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    • 32. 发明申请
    • SPEECH SYNTHESIS DEVICE, METHOD, AND PROGRAM
    • 语音合成设备,方法和程序
    • US20090177475A1
    • 2009-07-09
    • US12374609
    • 2007-07-04
    • Masanori Kato
    • Masanori Kato
    • G10L13/08G10L13/06G10L13/00
    • G10L19/09G10L13/06
    • Even when a pitch cycle has a large fluctuation and the pitch cycle string changes abruptly, it possible to suppress the affect of the pitch cycle fluctuation and generate high-quality synthesized speech. A speech synthesis device generates a synthesized speech corresponding to an input text sentence according to an original speech waveform stored in original speech waveform information storage unit (25). The speech synthesis device includes pitch cycle correction unit (40) which extracts a fluctuation component of the pitch cycle of the original speech waveform which is obtained from original speech waveform information storage unit (25) in order to generate the synthesized speech and which corrects, based on the extracted fluctuation component, the pitch cycle of the synthesized speech obtained by analyzing the input text sentence. Pitch cycle correction unit (40) connects the pitch cycle waveform of the original speech waveform at the pitch cycle of the corrected synthesized speech.
    • 即使在音调周期波动大,音调周期弦急剧变化的情况下,也可以抑制音调周期波动的影响,生成高质量的合成语音。 语音合成装置根据存储在原始语音波形信息存储单元(25)中的原始语音波形,生成与输入文本句子相对应的合成语音。 语音合成装置包括音调周期校正单元(40),其提取从原始语音波形信息存储单元(25)获得的原始语音波形的音调周期的波动分量,以便生成合成语音, 基于提取的波动分量,通过分析输入文本句子获得的合成语音的音调周期。 音调周期校正单元(40)以校正的合成语音的音调周期连接原始语音波形的音调周期波形。
    • 33. 发明申请
    • Developer vessel
    • 开发船
    • US20070189808A1
    • 2007-08-16
    • US11488188
    • 2006-07-18
    • Masanori KatoTomoyoshi ChiharaNaoya Iwata
    • Masanori KatoTomoyoshi ChiharaNaoya Iwata
    • G03G15/01G03G15/08
    • G03G15/0126G03G2215/0177
    • A developer vessel having: a developing agent, a second developing agent holding chamber that holds the developing agent supplied to the developing agent supporter; a first developing agent holding chamber being adjacent to the second developing agent holding chamber; a first partition that divides the first and the second developing agent holding chambers and having a second and a third opening portion; a first and a second carrying member that cause the developing agent to circulate between the first and the second developing agent holding chambers via the opening portions; a toner holding chamber being adjacent to the first developing agent holding chamber and facing the second developing agent holding chamber, and holds the toner supplied to the first developing agent holding chamber; and a second partition that has a first opening portion and divides the first developing agent holding chamber and the toner holding chamber.
    • 一种显影剂容器,具有:显影剂,第二显影剂保持室,其保持供给到显影剂载体的显影剂; 与第二显影剂保持室相邻的第一显影剂保持室; 分隔第一和第二显影剂保持室并具有第二和第三开口部分的第一隔板; 第一和第二承载构件,其使所述显影剂经由所述开口部在所述第一和第二显影剂保持室之间循环; 调色剂保持室,邻近所述第一显影剂保持室并面向所述第二显影剂保持室,并且保持供应到所述第一显影剂保持室的调色剂; 以及具有第一开口部分并且分隔第一显影剂保持室和调色剂容纳室的第二隔板。
    • 35. 发明授权
    • Image forming device with sheet discharge apparatus
    • 具有片材排出装置的图像形成装置
    • US5971394A
    • 1999-10-26
    • US732984
    • 1996-10-16
    • Hiroshi KidaNorio HontaniMasanori KatoMasanori TakedaKiyohide Ochi
    • Hiroshi KidaNorio HontaniMasanori KatoMasanori TakedaKiyohide Ochi
    • B42C1/12B65H29/52B65H29/60B65H39/10B65H29/00B65H29/66B65H33/04
    • B65H29/52B42C1/12B65H29/60B65H2301/33B65H2301/4213B65H2405/20B65H2406/00B65H2511/216B65H2511/414
    • A sheet conveyed into a sheet discharge processing device is conveyed through a straight convey path by first convey rollers and then is discharged onto a first discharge tray by second convey rollers and first discharge rollers. Second discharge rollers are arranged on a reverse convey path. A second discharge tray and a fan for applying an external force to the rear surface of a sheet are placed below the reverse convey path. When the trailing end of a sheet is detected by a second detection sensor, the fan is driven for a predetermined period of time to blow air against the rear surface of the discharged sheet. When sheets conveyed into the sheet discharge processing device are guided to a post-processing convey path by the first convey rollers so as to be subjected to post-processing, and are sequentially conveyed to a sheet storing section by convey rollers from the last or start page, the sheets are guided along one of guide plates constituting the sheet storing section to be aligned. A stapler for stapling a bundle of sheets aligned in the sheet storing section is placed below the sheet storing section.
    • 输送到片材排出处理装置中的片材通过第一输送辊通过直线输送路径输送,然后通过第二输送辊和第一排出辊排出到第一排出托盘上。 第二排出辊布置在反向输送路径上。 第二排出托盘和用于向片材的后表面施加外力的风扇被放置在反向输送路径的下方。 当通过第二检测传感器检测到纸张的后端时,风扇被驱动预定的时间段以将空气吹向排出的纸张的后表面。 当输送到片材排出处理装置中的纸张被第一传送辊引导到后处理传送路径以进行后处理时,并且从最后或开始通过传送辊顺次地传送到片材存储部 纸张沿着构成纸张存储部分的一个引导板被引导以对准。 用于装订在纸张存储部分中排列的一束纸的订书机被放置在纸张存储部分的下方。
    • 37. 发明授权
    • High-conductivity copper alloys with excellent workability and heat
resistance
    • 高导电性铜合金,具有优异的加工性和耐热性
    • US5077005A
    • 1991-12-31
    • US486029
    • 1990-02-27
    • Masanori Kato
    • Masanori Kato
    • C22C9/00H01B1/02
    • H01B1/026C22C9/00
    • There is provided a high-conductivity copper alloy with excellent workability and heat resistance, characterized by the alloy consists essentially of, by weight, at least one element selected from the group consisting of______________________________________ 10-100 ppm In (indium), 10-1000 ppm Ag (silver), 10-300 ppm Cd (cadmium), 10-50 ppm Sn (tin), 10-50 ppm Sb (antimony), 3-30 ppm Pb (lead), 3-30 ppm Bi (bismuth), 3-30 ppm Zr (zirconium), 3-50 ppm Ti (titanium) and 3-30 ppm Hf (hafnium), ______________________________________ and the balance copper. S (sulfur) and O (oxygen) as unavoidable impurities are controlled to amounts of less than 3 ppm S, and less than 5 ppm O, respectively. Other unavoidable impurities are controlled to less than 3 ppm in total amount. The alloy is very suitable for applications such as forming magnet wires and other very thin wires, lead wires for electronic components, lead members for tape automated bonding (TAB) and the like, and members for printed-circuit boards.
    • 提供了一种具有优异的可加工性和耐热性的高导电性铜合金,其特征在于该合金基本上由至少一种选自-10-100ppm In(铟),10-1000 ppm Ag(银),-10-300ppm Cd(镉),10-50ppm Sn(锡),-10-50ppm Sb(锑),3-30ppm Pb(铅), - (铋),3-30ppm的Zr(锆),-350ppm的Ti(钛)和3-30ppm的Hf(铪),余量是铜。 作为不可避免的杂质的S(硫)和O(氧)分别控制在小于3ppm S和小于5ppm O的量。 其他不可避免的杂质总量控制在小于3ppm。 该合金非常适用于诸如形成电磁线和其它非常细的电线,电子元件的引线,用于胶带自动键合的引线部件(TAB)等,以及用于印刷电路板的部件。
    • 39. 发明授权
    • Waveform processing device, waveform processing method, and waveform processing program
    • 波形处理装置,波形处理方法和波形处理程序
    • US09443538B2
    • 2016-09-13
    • US14131460
    • 2012-06-26
    • Masanori KatoReishi KondoYasuyuki Mitsui
    • Masanori KatoReishi KondoYasuyuki Mitsui
    • G10L25/90G10L13/033G10L13/06G10L13/07
    • G10L25/90G10L13/033G10L13/06G10L13/07
    • There is provided a waveform processing device for changing power of each pitch waveform of a segment in order to acquire a natural synthesis speech. A power calculation means 71 selects pitch waveforms one by one from a group of pitch waveforms corresponding to a segment, and calculates a scalar indicating power of a selected pitch waveform. A normalization degree calculation means 72 calculates a degree of normalization which is an index indicating a degree of normalization of a pitch waveform selected by the power calculation means 71, as a function value of an increasing function using the scalar as a variable. A change coefficient calculation means 73 calculates a change coefficient for changing an amplitude value of a pitch waveform selected by the power calculation means 71 based on the scalar and the degree of normalization. An amplitude change means 74 multiplies an amplitude value at each sampling point of a pitch waveform selected by the power calculation means 71 by the change coefficient.
    • 提供了一种用于改变段的每个音调波形的功率的波形处理装置,以获得自然合成语音。 功率计算装置71从对应于段的一组音调波形中逐个选择音调波形,并计算所选音调波形的标量指示功率。 归一化度计算装置72计算作为指示由功率计算装置71选择的音调波形的归一化程度的指标的归一化程度,作为使用标量作为变量的增加函数的函数值。 变化系数计算单元73根据标量和标准化程度,计算用于改变由功率计算单元71选择的音调波形的振幅值的变化系数。 振幅改变装置74将由功率计算装置71选择的音调波形的每个采样点处的振幅值乘以变化系数。