公开(公告)号：US08576948B2

公开(公告)日：2013-11-05

申请号：US13256894

申请日：2010-12-17

Applicant: Toru Matsuura ,  Kenji Miyanaga

Inventor： Toru Matsuura ,  Kenji Miyanaga

IPC: H04B1/38 ,  H04B7/00 ,  H03C1/50 ,  H03C3/02

CPC classification number: H04L27/20 ,  H03C3/095

Abstract: Disclosed are an angle modulator, a transmission apparatus, and a radio communication apparatus that can compensate phase discontinuity when an operational mode of a voltage controlled oscillator is switched. Angle modulator (100) includes phase difference detection section (150) that detects a difference of phases between an input signal of subtractor (141) and an angle modulated signal, using the result of subtraction by subtractor (141) of frequency locked loop circuit (140); correction control section (160) that generates a control signal for compensating that difference of phases based on that difference of phases; correction section (120) that corrects the phase of the angle modulated signal by adding the control signal to an input signal of angle modulator (100), an input signal of loop filter (142), or an input signal of VCO (143) during a predetermined period after VCO (143) switches the operational mode (from time t3 to time t4).

Abstract translation: 公开了一种角度调制器，发送装置和无线电通信装置，其可以在切换压控振荡器的操作模式时补偿相位不连续性。 角度调制器（100）包括相位差检测部分（150），其使用锁相环电路的减法器（141）减法的结果来检测减法器（141）的输入信号与角度调制信号之间的相位差 140）; 校正控制部分（160），其基于所述相位差产生用于补偿所述相位差的控制信号; 校正部分（120），其通过将控制信号与角度调制器（100）的输入信号，环路滤波器（142）的输入信号或VCO（143）的输入信号相加来校正角度调制信号的相位， 在VCO（143）切换操作模式（从时间t3到时间t4）之后的预定时间段。

公开(公告)号：US20120133403A1

公开(公告)日：2012-05-31

申请号：US13389290

申请日：2010-06-16

Applicant: Kenji Miyanaga ,  Takayuki Tsukizawa

Inventor： Kenji Miyanaga ,  Takayuki Tsukizawa

IPC: H03L7/08

CPC classification number: H03C3/0941 ,  H03C3/095 ,  H03C3/0966 ,  H03L7/083 ,  H03L2207/05 ,  H03L2207/06

Abstract: Included are: a modulation section including a feedback circuit configured to conduct feedback control of an output signal from a voltage controlled oscillator based on an inputted modulation signal, and a feed-forward circuit configured to calibrate the modulation signal and outputting the calibrated modulation signal to the voltage controlled oscillator; a signal output section configured to output, to the modulation section, a predetermined reference signal instead of the modulation signal when a calibration is conducted; and a gain correction section configured to, in a state where the feedback circuit is forming an open loop, calculate a frequency transition amount of the reference signal outputted by the voltage controlled oscillator, and correct a gain used for calibrating the modulation signal at the feed-forward circuit based on the calculated frequency transition amount.

Abstract translation: 包括：调制部，其包括反馈电路，其被配置为基于输入的调制信号对来自压控振荡器的输出信号进行反馈控制;以及前馈电路，被配置为校准调制信号并将校准的调制信号输出到 压控振荡器; 信号输出部，被配置为当进行校准时，将调制部分代替预定的参考信号，而不是调制信号; 以及增益校正部，被配置为在所述反馈电路形成开路的状态下，计算由所述压控振荡器输出的所述参考信号的频率变化量，并且校正用于校准所述馈送时的所述调制信号的增益 基于计算的频率转换量的前馈电路。

公开(公告)号：US20120020257A1

公开(公告)日：2012-01-26

申请号：US13233310

申请日：2011-09-15

Applicant: Yoshio URABE ,  Kenji MIYANAGA ,  Kazuhiro ANDO ,  Chalermphol APICHAICHALERMWONGSE ,  Tsutomu MUKAI

Inventor： Yoshio URABE ,  Kenji MIYANAGA ,  Kazuhiro ANDO ,  Chalermphol APICHAICHALERMWONGSE ,  Tsutomu MUKAI

IPC: H04W52/04 ,  H04W4/00

CPC classification number: H04W74/0808 ,  H04W56/002 ,  H04W72/1205

Abstract: When communicating with a second wireless station, a first wireless station judges, based on link-related information received from the second wireless station and link-related information extracted from a signal transmitted by a fourth wireless station, whether a transmission link from the third wireless station to the fourth wireless station and a transmission link from the first wireless station to the second wireless station can be concurrently established without interference with each other. If judging affirmatively, the first wireless station transmits a signal to the second wireless station in synchronization with a signal transmitted by the third wireless station to the fourth wireless station.

Abstract translation: 当与第二无线站通信时，第一无线站基于从第二无线站接收到的链路相关信息和从由第四无线站发送的信号中提取的链路相关信息来判断来自第三无线站的传输链路 可以同时建立到第四无线站的站和从第一无线站到第二无线站的传输链路，而不会彼此干扰。 如果肯定地判断，则第一无线站与第三无线站向第四无线站发送的信号同步地向第二无线站发送信号。

公开(公告)号：US08023599B2

公开(公告)日：2011-09-20

申请号：US12064421

申请日：2006-10-23

Applicant: Koichiro Tanaka ,  Naganori Shirakata ,  Yoshio Urabe ,  Tsutomu Mukai ,  Kenji Miyanaga ,  Koji Imamura ,  Shuya Hosokawa

Inventor： Koichiro Tanaka ,  Naganori Shirakata ,  Yoshio Urabe ,  Tsutomu Mukai ,  Kenji Miyanaga ,  Koji Imamura ,  Shuya Hosokawa

IPC: H04B7/10

CPC classification number: H04B1/1027 ,  H04B1/7107 ,  H04B17/336 ,  H04L2025/03414 ,  H04L2025/03426

Abstract: Interfering signals coming at random timings from different radio stations are identified. In order to attain this, a method for storing the characterizing quantity of an interfering signal included in a received signal includes calculating the characterizing quantity of the received signal, determining a probability that a desired signal is included in the received signal, determining that the received signal is an interfering signal when determining that there is no probability that the desired signal is included in the received signal, and storing the characterizing quantity of the received signal as an interfering signal characterizing quantity when it is determined at the received signal determination step that there is no probability that the desired signal is included in the received signal.

Abstract translation: 确定来自不同电台的随机定时信号的干扰信号。 为了实现这一点，包括在接收信号中的用于存储干扰信号的特征量的方法包括：计算接收信号的特征量，确定所需信号包含在接收信号中的概率，确定接收到的信号 信号是确定在接收信号中不存在所需信号的概率时的干扰信号，并且当在接收信号确定步骤确定接收信号确定步骤时将接收信号的特征量存储为干扰信号表征量 在所接收的信号中不包含所需信号的概率。

公开(公告)号：US20100197262A1

公开(公告)日：2010-08-05

申请号：US12376387

申请日：2008-01-09

Applicant: Shuya Hosokawa ,  Kenji Miyanaga ,  Naganori Shirakata ,  Koji Imamura ,  Koichiro Tanaka

Inventor： Shuya Hosokawa ,  Kenji Miyanaga ,  Naganori Shirakata ,  Koji Imamura ,  Koichiro Tanaka

IPC: H04B1/10 ,  H04B1/06

CPC classification number: H04B7/0865 ,  H04B17/345

Abstract: The noise amount information storage unit 161 stores noise amount information which indicates relationships between gain value of the variable gain amplification units 121 and 125 and the amount of noise included in BB signals output from the down converters 131 and 135. The AGC unit 140 controls the gain value of the variable gain amplification units 121 and 125 so that the power of BB signals output from the down converters 131 and 135 becomes constant. The noise amount estimation unit 162 estimates noise amount of noise corresponding to the controlled gain value of the variable gain amplification units 121 and 125 by referring to the noise amount information stored in the noise amount information storage unit 161. The weight generation unit 170 generates weight matrix based on results of estimations performed by the channel characteristic estimation unit 150 and the noise estimation unit 162.

Abstract translation: 噪声量信息存储单元161存储指示可变增益放大单元121和125的增益值与从下变频器131和135输出的BB信号中包括的噪声量之间的关系的噪声量信息。AGC单元140控制 可变增益放大单元121和125的增益值，使得从下变频器131和135输出的BB信号的功率变得恒定。 噪声量估计单元162通过参考存储在噪声量信息存储单元161中的噪声量信息来估计与可变增益放大单元121和125的受控增益值相对应的噪声噪声量。权重生成单元170产生权重 基于由信道特性估计单元150和噪声估计单元162执行的估计结果的矩阵。

公开(公告)号：US20090135972A1

公开(公告)日：2009-05-28

申请号：US12064421

申请日：2006-10-23

Applicant: Koichiro Tanaka ,  Naganori Shirakata ,  Yoshio Urabe ,  Tsutomu Mukai ,  Kenji Miyanaga ,  Koji Imamura ,  Shuya Hosokawa

Inventor： Koichiro Tanaka ,  Naganori Shirakata ,  Yoshio Urabe ,  Tsutomu Mukai ,  Kenji Miyanaga ,  Koji Imamura ,  Shuya Hosokawa

IPC: H04B1/04

CPC classification number: H04B1/1027 ,  H04B1/7107 ,  H04B17/336 ,  H04L2025/03414 ,  H04L2025/03426

Abstract: An object is to identify interfering signals coming at random timings from different radio stations. In order to attain this object, a method for storing the characterizing quantity of an interfering signal included in a received signal comprises a characterizing quantity calculation step of calculating the characterizing quantity of the received signal; a received signal determination step of determining a probability that a desired signal is included in the received signal, and determining that the received signal is an interfering signal when determining that there is no probability that the desired signal is included in the received signal; and an interfering signal characterizing quantity storage step of storing the characterizing quantity of the received signal as an interfering signal characterizing quantity when it is determined at the received signal determination step that there is no probability that the desired signal is included in the received signal.

Abstract translation: 目的是识别来自不同电台的随机定时的干扰信号。 为了达到这个目的，一种用于存储包含在接收信号中的干扰信号的特征量的方法包括：计算接收信号的特征量的特征量计算步骤; 接收信号确定步骤，确定在所接收的信号中包含期望信号的概率，并且当确定不存在在所接收的信号中包含期望信号的概率时，确定所接收的信号是干扰信号; 以及干扰信号特征量存储步骤，当在接收信号确定步骤确定在接收信号中不包括所需信号的可能性时，将接收信号的特征量存储为干扰信号特征量。

公开(公告)号：US20090034647A1

公开(公告)日：2009-02-05

申请号：US12281388

申请日：2007-03-01

Applicant: Naganori Shirakata ,  Shuya Hosokawa ,  Koji Imamura ,  Koichiro Tanaka ,  Kenji Miyanaga ,  Yoshio Urabe ,  Tsutomu Mukai

Inventor： Naganori Shirakata ,  Shuya Hosokawa ,  Koji Imamura ,  Koichiro Tanaka ,  Kenji Miyanaga ,  Yoshio Urabe ,  Tsutomu Mukai

IPC: H04B15/00

CPC classification number: H04L69/28 ,  H04L1/0007 ,  H04L1/16 ,  H04W16/14 ,  H04W72/12

Abstract: At a time T131, a wireless communication apparatus 11A determines to transmit a data packet, and then performs interference signal detection for a period TA. At a time T132 preceding a time T133 at which the period TA has elapsed since the time T131, the wireless communication apparatus 11A detects a data packet d21 (an interference signal). At a time T134 at which a period TB has elapsed since the time T132 at which the interference signal has been detected, the wireless communication apparatus 11A starts transmitting a data packet d11 to a wireless communication apparatus 12A. At a time T136, the wireless communication apparatus 11A completes the transmission of the data packet d11.

Abstract translation: 在时间T131，无线通信设备11A确定发送数据分组，然后执行周期TA的干扰信号检测。 无线通信装置11A在从时刻T131开始经过了周期TA的时间T133之前的时刻T132，检测到数据分组d21（干扰信号）。 在从检测到干扰信号的时间T132开始经过了周期TB的时间T134之后，无线通信装置11A开始向无线通信装置12A发送数据包d11。 在时间T136，无线通信装置11A完成数据分组d11的发送。

公开(公告)号：US20080175221A1

公开(公告)日：2008-07-24

申请号：US10569491

申请日：2005-09-16

Applicant: Hideki Nakahara ,  Hitoshi Takai ,  Hidetoshi Yamasaki ,  Kenji Miyanaga ,  Koichiro Tanaka

Inventor： Hideki Nakahara ,  Hitoshi Takai ,  Hidetoshi Yamasaki ,  Kenji Miyanaga ,  Koichiro Tanaka

IPC: H04J3/06

CPC classification number: H04L1/1887 ,  H04B7/022 ,  H04B7/0667 ,  H04B7/0676 ,  H04B7/15592 ,  H04W84/042 ,  H04W84/047

Abstract: The present invention provides a wireless transmission system in which it is possible to exert a maximum path diversity effect even if the maximum number of effective branches is limited to a small number. A transmission timing control section (23) determines a transmission start timing to be a timing obtained by delaying a reference timing by a predetermined delay amount. A modulation section (21) modulates a signal by a modulation scheme such that an anti-multipath property is exerted when the signal is demodulated on a receiver side, and transmits the modulated signal at the transmission start timing. In a receiving station (12), a demodulation section (33) demodulates the receive signal to obtain receive data. The predetermined delay amount is such that signals are received at the receiving station (12) at a plurality of signal-receiving timings, and the number of signal-receiving timings is less than or equal to a predetermined maximum number of effective branches, a difference between the signal-receiving timings is greater than or equal to a predetermined delay resolution and is less than or equal to a predetermined maximum delay.

Abstract translation: 本发明提供一种无线传输系统，其中即使最大数量的有效分支被限制为少数，也可以施加最大路径分集效应。 发送定时控制部（23）将发送开始定时确定为通过将基准定时延迟预定延迟量而获得的定时。 调制部（21）通过调制方式对信号进行调制，使得当在接收机侧解调信号时施加抗多径特性，并在发送开始定时发送调制信号。 在接收站（12）中，解调部（33）对接收信号进行解调，得到接收数据。 预定延迟量使得在接收站（12）处以多个信号接收定时接收信号，并且信号接收定时的数量小于或等于预定的最大有效分支数，差 在信号接收定时之间大于或等于预定的延迟分辨率并且小于或等于预定的最大延迟。

公开(公告)号：US20050029714A1

公开(公告)日：2005-02-10

申请号：US10492510

申请日：2002-10-23

Applicant: Kenji Miyanaga ,  Manabu Maruyama ,  Izuru Hori ,  Yuji Kanai ,  Kouki Mizutani

Inventor： Kenji Miyanaga ,  Manabu Maruyama ,  Izuru Hori ,  Yuji Kanai ,  Kouki Mizutani

IPC: B21D26/033 ,  B21D26/047 ,  B21D51/16 ,  B29C43/00

CPC classification number: B21D26/033 ,  C22F1/04 ,  Y10T29/49805

Abstract: A process for forming a tubular member is provided which includes a preforming process for tube-expanding (bulge) forming and bending forming a tubular material (Pa) using first and second molds (M1, M2) and a final forming process for crush forming a preformed tube (Pc) using a third mold (M3) so as to give its cross section a desired shape, the preforming being carried out using the first and second molds (M1, M2) heated at temperatures equal to or higher than the recrystallization temperature of the tubular material and the final forming being carried out using the third mold (M3) heated at temperatures equal to or lower than the recrystallization temperature of the tubular material. The process enables a tubular material of aluminium alloy to be formed into a tubular member of high precision and high quality which has expanded portions as well as bent portions and whose cross section varies across its length. The process also enables drastic increase in productivity.

Abstract translation: 提供了一种用于形成管状构件的方法，其包括使用第一和第二模具（M1，M2）形成管状材料（Pa）的管膨胀（凸起）成形和弯曲形成的预成型工艺，以及用于压制成型 使用第三模具（M3）预成型管（Pc），以使其横截面成为期望的形状，使用在等于或高于再结晶温度的温度下加热的第一和第二模具（M1，M2）进行预成型 并且使用在等于或低于管状材料的再结晶温度的温度下加热的第三模具（M3）进行最终成型。 该方法能够使铝合金管状材料形成为高精度和高质量的管状构件，其具有膨胀部分以及弯曲部分，并且其截面在其长度上变化。 该过程还可以大大提高生产率。

公开(公告)号：US08724524B2

公开(公告)日：2014-05-13

申请号：US13233310

申请日：2011-09-15

Applicant: Yoshio Urabe ,  Kenji Miyanaga ,  Kazuhiro Ando ,  Chalermphol Apichaichalermwongse ,  Tsutomu Mukai

Inventor： Yoshio Urabe ,  Kenji Miyanaga ,  Kazuhiro Ando ,  Chalermphol Apichaichalermwongse ,  Tsutomu Mukai

IPC: H04B7/005

CPC classification number: H04W74/0808 ,  H04W56/002 ,  H04W72/1205

Abstract: When communicating with a second wireless station, a first wireless station judges, based on link-related information received from the second wireless station and link-related information extracted from a signal transmitted by a fourth wireless station, whether a transmission link from the third wireless station to the fourth wireless station and a transmission link from the first wireless station to the second wireless station can be concurrently established without interference with each other. If judging affirmatively, the first wireless station transmits a signal to the second wireless station in synchronization with a signal transmitted by the third wireless station to the fourth wireless station.

Abstract translation: 当与第二无线站通信时，第一无线站基于从第二无线站接收到的链路相关信息和从由第四无线站发送的信号提取的链路相关信息来判断来自第三无线站的传输链路 可以同时建立到第四无线站的站和从第一无线站到第二无线站的传输链路，而不会彼此干扰。 如果肯定地判断，则第一无线站与第三无线站向第四无线站发送的信号同步地向第二无线站发送信号。