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    • 2. 发明授权
    • Automatic labeling and control of audio algorithms by audio recognition
    • 通过音频识别自动标注和控制音频算法
    • US09031243B2
    • 2015-05-12
    • US12892843
    • 2010-09-28
    • Jay LeBoeufStephen Pope
    • Jay LeBoeufStephen Pope
    • H04R29/00
    • H04R29/00
    • Controlling a multimedia software application using high-level metadata features and symbolic object labels derived from an audio source, wherein a first-pass of low-level signal analysis is performed, followed by a stage of statistical and perceptual processing, followed by a symbolic machine-learning or data-mining processing component is disclosed. This multi-stage analysis system delivers high-level metadata features, sound object identifiers, stream labels or other symbolic metadata to the application scripts or programs, which use the data to configure processing chains, or map it to other media. Embodiments of the invention can be incorporated into multimedia content players, musical instruments, recording studio equipment, installed and live sound equipment, broadcast equipment, metadata-generation applications, software-as-a-service applications, search engines, and mobile devices.
    • 使用从音频源导出的高级元数据特征和符号对象标签来控制多媒体软件应用,其中执行低级信号分析的第一遍,之后是统计和感知处理阶段,随后是符号机 公开了学习或数据挖掘处理组件。 该多阶段分析系统向应用程序脚本或程序提供高级元数据功能,声音对象标识符,流标签或其他符号元数据,应用程序脚本或程序使用数据来配置处理链,或将其映射到其他介质。 本发明的实施例可以并入多媒体内容播放器,乐器,录音室设备,安装和现场声音设备,广播设备,元数据生成应用,软件即服务应用,搜索引擎和移动设备中。
    • 3. 发明申请
    • Method of signaling the length of OFDM WLAN packets
    • 发送OFDM WLAN报文长度的方法
    • US20050169261A1
    • 2005-08-04
    • US10911843
    • 2004-08-05
    • Richard WilliamsA. MuellerStephen Pope
    • Richard WilliamsA. MuellerStephen Pope
    • H04L12/54
    • H04W28/26H04L27/2602H04W28/22H04W48/08H04W84/12
    • A system 100 for wireless communication is provided. The system 100 includes first communication device 110A operable to transmit a message 300 according to a new protocol. The new protocol having a header 302 including a first rate field and a first length field, a header extension 304 including a second rate field and a second length field, and a data 306. When the message 300 is received by a legacy communication device 102 which is operable to receive a portion of the message 300 according to a legacy protocol, the legacy communication device 102 refrains from transmitting for a duration indicated by the combination of the first rate field and the first length field. The system 100 also includes a second communication device 110B operable to receive the message 300 according to the new protocol. A method of communicating to maintain compatibility with legacy devices is also provided.
    • 提供了一种用于无线通信的系统100。 系统100包括可操作以根据新协议发送消息300的第一通信设备110A。 新协议具有包括第一速率字段和第一长度字段的标题302,包括第二速率字段和第二长度字段的报头扩展304和数据306。 当传统通信设备102接收到消息300时,传统通信设备102可操作以根据传统协议接收消息300的一部分,传统通信设备102避免传输持续时间,该持续时间由第一速率字段和 第一个长度字段。 系统100还包括可操作以根据新协议接收消息300的第二通信设备110B。 还提供了一种通信以保持与传统设备的兼容性的方法。
    • 4. 发明申请
    • AUTOMATIC LABELING AND CONTROL OF AUDIO ALGORITHMS BY AUDIO RECOGNITION
    • 通过音频识别自动标记和控制音频算法
    • US20110075851A1
    • 2011-03-31
    • US12892843
    • 2010-09-28
    • Jay LeBoeufStephen Pope
    • Jay LeBoeufStephen Pope
    • H04R29/00
    • H04R29/00
    • Controlling a multimedia software application using high-level metadata features and symbolic object labels derived from an audio source, wherein a first-pass of low-level signal analysis is performed, followed by a stage of statistical and perceptual processing, followed by a symbolic machine-learning or data-mining processing component is disclosed. This multi-stage analysis system delivers high-level metadata features, sound object identifiers, stream labels or other symbolic metadata to the application scripts or programs, which use the data to configure processing chains, or map it to other media. Embodiments of the invention can be incorporated into multimedia content players, musical instruments, recording studio equipment, installed and live sound equipment, broadcast equipment, metadata-generation applications, software-as-a-service applications, search engines, and mobile devices.
    • 使用从音频源导出的高级元数据特征和符号对象标签来控制多媒体软件应用,其中执行低级信号分析的第一遍,之后是统计和感知处理阶段,随后是符号机 公开了学习或数据挖掘处理组件。 该多阶段分析系统向应用程序脚本或程序提供高级元数据功能,声音对象标识符,流标签或其他符号元数据,应用程序脚本或程序使用数据来配置处理链,或将其映射到其他介质。 本发明的实施例可以并入多媒体内容播放器,乐器,录音室设备,安装和现场声音设备,广播设备,元数据生成应用,软件即服务应用,搜索引擎和移动设备中。
    • 5. 发明授权
    • Frequency locker
    • 频率储物柜
    • US07161725B2
    • 2007-01-09
    • US10512702
    • 2003-04-25
    • James FraserStephen PopeColin EdgeSteven BorleyLisa DaykinKevin Mullaney
    • James FraserStephen PopeColin EdgeSteven BorleyLisa DaykinKevin Mullaney
    • G02B26/00G02B27/10G02B27/30H01S3/10H04J14/02
    • H01S5/0687H01S5/0612H01S5/0617
    • A method and assembly for frequency stabilization of an optical signal especially from a laser, the assembly (11) comprising beam splitter (15), a passive frequency discriminator (16), and a pair of photodiodes (17 & 18). The beam splitter (15) in use receives a collimated optical beam (B) and diverts a sample beam (B1) which is directed towards the discriminator (16) which transmits a portion (B2) of said sample beam to one of the photodiodes (17) and reflects a second portion (B3) of said sample beam to the other photodiode (18). A control signal (S3) is derived from the respective intensities of the transmitted and reflected portions of the sample beam, and utilized to operate the electronic control to adjust the frequency of the laser output signal, if required, to maintain a specified frequency.
    • 一种用于特别是来自激光器的光学信号的频率稳定的方法和组件,包括分束器(15)的组件(11),无源鉴频器(16)和一对光电二极管(17和18)。 使用的分束器(15)接收准直光束(B)并且转向被引导到鉴别器(16)的样本光束(B 1 SUB),该鉴别器(16)透射一部分(B < 将所述样品光束的2π(2π)放大到所述光电二极管(17)中的一个,并将所述样品光束的第二部分(B 3/3)反射到另一个光电二极管(18)。 根据样品光束的透射和反射部分的各自强度导出控制信号(S 3/3),并且如果需要,则利用该电子控制来调节激光输出信号的频率 ,保持指定的频率。
    • 7. 发明申请
    • Frequency locker
    • 频率储物柜
    • US20050225825A1
    • 2005-10-13
    • US10512702
    • 2003-04-25
    • James FraserStephen PopeColin EdgeSteven BorleyLisa DaykinKevin Mullaney
    • James FraserStephen PopeColin EdgeSteven BorleyLisa DaykinKevin Mullaney
    • H01S5/0687H01S3/131H01S5/12H01S5/125G02F1/01G02B26/00
    • H01S5/0687H01S5/0612H01S5/0617
    • A method and assembly for frequency stabilisation of an optical signal especially from a laser, the assembly (11) comprising beam splitter (15), a passive frequency discriminator (16), and a pair of photodiodes (17 & 18). The beam splitter (15) in use receives a collimated optical beam (B) and diverts a sample beam (B1) which is directed towards the discriminator (16) which transmits a portion (B2) of said sample beam to one of the photodiodes (17) and reflects a second portion (B3) of said sample beam to the other photodiode (18). A control signal (S3) is derived from the respective intensities of the transmitted and reflected portions of the sample beam, and utilised to operate the electronic control to adjust the frequency of the laser output signal, if required, to maintain a specified frequency.
    • 一种用于特别是来自激光器的光学信号的频率稳定的方法和组件,包括分束器(15)的组件(11),无源鉴频器(16)和一对光电二极管(17和18)。 使用的分束器(15)接收准直光束(B)并且转向被引导到鉴别器(16)的样本光束(B 1 SUB),该鉴别器(16)透射一部分(B < 将所述样品光束的2π(2π)放大到所述光电二极管(17)中的一个,并将所述样品光束的第二部分(B 3/3)反射到另一个光电二极管(18)。 根据样品光束的透射和反射部分的各自强度导出控制信号(S 3/3),并且如果需要,则利用该电子控制来调节激光输出信号的频率 ,保持指定的频率。