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    • 41. 发明申请
    • MODEL DEVELOPMENT AUTHORING, GENERATION AND EXECUTION BASED ON DATA AND PROCESSOR DEPENDENCIES
    • 基于数据和处理器依赖的模型开发创作,生成和执行
    • US20090177471A1
    • 2009-07-09
    • US11971897
    • 2008-01-09
    • Yifan GongYe Tian
    • Yifan GongYe Tian
    • G10L15/00
    • G10L15/28G06F2209/485G06K9/6253G06Q10/0637
    • A recognition (e.g., speech, handwriting, etc.) model build process that is declarative and data-dependence-based. Process steps are defined in a declarative language as individual processors having input/output data relationships and data dependencies of predecessors and subsequent process steps. A compiler is utilized to generate the model building sequence. The compiler uses the input data and output data files of each model build processor to determine the sequence of model building and automatically orders the processing steps based on the declared input/output relationship (the user does not need to determine the order of execution). The compiler also automatically detects ill-defined processes, including cyclic definition and data being produced by more than one action. The user can add, change and/or modify a process by editing a declaration file, and rerunning the compiler, thereby a new process is automatically generated.
    • 基于声明和数据依赖的识别(例如,语音,手写等)模型构建过程。 处理步骤以声明性语言定义为具有输入/输出数据关系以及前辈和后续处理步骤的数据依赖性的各个处理器。 利用编译器生成模型构建序列。 编译器使用每个模型构建处理器的输入数据和输出数据文件来确定模型构建的顺序,并根据声明的输入/输出关系自动排序处理步骤(用户不需要确定执行顺序)。 编译器还自动检测不明确的进程,包括由多个动作产生的循环定义和数据。 用户可以通过编辑声明文件来添加,更改和/或修改进程,并重新运行编译器,从而自动生成新的进程。
    • 46. 发明授权
    • Common rail fuel injection system and fuel injector for same
    • 共轨燃油喷射系统和燃油喷射器相同
    • US06647966B2
    • 2003-11-18
    • US09960772
    • 2001-09-21
    • Ye TianXinshuang Nan
    • Ye TianXinshuang Nan
    • F02M3704
    • F02M47/027F02D41/3809F02M63/004F02M63/0042F02M63/0045F02M63/0225
    • A fuel injection system is provided which includes a source of high pressure fuel, a low pressure fuel reservoir, and at least one fuel injector which has an injector body that defines a nozzle chamber, a needle control chamber, a needle control vent, a fuel inlet, and a nozzle outlet. A high pressure line extends between the source of high pressure fuel and the fuel inlet. A low pressure line extends between the low pressure fuel reservoir and the needle control vent. A needle control valve is positioned in the injector body and includes a poppet valve member with a first position in which the needle control chamber is fluidly connected to the fuel inlet but closed to the needle control vent. The poppet valve also has a second position in which the needle control chamber is closed to the fuel inlet but open to the needle control vent. A needle valve is positioned in the injector body and includes a one piece needle valve member with a closing hydraulic surface exposed to fluid pressure in the needle control chamber, and an opening hydraulic surface exposed to fluid pressure in the nozzle chamber.
    • 提供一种燃料喷射系统,其包括高压燃料源,低压燃料储存器和至少一个燃料喷射器,其具有限定喷嘴室的喷射器主体,针控制室,针控制通风口,燃料 入口和喷嘴出口。 高压线路在高压燃料源和燃料入口之间延伸。 低压线路在低压燃料储存器和针控制通气口之间延伸。 针控制阀定位在注射器主体中并且包括具有第一位置的提升阀构件,在该第一位置中针控制室流体地连接到燃料入口但是关闭到针控制通风口。 提升阀还具有第二位置,在该第二位置,针控制室关闭到燃料入口,但是通向针控制排气口。 针阀定位在注射器主体中,并且包括单件针阀构件,其具有暴露于针控制室中的流体压力的闭合液压表面,以及暴露于喷嘴室中的流体压力的开口液压表面。
    • 47. 发明授权
    • Fuel injector nozzle with outwardly opening check valve
    • 燃油喷射器喷嘴具有向外打开的止回阀
    • US06431472B1
    • 2002-08-13
    • US09742636
    • 2000-12-21
    • Ye TianNorval J. Wiemken
    • Ye TianNorval J. Wiemken
    • F02M5100
    • F02M61/08F02M51/0653
    • A nozzle assembly for fuel injection in an internal combustion engine comprising a nozzle tip with a hollow interior defining a fuel chamber. The nozzle tip has at least one spray orifice opening to an outer surface on the nozzle tip, and a valve member at least partially disposed within the nozzle tip. The valve member is moveable between a first position in which the valve member contacts an upper valve seat to prevent fluid communication of fuel from the fuel chamber to the at least one spray orifice, and a second outward position in which the valve member contacts a lower valve seat to allow fluid communication of fuel from the fuel chamber to the at least one spray orifice. The valve member is directly electrically actuated, preferably by a solenoid. Further, the valve member is biased in the closed position and the valve member is pressure balanced when high pressure fuel in present in the fuel chamber.
    • 一种用于在内燃机中燃料喷射的喷嘴组件,包括具有限定燃料室的中空内部的喷嘴尖端。 喷嘴尖端具有至少一个喷嘴孔,其通向喷嘴尖端上的外表面,以及至少部分地设置在喷嘴尖端内的阀构件。 阀构件可以在阀构件接触上阀座的第一位置之间移动,以防止来自燃料室的燃料与至少一个喷射孔的流体连通,以及第二向外位置,阀构件接触下部 阀座以允许燃料从燃料室流体连通到至少一个喷射口。 阀构件直接电动致动,优选地通过螺线管。 此外,当存在于燃料室中的高压燃料时,阀构件被偏置在关闭位置并且阀构件被压力平衡。
    • 49. 发明申请
    • WIRELESS BEARING BUILDING METHOD, ACCESS POINT EQUIPMENT, USER EQUIPMENT AND SYSTEM
    • 无线轴承建筑方法,接入点设备,用户设备和系统
    • US20140029536A1
    • 2014-01-30
    • US13983045
    • 2012-01-11
    • Ye TianJinbo ZhaoYang Liu
    • Ye TianJinbo ZhaoYang Liu
    • H04W72/08
    • H04W72/087H04W28/24
    • Disclosed in the present invention are a wireless bearing building method, an Access Point (AP) equipment, a User Equipment (UE) and a wireless access system, the UE divides the IP date flow of a service into multiple service date flow having different QoS requirements according to media parameter information, determines QoS parameters of each service date flow and sends the information of the service date flow and the corresponding QoS parameters to the AP, the AP allocates wireless resources for each service date flow according to the local QoS strategy, builds the corresponding wireless bearing and binds the service date flow and the wireless bearing; the UE side also builds the corresponding wireless bearing for each service date flow and binds the service date flow and the wireless bearing, during the uplink and downlink date transmission, the AP and UE in the present invention can map each service date flow to the corresponding wireless bearing respectively for transmission according to the QoS requirements of different service date flow, implements perfect service mechanism of the QoS.
    • 在本发明中公开了一种无线承载建立方法,接入点(AP)设备,用户设备(UE)和无线接入系统,所述UE将业务的IP日期流划分为具有不同QoS的多个业务日期流 根据媒体参数信息的要求,确定每个业务日期流的QoS参数,并将业务日期流信息和对应的QoS参数发送给AP,AP根据本地QoS策略为每个业务日期流分配无线资源, 构建相应的无线轴承并绑定服务日期流程和无线轴承; UE侧还为每个业务日期流建立相应的无线承载,并绑定业务日期流和无线承载,在上行链路和下行链路日期传输期间,本发明中的AP和UE可以将每个业务日期流映射到对应的 无线承载分别根据不同业务日期流的QoS要求进行传输,实现QoS完善的业务机制。
    • 50. 发明授权
    • Model development authoring, generation and execution based on data and processor dependencies
    • 基于数据和处理器依赖的模型开发创作,生成和执行
    • US08086455B2
    • 2011-12-27
    • US11971897
    • 2008-01-09
    • Yifan GongYe Tian
    • Yifan GongYe Tian
    • G10L15/12
    • G10L15/28G06F2209/485G06K9/6253G06Q10/0637
    • A recognition (e.g., speech, handwriting, etc.) model build process that is declarative and data-dependence-based. Process steps are defined in a declarative language as individual processors having input/output data relationships and data dependencies of predecessors and subsequent process steps. A compiler is utilized to generate the model building sequence. The compiler uses the input data and output data files of each model build processor to determine the sequence of model building and automatically orders the processing steps based on the declared input/output relationship (the user does not need to determine the order of execution). The compiler also automatically detects ill-defined processes, including cyclic definition and data being produced by more than one action. The user can add, change and/or modify a process by editing a declaration file, and rerunning the compiler, thereby a new process is automatically generated.
    • 基于声明和数据依赖的识别(例如,语音,手写等)模型构建过程。 处理步骤以声明性语言定义为具有输入/输出数据关系以及前辈和后续处理步骤的数据依赖性的各个处理器。 利用编译器生成模型构建序列。 编译器使用每个模型构建处理器的输入数据和输出数据文件来确定模型构建的顺序,并根据声明的输入/输出关系自动排序处理步骤(用户不需要确定执行顺序)。 编译器还自动检测不明确的进程,包括由多个动作产生的循环定义和数据。 用户可以通过编辑声明文件来添加,更改和/或修改进程,并重新运行编译器,从而自动生成新的进程。