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    • 1. 发明专利
    • Data communication system and receiving device
    • 数据通信系统和接收设备
    • JP2010206373A
    • 2010-09-16
    • JP2009047943
    • 2009-03-02
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04L7/02G01K7/32G08C17/00
    • H04L7/0091G01K1/024G01K1/026G01K7/32H03L7/0805H03L7/087H03L7/093H04L7/0079H04L7/033H04L7/042
    • PROBLEM TO BE SOLVED: To provide a data communication system and receiving device capable of detecting a temperature while suppressing expansion in circuit scale. SOLUTION: An RF circuit 13 receives data generated synchronously to a clock having a temperature characteristic in that a clock frequency varies with a temperature. A frequency synchronizing circuit 16 and a transmission frequency detecting circuit 24 detect the clock frequency from the received data. A temperature characteristic data buffer 34 stores temperature characteristic information regarding the temperature characteristic of the clock frequency. Based on the detected clock frequency and the temperature characteristic information, a temperature detecting circuit 26 calculates a temperature corresponding to the clock frequency. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供能够在抑制电路规模扩大的同时检测温度的数据通信系统和接收装置。 解决方案:RF电路13接收与时钟频率随温度变化的具有温度特性的时钟同步产生的数据。 频率同步电路16和发送频率检测电路24从接收的数据检测时钟频率。 温度特性数据缓冲器34存储关于时钟频率的温度特性的温度特性信息。 基于检测到的时钟频率和温度特性信息,温度检测电路26计算与时钟频率相对应的温度。 版权所有(C)2010,JPO&INPIT
    • 2. 发明专利
    • Receiving apparatus
    • 接收装置
    • JP2008124526A
    • 2008-05-29
    • JP2006302625
    • 2006-11-08
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04L7/08H04B1/16
    • H04L7/041
    • PROBLEM TO BE SOLVED: To provide a receiving apparatus for performing highly accurate frequency synchronization and efficient communication. SOLUTION: A rough adjusting circuit 16 detects a frequency difference between a receiving clock of the receiving apparatus and a transmission clock included in communication data based on one specific code pattern and another specific code pattern which is positioned later. A control value determining circuit 19 adjusts a frequency of the receiving clock based on the measured first frequency difference so that the frequency substantially coincides with a frequency of the transmission clock. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种用于执行高精度的频率同步和有效的通信的接收装置。 解决方案:粗略调整电路16基于一个特定代码模式和随后定位的另一特定代码模式来检测接收装置的接收时钟和通信数据中包括的传输时钟之间的频率差异。 控制值确定电路19基于所测量的第一频率差调整接收时钟的频率,使得频率基本上与传输时钟的频率一致。 版权所有(C)2008,JPO&INPIT
    • 3. 发明专利
    • Imaging apparatus
    • 成像设备
    • JP2007019726A
    • 2007-01-25
    • JP2005197611
    • 2005-07-06
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04N5/228H04N5/232H04N9/04H04N101/00
    • H04N5/2352H04N9/045
    • PROBLEM TO BE SOLVED: To provide an imaging apparatus capable of optimally adjusting both of the entire image data recorded in a recording medium and image data in a zooming region when performing electronic zooming process. SOLUTION: The imaging apparatus is provided with an electronic zoom for electronically zooming a prescribed image region in source image data outputted from an imaging element. An electronic zooming image is displayed in a finder operation and the entire images including the images outside the zooming region are fetched in capture. An overall uniform evaluation mode and a zooming region prefered evaluation mode can be selected, the sampling and evaluation methods of data for adjustment are appropriately changed and used inside the zooming region and outside the zooming region, and thus adjustment is performed corresponding to an imaging scene and a photoelastic system. COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:提供一种能够在执行电子变焦处理时能够最佳地调节记录介质中记录的整个图像数据和变焦区域中的图像数据的成像装置。 解决方案:成像装置设置有电子变焦,用于电子地放大从成像元件输出的源图像数据中的规定图像区域。 在取景器操作中显示电子变焦图像,并且在拍摄中获取包括缩放区域外部的图像的整个图像。 可以选择整体均匀评价模式和缩放区域优先评估模式,适当地改变用于调整的数据的采样和评估方法,并且在变焦区域内和变焦区域外部使用,因此对应于成像场景进行调整 和光弹系统。 版权所有(C)2007,JPO&INPIT
    • 4. 发明专利
    • Remote control system
    • 远程控制系统
    • JP2005177958A
    • 2005-07-07
    • JP2003426094
    • 2003-12-24
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • B25J3/00B25J19/00B25J19/04
    • PROBLEM TO BE SOLVED: To provide a remote control system capable of carrying out efficient data communication between a working device to work for an object and an operation device to remote-control the working device.
      SOLUTION: The efficient data communication between the working device and the operation device is carried out in terms of operation and observation by changing an operation mode to allow mutual communication of an operation data and a picture image data concerning a mechanism and an observation mode to allow communication of only the picture image data to each other on the remote control system constituted of the working device having an image pickup unit 1, a picture image processing circuit a-2, a coding circuit 3, an error detection code adding circuit 4, a modulating circuit a-6, an antenna a-7, a demodulating circuit a-8, an error detection circuit a-9, an electric power source unit 11, the mechanism 13 of an arm, etc. and a control circuit 12 to control each part and the operation device having an antenna b-14, a demodulating circuit b-1, an error detection circuit b-17, a decoding circuit 18, a display memory 20, an LCD 22, a data recording medium 23, an operation member 24, a CPU 25, a work memory 26, a picture image processing circuit b-27 and a modulating circuit b-29.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供能够在用于对象的工作装置和操作装置之间进行有效数据通信以远程控制工作装置的远程控制系统。 解决方案:通过改变操作模式来实现工作装置和操作装置之间的有效数据通信,以允许操作数据的相互通信和关于机构和观察的图像数据的相互通信 模式,以允许在由具有图像拾取单元1的工作装置,图像处理电路a-2,编码电路3,错误检测码附加电路构成的遥控系统上彼此通信图像图像数据 4,调制电路a-6,天线a-7,解调电路a-8,误差检测电路a-9,电源单元11,臂的机构13等以及控制电路 12,用于控制每个部件和具有天线b-14的操作装置,解调电路b-1,错误检测电路b-17,解码电路18,显示存储器20,LCD22,数据记录介质23 ,操作构件24, CPU25,工作存储器26,图像处理电路b-27和调制电路b-29。 版权所有(C)2005,JPO&NCIPI
    • 5. 发明专利
    • Imaging display system, imaging device, imaging method and program
    • 成像显示系统,成像设备,成像方法和程序
    • JP2014078793A
    • 2014-05-01
    • JP2012224245
    • 2012-10-09
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04N5/232
    • H04N5/38H04N5/04H04N5/0733H04N5/23206H04N5/247H04N5/917H04N21/4305H04N21/4307
    • PROBLEM TO BE SOLVED: To adjust imaging timing and radio transmission timing among a plurality of imaging devices without performing radio communication of special information to synchronize.SOLUTION: An imaging control circuit 8 has stored time relation data indicating temporal relation between imaging timing at another imaging device and radio transmission timing of compressed image data at the other imaging device. On the basis of the time relation data and reception timing of the compressed image data from the other imaging device wirelessly received by its own device, the imaging control circuit 8 adjusts imaging timing of an imaging unit 4 so as to coincide with imaging timing of the other imaging device, and adjusts radio transmission timing of the own device such that it will be different from radio transmission timing of the other imaging device.
    • 要解决的问题:调整多个成像装置之间的成像定时和无线电发送定时,而不进行特殊信息的无线通信同步。解决方案:成像控制电路8存储指示另一成像时的成像定时之间的时间关系的时间关系数据 在另一个成像设备处的压缩图像数据的设备和无线电传输定时。 基于其自身装置无线地接收的其他成像装置的压缩图像数据的时间关系数据和接收定时,成像控制电路8调整成像单元4的成像定时,使其与成像装置4的成像定时一致 调整本装置的无线发送定时,使其与其他成像装置的无线发送定时不同。
    • 6. 发明专利
    • Radio communication device, radio communication system, antenna control method, and program
    • 无线电通信设备,无线电通信系统,天线控制方法和程序
    • JP2013236301A
    • 2013-11-21
    • JP2012108367
    • 2012-05-10
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H01Q3/26H01Q25/00H04B7/10H04W16/28
    • H01Q3/34H01Q3/26H01Q25/002H04B7/086H04W16/28
    • PROBLEM TO BE SOLVED: To provide a radio communication device and the like that can perform stable radio communication by detecting the direction of a radio communication device of a connection partner with high accuracy.SOLUTION: An antenna 2 wirelessly receives data from a radio communication device which is a communication partner. A reception control circuit 20 performs first detection processing in which the reception control circuit 20 controls the directivity direction of the antenna 2 and detects a first direction which is the direction of a radio wave generation source, and second detection processing in which the reception control circuit 20 controls the directivity direction of the antenna 2 and detects a second direction which is the direction of a radio communication terminal which is the connection partner. In addition, when the reception control circuit 20 performs the second detection processing by setting the directivity direction of the antenna 2 to the vicinity of the first direction, the reception control circuit 20 sets the directivity angle narrower than when the reception control circuit 20 performs the second processing by setting the directivity direction of the antenna 2 to the outside of the vicinity of the first direction. When the reception control circuit 20 receives data if the second direction is in the vicinity of the first direction, the reception control circuit 20 controls the directivity direction of the antenna 2 so that the impact of a radio wave from the radio wave generation source will be suppressed.
    • 要解决的问题:提供一种能够以高精度检测连接对方的无线通信装置的方向来进行稳定无线通信的无线通信装置等。解决方案:天线2从无线通信装置无线地接收数据 这是一个沟通伙伴。 接收控制电路20执行接收控制电路20控制天线2的方向性的第一检测处理,并检测作为无线电波发生源的方向的第一方向,以及第二检测处理,其中接收控制电路 20控制天线2的方向性方向,并且检测作为连接伙伴的无线通信终端的方向的第二方向。 此外,当接收控制电路20通过将天线2的方向性方向设置到第一方向附近来执行第二检测处理时,接收控制电路20将指向性角度设置为比接收控制电路20执行 通过将天线2的方向性方向设置在第一方向附近的外部进行第二处理。 当接收控制电路20接收数据时,如果第二方向在第一方向附近,则接收控制电路20控制天线2的方向性方向,使得来自无线电波发生源的无线电波的影响为 被压制
    • 7. 发明专利
    • Reception device
    • 接收装置
    • JP2011109226A
    • 2011-06-02
    • JP2009259752
    • 2009-11-13
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04N7/173H04L7/08H04N7/18
    • H04N21/443H04L7/033H04N21/2187H04N21/4305
    • PROBLEM TO BE SOLVED: To provide a reception device which can perform display processing in synchronization with an operation of an imaging device, and suppress increase in the transmission data amount. SOLUTION: An RF circuit 14 receives transmission data from the imaging device 1. A display circuit 18 performs display processing to create a display signal 19 for display from the transmission data. An ID detection circuit 20 extracts a specific packet from the transmission data, and an imaging phase detection circuit 22 measures the reception timing of the specific packet multiple times. A display phase adjustment circuit 24 performs phase adjustment processing of the display signal 19, by using the result of the measurement. COPYRIGHT: (C)2011,JPO&INPIT
    • 要解决的问题:提供一种能够与成像装置的操作同步地进行显示处理的接收装置,并且抑制发送数据量的增加。 解决方案:RF电路14从成像装置1接收发送数据。显示电路18执行显示处理,以从发送数据创建用于显示的显示信号19。 ID检测电路20从发送数据中提取特定分组,成像相位检测电路22多次测量特定分组的接收定时。 显示相位调整电路24通过使用测量结果来执行显示信号19的相位调整处理。 版权所有(C)2011,JPO&INPIT
    • 8. 发明专利
    • Wireless communication system
    • 无线通信系统
    • JP2010050921A
    • 2010-03-04
    • JP2008215832
    • 2008-08-25
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04W74/04
    • PROBLEM TO BE SOLVED: To provide a wireless communication system including a plurality of transmitter terminal devices and one receiver terminal device, for preventing collision of communication without requiring radio wave detection using carrier sensing.
      SOLUTION: A wireless communication system includes: a mobile transmitter 3 for wirelessly transmitting signals in a predetermined cycle; a fixed transmitter 4 for wirelessly transmitting signals on the basis of a predetermined wireless transmission instruction; and a receiver 5 for receiving signals wirelessly transmitted from the mobile transmitter 3, and receiving the wireless transmission instruction to the fixed transmitter 4 and signals wirelessly transmitted from the fixed transmitter 4 that receives the wireless transmission instruction. The receiver 5 determines timing to instruct wireless transmission to the fixed transmitter 4 in accordance with the timing when wireless transmission is performed by the mobile transmitter 3.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种包括多个发射机终端装置和一个接收机终端装置的无线通信系统,用于防止通信的碰撞而不需要使用载波侦听的无线电波检测。 解决方案:无线通信系统包括:用于以预定周期无线发送信号的移动发射机3; 固定发射机4,用于根据预定的无线传输指令无线传输信号; 以及用于接收从移动发射机3无线发送的信号的接收机5,并且向固定发射机4接收无线传输指令,并从接收无线传输指令的固定发射机4无线发送的信号。 接收机5根据移动发射机3进行无线传输的定时,确定指示向固定发射机4的无线传输的定时。(C)2010,JPO&INPIT
    • 9. 发明专利
    • Image reproducing apparatus
    • 图像重现装置
    • JP2007281654A
    • 2007-10-25
    • JP2006102887
    • 2006-04-04
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04N1/413G06T5/20H04N1/409H04N19/00H04N19/117H04N19/136H04N19/167H04N19/176H04N19/196H04N19/44H04N19/86
    • PROBLEM TO BE SOLVED: To provide an image reproducing apparatus capable of improving the image quality of a reproduced image. SOLUTION: A memory card 1 stores image data and header data which are divided into a plurality of regions and compression-coded at a predetermined compression rate per region. Address data indicating the positions of the divided regions and the compression rate per region are recorded in the header data. A filter 5 smoothes a boundary between a first region and a second region, adjacent to the first region from among a plurality of regions within decompressed image data, on the basis of the header information that indicates the position of each region and the compression rate. A calculation section 7 sets the smoothing processing range, where smoothing is to be executed on the filter 5 on the basis of the header data. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供能够提高再现图像的图像质量的图像再现装置。 存储卡1存储分割成多个区域的图像数据和头部数据,并且以每个区域以预定的压缩率进行压缩编码。 指示分割区域的位置的地址数据和每个区域的压缩率被记录在标题数据中。 滤波器5根据指示每个区域的位置的标题信息和压缩率,平滑在解压缩的图像数据内的多个区域中与第一区域相邻的第一区域和第二区域之间的边界。 计算部分7基于标题数据设置要在滤波器5上进行平滑处理的平滑处理范围。 版权所有(C)2008,JPO&INPIT
    • 10. 发明专利
    • Radio communication device, radio communication system, radio communication method, and program
    • 无线电通信设备,无线电通信系统,无线电通信方法和程序
    • JP2013236300A
    • 2013-11-21
    • JP2012108366
    • 2012-05-10
    • Olympus Corpオリンパス株式会社
    • YANAGIDATE MASAHARU
    • H04W4/18
    • H01Q3/30H04W4/18H04W16/28H04W24/02
    • PROBLEM TO BE SOLVED: To provide a radio communication device and the like that can perform stable radio communication.SOLUTION: Among communication formats when data is communicated at a prescribed period, a communication format of which the occupancy rate of a data communication time to the period is half or more is defined as a normal format, and a communication format of which the occupancy rate of the data communication time to the period is less than half is defined as a time division format. An antenna 4 wirelessly receives data from a device of a connection partner. A reception control circuit 32 controls the directivity direction of the antenna 4 to measure a radio wave state of the periphery of its own device, and as a result of measuring the radio wave state, if it cannot distinguish the direction of the device of the connection partner from the direction of a device other than the device of the connection partner, the reception control circuit 32 changes its communication format from the normal format to the time division format.
    • 要解决的问题:提供可以进行稳定无线电通信的无线电通信装置等。解决方案:当在规定时间内传送数据时的通信格式中,将通信格式的数据通信时间的占用率 定义为正常格式的一半以上,将该周期的数据通信时间的占有率小于一半的通信格式定义为时分格式。 天线4从连接伙伴的设备无线地接收数据。 接收控制电路32控制天线4的方向性方向来测量其本身设备的周围的无线电波状态,并且作为测量无线电波状态的结果,如果不能区分连接的设备的方向 从除了连接伙伴的设备之外的设备的方向,接收控制电路32将其通信格式从正常格式改变为时分格式。