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    • 5. 发明授权
    • Learning device, mobile communication terminal, information recognition system, and learning method
    • 学习装置,移动通信终端,信息识别系统和学习方法
    • US07216078B2
    • 2007-05-08
    • US10367886
    • 2003-02-19
    • Hiroyuki ManabeAkira HiraiwaToshiaki Sugimura
    • Hiroyuki ManabeAkira HiraiwaToshiaki Sugimura
    • G10L15/06
    • G10L15/063G10L15/25G10L15/30
    • The myo-electric information of the user is transmitted to the data center, learning with a high computation load for generating recognition parameters required for recognizing the utterance content based on the myo-electric information is performed, not by the mobile communication terminal, but by the data center. By this, compared with the case when learning is performed in the mobile communication terminal which has stricter limitations on processing speed and memory than a stationary type computer, efficient learning in a shorter time becomes possible. Since the recognition parameters acquired at the data center are transmitted to the mobile communication terminal, hereafter utterance content recognition can be appropriately performed by the recognition parameters matching the user only by the mobile communication terminal, without the mobile communication terminal transmitting/receiving information with a learning device.
    • 用户的肌电信息被发送到数据中心,而不是通过移动通信终端,而是由移动通信终端,而是由移动通信终端执行用于产生基于肌电信息来识别话语内容所需的识别参数的高计算负荷的学习, 数据中心。 由此,与在静态型计算机中对处理速度和存储器有较严格限制的移动通信终端进行学习的情况相比,能够在较短时间内进行有效的学习。 由于在数据中心获取的识别参数被发送到移动通信终端,因此可以通过仅由移动通信终端与用户匹配的识别参数来适当地进行话语内容识别,而无需移动通信终端发送/接收信息 学习装置
    • 6. 发明申请
    • Display apparatus
    • 显示装置
    • US20050052428A1
    • 2005-03-10
    • US10886631
    • 2004-07-09
    • Kouki HayashiAkira HiraiwaYumiko HiraiwaHiroyuki ManabeToshiaki Sugimura
    • Kouki HayashiAkira HiraiwaYumiko HiraiwaHiroyuki ManabeToshiaki Sugimura
    • G06F3/041G06F3/033G06F3/048G09G5/00
    • G06F3/0414G06F3/0488
    • A display apparatus comprises a display, a transparent conductive film having a plurality of stimulation electrodes, an insensitive electrode electrically isolated from the stimulation electrodes and maintained at a constant potential, and a voltage applying device for establishing a potential difference between each stimulant electrode and the insensitive electrode. When the transparent conductive film is given a touch, the voltage applying device causes a state in which the potential of the stimulation electrodes is higher than that of the insensitive electrode, plural times intermittently or once in a predetermined period immediately after the touch, and varies the potential of the stimulation electrodes with time so as to intermittently cause a state in which the potential of the insensitive electrode is higher than that of the stimulation electrodes, in a predetermined pulse width and at a predetermined frequency during a continuing period of the touch thereafter.
    • 显示装置包括显示器,具有多个刺激电极的透明导电膜,与刺激电极电隔离并保持在恒定电位的不敏感电极,以及用于建立每个刺激电极与电极之间的电位差的电压施加装置 不敏感电极。 当透明导电膜被触摸时,电压施加装置引起刺激电极的电位高于不敏感电极的电位,在紧接触摸之后的预定时间间歇地或间歇地多次,并且变化 刺激电极的电位随时间间隔地导致不敏感电极的电位高于刺激电极的电位的状态,在预定的脉冲宽度中并且在其后的触摸的持续时段期间以预定的频率 。
    • 7. 发明授权
    • Speech recognition system, speech recognition method, speech synthesis system, speech synthesis method, and program product
    • 语音识别系统,语音识别方法,语音合成系统,语音合成方法和程序产品
    • US07680666B2
    • 2010-03-16
    • US11565992
    • 2006-12-01
    • Hiroyuki ManabeAkira HiraiwaToshiaki Sugimura
    • Hiroyuki ManabeAkira HiraiwaToshiaki Sugimura
    • G10L13/06
    • G06K9/6293G06K9/00335G10L13/033G10L15/24G10L2021/0135
    • The object of the present invention is to keep a high success rate in recognition with a low-volume of sound signal, without being affected by noise.The speech recognition system comprises a sound signal processor 10 configured to acquire a sound signal, and to calculate a sound signal parameter based on the acquired sound signal; an electromyographic signal processor 13 configured to acquire potential changes on a surface of the object as an electromyographic signal, and to calculate an electromyographic signal parameter based on the acquired electromyographic signal; an image information processor 16 configured to acquire image information by taking an image of the object, and to calculate an image information parameter based on the acquired image information; a speech recognizer 20 configured to recognize a speech signal vocalized by the object, based on the sound signal parameter, the electromyographic signal parameter and the image information parameter; and a recognition result provider 21 configured to provide a result recognized by the speech recognizer 20.
    • 本发明的目的是在不受噪声影响的情况下,以低音量的声音信号保持高成功率。 语音识别系统包括声音信号处理器10,被配置为获取声音信号,并且基于所获取的声音信号来计算声音信号参数; 被配置为获取所述物体的表面上的电位变化作为肌电信号的肌电信号处理器13,并且基于所获取的肌电信号计算肌电信号参数; 图像信息处理器16,被配置为通过拍摄对象的图像来获取图像信息,并且基于获取的图像信息计算图像信息参数; 语音识别器20,被配置为基于所述声音信号参数,所述肌电信号参数和所述图像信息参数来识别由所述对象发出的语音信号; 以及识别结果提供器21,其被配置为提供由语音识别器20识别的结果。
    • 8. 发明授权
    • Speech recognition system, speech recognition method, speech synthesis system, speech synthesis method, and program product having increased accuracy
    • 语音识别系统,语音识别方法,语音合成系统,语音合成方法和程序产品具有更高的准确性
    • US07369991B2
    • 2008-05-06
    • US10377822
    • 2003-03-04
    • Hiroyuki ManabeAkira HiraiwaToshiaki Sugimura
    • Hiroyuki ManabeAkira HiraiwaToshiaki Sugimura
    • G10L15/00
    • G06K9/6293G06K9/00335G10L13/033G10L15/24G10L2021/0135
    • The object of the present invention is to keep a high success rate in recognition with a low-volume of sound signal, without being affected by noise.The speech recognition system comprises a sound signal processor 10 configured to acquire a sound signal, and to calculate a sound signal parameter based on the acquired sound signal; an electromyographic signal processor 13 configured to acquire potential changes on a surface of the object as an electromyographic signal, and to calculate an electromyographic signal parameter based on the acquired electromyographic signal; an image information processor 16 configured to acquire image information by taking an image of the object, and to calculate an image information parameter based on the acquired image information; a speech recognizer 20 configured to recognize a speech signal vocalized by the object, based on the sound signal parameter, the electromyographic signal parameter and the image information parameter; and a recognition result provider 21 configured to provide a result recognized by the speech recognizer 20.
    • 本发明的目的是在不受噪声影响的情况下,以低音量的声音信号保持高成功率。 语音识别系统包括声音信号处理器10,被配置为获取声音信号,并且基于所获取的声音信号来计算声音信号参数; 被配置为获取所述物体的表面上的电位变化作为肌电信号的肌电信号处理器13,并且基于所获取的肌电信号计算肌电信号参数; 图像信息处理器16,被配置为通过拍摄对象的图像来获取图像信息,并且基于获取的图像信息计算图像信息参数; 语音识别器20,被配置为基于所述声音信号参数,所述肌电信号参数和所述图像信息参数来识别由所述对象发出的语音信号; 以及识别结果提供器21,其被配置为提供由语音识别器20识别的结果。
    • 10. 发明授权
    • Voice detection device
    • 语音检测装置
    • US07418385B2
    • 2008-08-26
    • US10869945
    • 2004-06-18
    • Hiroyuki ManabeYumiko Hiraiwa, legal representativeKouki HayashiTakashi NinjoujiToshiaki Sugimura
    • Akira Hiraiwa
    • G10L15/04
    • G10L25/93G10L15/24
    • This voice detection device is composed of a myoelectric signal acquisition part for acquiring, from a plurality of regions, myoelectric signals generated at the time of a vocalization operation, a parameter calculation part for calculating, as parameters, the fluctuations of the acquired myoelectric signals relative to a predetermined value in every channel corresponding to one of the plurality of regions, a vowel vocalization recognition part for specifying the vowel vocalization operation timing at the time of the vocalization operation, based on the fluctuations of the calculated parameters, and a vowel specification part for specifying a vowel corresponding to the vocalization operation, based on the fluctuation condition of the parameters before and after the specified vocalization operation timing in every channel.
    • 该语音检测装置由用于从多个区域获取在发声操作时产生的肌电信号的肌电信号采集部件,用于计算获取的肌电信号相对的波动的参数计算部件, 在与所述多个区域中的一个区域相对应的每个通道中的预定值,基于所计算的参数的波动来指定所述发声操作时的所述元音发声操作定时的元音发音识别部分,以及元音指定部分 用于根据在每个通道中指定的发声操作定时之前和之后的参数的波动条件来指定与发声操作相对应的元音。