009 ,  G06K19/07749 ,  H04B5/02

摘要： An RF tag system is provided, in which in addition to a method of easily sending back MPSK modulated sub-carrier signals on the RF tag side, communication protocols and circuit systems for accurately demodulating modulated waves on the RF tag reader side can be implemented, data transmission from an RF tag to an RF tag reader can be realized over a long operating distance at high speed, and an RF tag can be operated for a long lifetime.

摘要翻译： 提供了一种RF标签系统，其中除了在RF标签侧容易地发送MPSK调制的子载波信号的方法之外，还可以实现用于在RF标签读取器侧准确解调调制波的通信协议和电路系统， 可以在高速的长操作距离上实现从RF标签到RF标签读取器的数据传输，并且可以长时间地操作RF标签。

公开(公告)号：US20100245052A1

公开(公告)日：2010-09-30

申请号：US12530225

申请日：2008-03-04

申请人： Hitoshi Kitayoshi

发明人： Hitoshi Kitayoshi

IPC分类号： G08C19/28

CPC分类号： G06K7/10009 ,  G06K19/07749 ,  H04B5/02

摘要： An RF tag system is provided, in which in addition to a method of easily sending back MPSK modulated sub-carrier signals on the RF tag side, communication protocols and circuit systems for accurately demodulating modulated waves on the RF tag reader side can be implemented, data transmission from an RF tag to an RF tag reader can be realized over a long operating distance at high speed, and an RF tag can be operated for a long lifetime.

摘要翻译： 提供了一种RF标签系统，其中除了在RF标签侧容易地发送MPSK调制的子载波信号的方法之外，还可以实现用于在RF标签读取器侧准确解调调制波的通信协议和电路系统， 可以在高速的长操作距离上实现从RF标签到RF标签读取器的数据传输，并且可以长时间地操作RF标签。

公开(公告)号：US06347060B1

公开(公告)日：2002-02-12

申请号：US09675506

申请日：2000-09-29

申请人： Hitoshi Kitayoshi

发明人： Hitoshi Kitayoshi

IPC分类号： G11C700

CPC分类号： G03H3/00

摘要： Scanning sensor scans on a circumference and simultaneously a radiation wave is received by scanning sensor to generate received signal Sm(f). A radiation wave is received by a fixed sensor at a position not changed with respect to the center of a circle with the circumference to generate received signal Sr(f). The received signal Sm(f) is made to interfere with the received signal Sr(f) to acquire an interference signal. The interference signal is detected to obtain measured data E(r,&phgr;) at each point on the circumference. Also, evaluation data V(&phgr;′) is calculated to estimate a direction of the radiation wave based on measured data E(r,&phgr;) at each point. A multi-dimensional hologram data processing apparatus consists of N-dimensional data array memory, N-dimensional flag array memory, N-dimensional array address generating unit, and digital signal processing unit. N-dimensional data array memory is written with N-dimensional array data; N-dimensional flag array memory is written with N-dimensional array flag values; N-dimensional array address generating unit generates addresses for the N-dimensional array data; and digital signal processing unit controls N-dimensional array address generating unit, executes an algorithm, and outputs a peak point detection value and an area detection value.

摘要翻译： 在圆周上扫描传感器扫描，同时通过扫描传感器接收辐射波，以产生接收信号Sm（f）。 辐射波由固定的传感器在相对于具有圆周的圆的中心没有变化的位置处接收以产生接收信号Sr（f）。 使接收信号Sm（f）与接收信号Sr（f）干涉以获取干扰信号。 检测干涉信号以获得圆周上每个点处的测量数据E（r，phi）。 此外，计算评估数据V（phi'），以基于每个点处的测量数据E（r，phi）来估计辐射波的方向。 多维全息图数据处理装置由N维数据阵列存储器，N维标记阵列存储器，N维阵列地址生成单元和数字信号处理单元组成。 N维数据阵列存储器用N维阵列数据写入; N维标志阵列存储器用N维数组标志值写入; N维阵列地址生成单元生成N维阵列数据的地址; 数字信号处理单元控制N维阵列地址生成单元，执行算法，并输出峰值检测值和区域检测值。

公开(公告)号：US5974178A

公开(公告)日：1999-10-26

申请号：US942614

申请日：1997-10-02

申请人： Hitoshi Kitayoshi

发明人： Hitoshi Kitayoshi

IPC分类号： G01R13/40 ,  G01R29/08 ,  G06K9/76 ,  G06K9/36

CPC分类号： G01R29/08 ,  G01R13/408 ,  G03H5/00

摘要： The reconstruction region of a hologram reconstructed image is segmented. A fast Fourier transform (FFT) is carried out after multiplying the hologram measurement data V(R) by a weighting function. A fast Fourier transform (FFT) is carried out after multiplying the antenna sensitivity inverse matrix A.sup.-1 (R'.sub.a,b) for each segment by inverse propagation function r'.sub.a,b exp(j2.pi.r'.sub.a,b /.lambda.) to find B.sup.-1.sub.a,b (s, t), and then multiplying this by a weighting function. After the two FFT outputs are multiplied by each other, inverse fast Fourier transform (IFFT) is carried out. Compensation is performed for the weighting function and the output is made the segment reconstructed image. In addition, radio hologram observation is carried out at two scan surfaces, a horizontal polarization antenna and a vertical polarization antenna are placed at each scan surface, and the voltage vector distribution received by the antennas is stored. The sizes of the error of the reception antenna sensitivity matrix of the vertical polarization reception antenna and the error of the reception antenna sensitivity matrix of the horizontal polarization reception antenna are found, and the received voltage vectors and reception antenna sensitivity inverse matrices are selectively used to find and visualize the three wavesource current vector components.

摘要翻译： 分割全息图重建图像的重建区域。 在将全息图测量数据V（R）乘以加权函数之后，执行快速傅里叶变换（FFT）。 在通过反向传播函数r'a，bexp（j2 pi r'a，b / lambda）对每个段乘以天线灵敏度逆矩阵A-1（R'a，b）之后，执行快速傅立叶变换（FFT） 找到B-1a，b（s，t），然后将其乘以加权函数。 在两个FFT输出彼此相乘之后，执行快速傅立叶逆变换（IFFT）。 对加权函数执行补偿，并将输出作为段重构图像。 此外，在两个扫描面进行无线电全息图观察，在每个扫描表面放置水平极化天线和垂直极化天线，并且存储由天线接收的电压矢量分布。 发现垂直极化接收天线的接收天线灵敏度矩阵的误差大小和水平极化接收天线的接收天线灵敏度矩阵的误差，并且接收电压矢量和接收天线灵敏度逆矩阵被选择性地用于 找到并可视化三个波源电流矢量分量。

公开(公告)号：US5752167A

公开(公告)日：1998-05-12

申请号：US716289

申请日：1996-12-18

申请人： Hitoshi Kitayoshi

发明人： Hitoshi Kitayoshi

IPC分类号： G01R19/10 ,  H01Q3/08 ,  H04B17/00

CPC分类号： H01Q3/08

摘要： Radio waves having frequencies f.sub.1 and f.sub.2 are radiated to the premises where a wireless LAN is to be constructed. The radio waves of f.sub.1 and f.sub.2 are received by an antenna for scanning the observation plane and a fixed antenna, respectively. Then, the radio wave holograms of the respective radio waves are produced, from which are constructed radio wave source images separated into respective paths. The difference between these source images is found, and then the amplitude and the delay for each path are found. A propagation time response function x(t) of each path is found from the corresponding amplitude, delay and the directivity characteristics of the corresponding antenna, and then the real part and the imaginary part of each time response function are convoluted into a modulated carrier wave signal y(t). The convoluted results are multiplied by the in-phase component R.sub.f and the quadrature component R.sub.f.spsb.* of an unmodulated carrier wave, respectively. Then, the multiplied results are summed to obtain a demodulated base band signal .gamma. (t). Also, a radio wave delay time of each secondary radio wave source image to the primary wave source is found. The radio wave source image is re-positioned in a three-dimensional absolute coordinate using the radio wave delay time. At an arbitrary position in the absolute coordinate, the radio waves from the respective radio wave source images are composited to find the strength. Also, a mean delay and a standard deviation of the delay are found from the delay times and the strength attenuations in accordance with the distances to each radio wave source image.

摘要翻译： PCT No.PCT / JP96 / 00110 Sec。 371日期：1996年12月18日 102（e）1996年12月18日PCT PCT 1996年1月23日PCT公布。 WO96 / 23363 PCT出版物 日期1996年8月1日具有频率f1和f2的辐射波被辐射到要构建无线局域网的场所。 f1和f2的无线电波分别由用于扫描观察平面的天线和固定天线接收。 然后，产生各个无线电波的无线电波全息图，从其分离成相应的路径构成的无线电波源图像。 找到这些源图像之间的差异，然后找到每个路径的振幅和延迟。 从相应的天线的相应幅度，延迟和方向性特征中找到每个路径的传播时间响应函数x（t），然后每个时间响应函数的实部和虚部被卷积成调制载波 信号y（t）。 卷积结果分别乘以未调制载波的同相分量Rf和正交分量Rf *。 然后将相乘的结果相加以获得解调的基带信号gamma（t）。 此外，发现每个次级无线电波源图像到主波源的无线电波延迟时间。 使用无线电波延迟时间将无线电波源图像重新定位在三维绝对坐标中。 在绝对坐标的任意位置，来自各个无线电波源图像的无线电波被合成以找到强度。 此外，根据到每个无线电波源图像的距离，从延迟时间和强度衰减中找到延迟的平均延迟和标准偏差。

公开(公告)号：US5656932A

公开(公告)日：1997-08-12

申请号：US371885

申请日：1995-01-12

申请人： Hitoshi Kitayoshi

发明人： Hitoshi Kitayoshi

IPC分类号： G01R29/08 ,  G01R31/312 ,  G01S7/02 ,  G01S7/06 ,  G01S7/20 ,  G01S7/295 ,  G01S13/86 ,  G01S13/87 ,  G01S13/89 ,  G01S15/89 ,  G01R27/28

CPC分类号： G01R29/08 ,  G01R29/0892 ,  G01R31/312 ,  G01S13/89 ,  G01S7/02 ,  G01S7/062 ,  G01S7/20 ,  G01S7/2955 ,  G01S13/87 ,  G01S15/89 ,  G01S7/024 ,  G01S7/068

摘要： A non-contact type wave signal observation apparatus measures transfer functions of a distributed constant network. A signal is input from a network analyzer to the network to be measured. Electromagnetic waves radiated from the network are received at each observation point on an observation plane arranged in a manner facing the network. The received signals are input to the network analyzer. The transfer functions between an input terminal of the network and each observation point are measured by the network analyzer. The measured transfer functions are converted by an inverse-Fresnel transformer and are stored in memories. The stored data is specified by a control unit and is displayed on a display unit. The stored data can be converted by an inverse-Fourier transformer and is displayed on the display unit as waveforms. Further aspect of the apparatus is, by a non-contact method, to measure signals of a distributed constant network, to determine states of electromagnetic wave in the space, to decrease the amount of calculations in a hologram reconstruction process, and to display a complex three dimensional illustration for a holographic radar.

摘要翻译： 非接触型波信号观测装置测量分布常数网络的传递函数。 信号从网络分析仪输入到要测量的网络。 从以网络方式配置的观察平面上的每个观察点接收从网络辐射的电磁波。 接收的信号被输入到网络分析仪。 网络输入端和每个观测点之间的传输函数由网络分析仪测量。 测量的传递函数由逆菲涅尔变换器转换并存储在存储器中。 存储的数据由控制单元指定并显示在显示单元上。 存储的数据可以由傅立叶逆变换变换器转换，并作为波形显示在显示单元上。 该装置的另一方面是通过非接触方式来测量分布式恒定网络的信号，以确定空间中的电磁波的状态，以减少全息图重建过程中的计算量，并显示复合物 全息雷达三维图。

公开(公告)号：US5093627A

公开(公告)日：1992-03-03

申请号：US580539

申请日：1990-09-11

申请人： Hitoshi Kitayoshi

发明人： Hitoshi Kitayoshi

IPC分类号： G01R27/02 ,  G01R27/28

CPC分类号： G01R27/28 ,  G01R27/02

摘要： In an impedance and transfer characteristic measuring apparatus sine-wave and cosine-wave data are produced using data obtained by accumulating a fixed phase value in synchronism with a clock signal and the sine-wave data is provided to a device under test after D-A conversion. Multiplied outputs are obtained by multiplying type D-A converting part which D-A converts the sine-wave data and the cosine-wave data, using two signals related to an item of measurement of the device under test as analog multiply inputs therefor. An intergration control signal of a predetermined level is generated by a signal generating part for the half-cycle period of a sine-wave test signal in synchronism with a measurement start signal. For the period during which the intergration control signal is yielded the multiplied outputs are respectively integrated in an integration circuit part to thereby obtain vector-detected outputs. The detected outputs are A-D converted, and based on the digital detected outputs, a calculating part performs calculations related to the item of measurement.

公开(公告)号：US09379666B2

公开(公告)日：2016-06-28

申请号：US13976578

申请日：2011-12-21

申请人： Hitoshi Kitayoshi ,  Kunio Sawaya

发明人： Hitoshi Kitayoshi ,  Kunio Sawaya

IPC分类号： H04Q5/22 ,  H02M7/06 ,  H03D1/00 ,  H03D1/04 ,  H04L27/02 ,  H04L27/18 ,  G06K7/10 ,  G06K19/07 ,  H04B1/7163

CPC分类号： H03D1/04 ,  G06K7/10009 ,  G06K19/0723 ,  H04B1/7163 ,  H04L27/02 ,  H04L27/18

摘要： In order to implement novel utilization methods, implementation of a low power consumption and high sensitivity RF receiving system is desired. A microwave frequency band stub resonance booster circuit characterized by boosting the amplitude of an RF signal in a passive operation by resonating in series a 0.2 pF to 0.01 pF micro-capacitor element with a λg/2 open stub element to perform impedance conversion of the input RF signal is used. In addition, since a capacitor which has been conventionally inserted in order to repeat charging and discharging of the RF signal by using two diodes becomes useless by putting a DC resonant component of resonant-boosted output into an open state when voltage-doubling and rectifying the resonant-boosted RF signal, rectified output can be obtained and high-sensitivity reception and detection of the RF signal becomes possible without being affected by the capacitor which imparts comparatively large insertion loss.

摘要翻译： 为了实现新的利用方法，期望实现低功耗和高灵敏度的RF接收系统。 一种微波频带短截线共振升压电路，其特征在于通过使用λg/ 2开路短路元件串联0.2pF至0.01pF的微电容器元件，使无源操作中的RF信号的振幅升高，以进行输入的阻抗转换 使用RF信号。 此外，由于为了通过使用两个二极管重复充电和放电RF信号而常规地插入的电容器通过将谐振升压的输出的DC谐振分量放入打开状态而变得无用，当对电压进行倍压和整流时 谐振升压RF信号，可以获得整流输出，并且可以在不受施加相对大的插入损耗的电容器的影响的情况下实现RF信号的高灵敏度接收和检测。

公开(公告)号：US08179263B2

公开(公告)日：2012-05-15

申请号：US10590882

申请日：2005-02-21

申请人： Hitoshi Kitayoshi ,  Kunio Sawaya

发明人： Hitoshi Kitayoshi ,  Kunio Sawaya

IPC分类号： G08B13/14

CPC分类号： H04B1/59 ,  G01S7/023 ,  G01S13/765 ,  G01S13/79 ,  G06K19/0723 ,  G06K19/07749 ,  G06K19/07786 ,  H01Q1/2208 ,  H01Q1/248 ,  H01Q1/38 ,  H01Q9/065 ,  H01Q9/16 ,  H01Q23/00 ,  H02J17/00 ,  H02J50/27 ,  H02J50/40 ,  H02J50/60 ,  H02J50/90

摘要： The present invention aims to overcome the drawback with conventional RFID tag devices having a short communication range, and expand the communication range to several times or more that in the conventional scheme. The conventional scheme is based on equilibrium feeding/equilibrium modulation (a two-terminal circuit for antenna operation), whereas the present invention is based on disequilibrium feeding/equilibrium modulation (a three-terminal circuit for antenna operation). The conventional scheme is based on simple rectification of received RF signals, whereas the present invention employs a circuit based on a combination of a stub resonance-based, impedance transformation boosting scheme and a ladder boosting scheme. The conventional scheme is based on ASK or BPSK modulation, whereas the present invention is based on passive modulation, but can employ a QPSK modulation circuit.

摘要翻译： 本发明旨在克服具有短通信范围的常规RFID标签设备的缺点，并且将通信范围扩展到常规方案中的几倍或更多。 常规方案是基于均衡进给/平衡调制（用于天线操作的两端电路），而本发明基于不平衡馈电/平衡调制（用于天线操作的三端电路）。 常规方案是基于接收的RF信号的简单整流，而本发明采用基于短截线谐振，阻抗变换增强方案和梯形升压方案的组合的电路。 常规方案基于ASK或BPSK调制，而本发明基于无源调制，但可采用QPSK调制电路。

公开(公告)号：US20100188306A1

公开(公告)日：2010-07-29

申请号：US12440152

申请日：2007-09-03

申请人： Hitoshi Kitayoshi ,  Kunio Sawaya

发明人： Hitoshi Kitayoshi ,  Kunio Sawaya

IPC分类号： H01Q13/10

CPC分类号： H01Q1/085 ,  H01Q13/18

摘要： Provided are a highly efficient thin slot antenna having a cavity, and a RFID tag device. The thin slot antenna can be attached to curved surfaces of a human body, things and the like, and furthermore, has relatively freely deformable flexible characteristics, and has an extremely small characteristic change due to deformation and that due to bodies to be attached to. A bag-like body having a cavity (12) is formed by using a conductor foil of aluminum or the like or a foil deposited with a conductive metal such as aluminum and by forming the foil in bag shape. A relatively soft dielectric sheet (13) is put in the cavity (12), and a slot (14) is arranged at the width direction center position on one surface of the bag-like body, in the longitudinal direction.

摘要翻译： 提供了一种具有空腔的高效率薄缝天线和RFID标签装置。 薄缝天线可以附着在人体，物体等的弯曲表面上，此外，具有相对自由变形的柔性特性，并且由于变形而引起的特性变化极小，并且由于要附着的物体而具有极小的特性变化。 通过使用铝等的导体箔或沉积有诸如铝的导电金属的箔并且通过将袋形成箔来形成具有空腔（12）的袋状体。 将相对软的电介质片（13）放置在空腔（12）中，并且在袋状体的一个表面上的纵向方向上的宽度方向中心位置处设置有槽（14）。