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    • 1. 发明授权
    • Image relay apparatus and image relay method
    • 图像中继装置和图像中继方法
    • US09065881B2
    • 2015-06-23
    • US13538165
    • 2012-06-29
    • Mika MinematsuMasataka GotoTakuya Kawamura
    • Mika MinematsuMasataka GotoTakuya Kawamura
    • G06K9/36H04L29/06
    • H04L65/605
    • According to one embodiment, an image relay apparatus includes a reception unit, a determination unit and a transmission unit. The reception unit receives compressed image data from a relay source apparatus. The determination unit determines whether or not the compressed image data is processable through a first path not involving decompression of the compressed image data, based on data on a relay destination apparatus. The transmission unit transfers, to the relay destination apparatus, either the compressed image data processed through the first path or recompressed image data obtained by processing the compressed image data through a second path involving decompression, drawing, and recompression of the compressed image data.
    • 根据一个实施例,图像中继装置包括接收单元,确定单元和发送单元。 接收单元从中继源装置接收压缩图像数据。 确定单元基于中继目的地设备上的数据来确定压缩图像数据是否可通过不涉及压缩图像数据的解压缩的第一路径来处理。 发送单元将通过第一路径处理的压缩图像数据或通过涉及压缩图像数据的解压缩,绘制和再压缩的第二路径处理压缩图像数据而获得的再压缩图像数据传送到中继目的地装置。
    • 2. 发明授权
    • System and method for automatic temporal alignment between music audio signal and lyrics
    • 用于音乐音频信号和歌词之间的自动时间对准的系统和方法
    • US08880409B2
    • 2014-11-04
    • US12866159
    • 2009-02-05
    • Hiromasa FujiharaMasataka Goto
    • Hiromasa FujiharaMasataka Goto
    • G10L21/00G10L15/26G10L25/90
    • G10L15/265G10L15/26G10L25/90G10L2015/025
    • A system provided herein may perform automatic temporal alignment between music audio signal and lyrics with higher accuracy than ever. A non-fricative section extracting 4 extracts non-fricative sound sections, where no fricative sounds exist, from the music audio signal. An alignment portion 17 includes a phone model 15 for singing voice capable of estimating phonemes corresponding to temporal-alignment features. The alignment portion 17 performs an alignment operation using as inputs temporal-alignment features obtained from a temporal-alignment feature extracting portion 11, information on vocal and non-vocal sections obtained from a vocal section estimating portion 9, and a phoneme network SN on conditions that no phonemes exist at least in non-vocal sections and that no fricative phonemes exist in non-fricative sound sections.
    • 这里提供的系统可以以比以往更高的精度执行音乐音频信号和歌词之间的自动时间对准。 非音乐部分提取4从音乐音频信号中提取不含摩擦音的非摩擦声部分。 对准部分17包括用于歌唱能够估计与时间对准特征对应的音素的语音的电话模型15。 对准部分17使用从时间对准特征提取部分11获得的时间对准特征作为输入,从声部分估计部分9获得的关于声乐和非声部分的信息以及音调网络SN在条件下进行对准操作 至少在非声部分中不存在音素,并且在非摩擦声部分中不存在摩擦音素。
    • 6. 发明授权
    • Sound source separation system, sound source separation method, and computer program for sound source separation
    • 声源分离系统,声源分离方法和声源分离计算机程序
    • US08239052B2
    • 2012-08-07
    • US12595542
    • 2008-04-14
    • Katsutoshi ItoyamaHiroshi OkunoMasataka Goto
    • Katsutoshi ItoyamaHiroshi OkunoMasataka Goto
    • G06F17/00
    • G10H3/125G10H1/0008G10H2210/056G10H2210/066G10H2210/086G10H2210/301G10H2240/056G10H2250/031
    • An audio signal produced by playing a plurality of musical instruments is separated into sound sources according to respective instrument sounds. Each time a separation process is performed, the updated model parameter estimation/storage section 114 estimates parameters respectively contained in updated model parameters such that updated power spectrograms gradually change from a state close to initial power spectrograms to a state close to a plurality of power spectrograms most recently stored in a power spectrogram separation/storage section. Respective sections including the power spectrogram separation/storage section 112 and an updated distribution function computation/storage section 118 repeatedly perform process operations until the updated power spectrograms change from the state close to the initial power spectrograms to the state close to the plurality of power spectrograms most recently stored in the power spectrogram separation/storage section 112. The final updated power spectrograms are close to the power spectrograms of single tones of one musical instrument contained in the input audio signal formed to contain harmonic and inharmonic models.
    • 通过播放多个乐器产生的音频信号根据相应的乐器声音被分离成声源。 每当执行分离处理时,更新的模型参数估计/存储部114估计更新的模型参数中包含的参数,使得更新的功率谱图从接近初始功率谱图的状态逐渐变化到接近多个功率谱图的状态 最近存储在功率谱图分离/存储部分中。 包括功率谱图分离/存储部分112和更新的分布函数计算/存储部分118的各个部分重复执行处理操作,直到更新的功率谱图从接近初始功率谱图的状态改变到接近多个功率谱图的状态 最近存储在功率谱图分离/存储部分112中。最终更新的功率谱图接近包含在形成为包含谐波和非谐波模型的输入音频信号中的一个乐器的单个音调的功率谱图。
    • 9. 发明授权
    • Image control from composed composite image using HID signal conversion to source image coordinates
    • 图像控制从组合合成图像使用HID信号转换为源图像坐标
    • US07974494B2
    • 2011-07-05
    • US11523806
    • 2006-09-20
    • Takuya KawamuraShinya MuraiKotaro IseMasataka GotoKeiichi Yamaguchi
    • Takuya KawamuraShinya MuraiKotaro IseMasataka GotoKeiichi Yamaguchi
    • G06K9/20G06K9/36G09G5/00G06F3/048
    • G09G5/08G06F3/1454G09G5/14G09G2310/04
    • Image control involves receiving source images defined with respect to respective source coordinate systems from source image generators also respectively associated with source IDs. The source images are composed to generate a composite image defined with respect to a composed coordinate system, and the composed image is sent to a viewer which displays the composed image and outputs an HID signal which indicates information defined with respect to the composed coordinate system. A layout manager stores source IDs respectively associated with layout information including position and size of at least one of the source images. An image composer composes the source images according to the layout information. An analyzer analyzes the HID signal for editing layout information stored in the layout manager, and determines a source ID a source image according to the layout information. The HID signal defined with respect to the composed coordinate system is converted to an HID signal defined with respect to the source coordinate system corresponding to the determined source image. An operator then sends the converted HID signal to the source image generator associated with the determined source ID.
    • 图像控制涉及从分别与源ID相关联的源图像生成器接收关于相应源坐标系定义的源图像。 源图像被组合以生成相对于组合坐标系定义的合成图像,并且将合成图像发送到显示合成图像的观看者,并输出指示关于组合坐标系定义的信息的HID信号。 布局管理器存储分别与包括至少一个源图像的位置和大小的布局信息相关联的源ID。 图像作曲者根据布局信息构成源图像。 分析器分析HID信号以编辑存储在布局管理器中的布局信息,并根据布局信息确定源ID为源图像。 相对于组合坐标系定义的HID信号被转换为相对于与确定的源图像相对应的源坐标系定义的HID信号。 然后,操作者将转换的HID信号发送到与确定的源ID相关联的源图像生成器。
    • 10. 发明申请
    • SYSTEM AND METHOD FOR AUTOMATIC TEMPORAL ADJUSTMENT BETWEEN MUSIC AUDIO SIGNAL AND LYRICS
    • 音乐音频信号与抒情诗之间的自动时间调整系统与方法
    • US20110054910A1
    • 2011-03-03
    • US12866159
    • 2009-02-05
    • Hiromasa FujiharaMasataka Goto
    • Hiromasa FujiharaMasataka Goto
    • G10L21/00
    • G10L15/265G10L15/26G10L25/90G10L2015/025
    • A system provided herein may perform automatic temporal alignment between music audio signal and lyrics with higher accuracy than ever. A non-fricative section extracting 4 extracts non-fricative sound sections, where no fricative sounds exist, from the music audio signal. An alignment portion 17 includes a phone model 15 for singing voice capable of estimating phonemes corresponding to temporal-alignment features. The alignment portion 17 performs an alignment operation using as inputs temporal-alignment features obtained from a temporal-alignment feature extracting portion 11, information on vocal and non-vocal sections obtained from a vocal section estimating portion 9, and a phoneme network SN on conditions that no phonemes exist at least in non-vocal sections and that no fricative phonemes exist in non-fricative sound sections.
    • 这里提供的系统可以以比以往更高的精度执行音乐音频信号和歌词之间的自动时间对准。 非音乐部分提取4从音乐音频信号中提取不含摩擦音的非摩擦声部分。 对准部分17包括用于歌唱能够估计与时间对准特征对应的音素的语音的电话模型15。 对准部分17使用从时间对准特征提取部分11获得的时间对准特征作为输入,从声部分估计部分9获得的关于声乐和非声部分的信息以及音调网络SN在条件下进行对准操作 至少在非声部分中不存在音素,并且在非摩擦声部分中不存在摩擦音素。