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    • 1. 发明申请
    • AUTOMATIC NETWORKING APPARATUS AND SYSTEM FOR VEHICLES
    • 车辆自动联网装置和系统
    • WO2013088210A1
    • 2013-06-20
    • PCT/IB2012000684
    • 2012-04-04
    • SHANGAI BAOLONG AUTOMOTIVE CORPHU JUNFENGSHI WEIHUALI WEI
    • HU JUNFENGSHI WEIHUALI WEI
    • B60R16/023B60D1/62B60K35/00B60P9/00H04L12/28
    • B60D1/62H04L67/12
    • A vehicle automatic networking apparatus with a first component and a second replaceable component includes a first identity recognition module on the first component and a second identity recognition module on the second component. The second module in a networking mode transmits a low frequency wake up signal through a low frequency signal transmission circuit to wake up the first module. A first identity recognition module low frequency sensor circuit senses the low frequency wake up signal, and responds by transmitting an identity code of the first component through a low frequency signal transmission circuit. A second module low frequency signal receiving circuit receives and stores the first component identity code. In a following data transmission, the second module sends data with the identity code, and a first component receiving apparatus identifies it. The first and second modules are both located rearward of a second component connection hitch.
    • 具有第一组件和第二可替换组件的车辆自动联网设备包括在第一组件上的第一身份识别模块和在第二组件上的第二身份识别模块。 处于联网模式的第二模块通过低频信号传输电路传输低频唤醒信号以唤醒第一模块。 第一身份识别模块低频传感器电路感测低频唤醒信号,并且通过经由低频信号传输电路传输第一组件的识别码来响应。 第二模块低频信号接收电路接收并存储第一组件识别码。 在接下来的数据传输中,第二模块发送带有身份代码的数据,第一组件接收设备识别它。 第一和第二模块都位于第二组件连接挂钩的后方。
    • 5. 发明申请
    • DELAYED BRANCH DECISION IN QUADRATURE DECOMPOSITION WITH M-SEARCHTNG
    • 用M-SEARCHTNG进行正交分解的延迟分配决策
    • WO2008081252A9
    • 2009-04-30
    • PCT/IB2007003961
    • 2007-12-17
    • NOKIA CORPNOKIA INCLI WEIWANG HAIFENGLILLEBERG JORMA OCHEN MINGCHENG SHIXIN
    • LI WEIWANG HAIFENGLILLEBERG JORMA OCHEN MINGCHENG SHIXIN
    • H04L25/03
    • H04L25/03216H04L2025/03426
    • A QRD-M decomposition includes a first and a sequential second stage, at least. In the first stage, M branches are selected from among more than M branches entering the first stage as survive branches from which multiple decompositions are calculated. In the second stage, more than M branches are selected from among those branches entering the second stage as survive branches from which multiple decompositions are calculated. The symbol of the received signal is decided from a branch that is a survive branch of both the first and second stages. The second stage may be within a window that may include additional stages at which the pruning decision down to M survive branches is delayed. One or more windows may be used in a single QRD-M decomposition. In an embodiment, all branches entering the second stage are survive branches. It is shown that the marginal increased computational load increases accuracy.
    • QRD-M分解至少包括第一和第二阶段。 在第一阶段,从分支进入第一阶段的M个分支中选出M个分支作为计算多个分解的生存分支。 在第二阶段,从进入第二阶段的那些分支中选出超过M个分支作为计算多重分解的生存分支。 接收信号的符号由作为第一和第二级的存活分支的分支决定。 第二阶段可能在一个窗口内,可能包括另外一个阶段,在此阶段,由M延续出来的剪枝决定被延迟。 单个QRD-M分解中可以使用一个或多个窗口。 在一个实施例中,进入第二阶段的所有分支都是能够分支的。 显示边际增加的计算负载提高了精度。
    • 6. 发明申请
    • DELAYED BRANCH DECISION IN QUADRATURE DECOMPOSITION WITH M-SEARCHTNG
    • 用M-SEARCHTNG进行正交分解的延迟分配决策
    • WO2008081252A2
    • 2008-07-10
    • PCT/IB2007003961
    • 2007-12-17
    • NOKIA CORPNOKIA INCLI WEIWANG HAIFENGLILLEBERG JORMA OCHEN MINGCHENG SHIXIN
    • LI WEIWANG HAIFENGLILLEBERG JORMA OCHEN MINGCHENG SHIXIN
    • H04L25/03
    • H04L25/03216H04L2025/03426
    • A QRD-M decomposition includes a first and a sequential second stage, at least. In the first stage, M branches are selected from among more than M branches entering the first stage as survive branches from which multiple decompositions are calculated. In the second stage, more than M branches are selected from among those branches entering the second stage as survive branches from which multiple decompositions are calculated. The symbol of the received signal is decided from a branch that is a survive branch of both the first and second stages. The second stage may be within a window that may include additional stages at which the pruning decision down to M survive branches is delayed. One or more windows may be used in a single QRD-M decomposition. In an embodiment, all branches entering the second stage are survive branches. It is shown that the marginal increased computational load increases accuracy.
    • QRD-M分解至少包括第一和第二阶段。 在第一阶段,从分支进入第一阶段的M个分支中选出M个分支作为计算多个分解的生存分支。 在第二阶段,从进入第二阶段的那些分支中选出超过M个分支作为计算多重分解的生存分支。 接收信号的符号由作为第一和第二级的存活分支的分支决定。 第二阶段可能在一个窗口内,可能包括另外一个阶段,在此阶段,由M延续出来的剪枝决定被延迟。 单个QRD-M分解中可以使用一个或多个窗口。 在一个实施例中,进入第二阶段的所有分支都是能够分支的。 显示边际增加的计算负载提高了精度。
    • 7. 发明申请
    • ARRAY INTERCONNECT FOR IMPROVED DIRECTIVITY
    • 改善方向的阵列互连
    • WO2007050429A3
    • 2008-03-27
    • PCT/US2006040900
    • 2006-10-19
    • SONOSITE INCHIPPE RICKLI WEICOLEMAN ALLAN
    • HIPPE RICKLI WEICOLEMAN ALLAN
    • B06B1/06
    • B06B1/0622
    • Systems and methods which improve the directivity of a transducer array by reducing electrical cross-talk between conductors connected to individual transducer array elements through the use of a plurality of interconnect circuits are shown. A plurality of signal transmission path circuits, such as circuit boards, flexible printed circuits, etc., are used to provide electrical power to and receive signals from transducer elements of a transducer array. Embodiments couple transducer elements to conductive traces of the signal transmission path circuits in a manner such that adjacent transducer elements are not connected to conductive traces on the same signal transmission path circuit. In some embodiments, a plurality of signal transmission path circuits are offset such that two identical signal transmission path circuits can be used to provide connectivity to array transducer elements using more widely spaced conductive traces, thus reducing electrical cross-talk effects.
    • 示出了通过减少通过使用多个互连电路连接到各个换能器阵列元件的导体之间的电串扰来改善换能器阵列的方向性的系统和方法。 诸如电路板,柔性印刷电路等的多个信号传输路径电路被用于向换能器阵列的换能器元件提供电力并从其接收信号。 实施例将传感器元件耦合到信号传输路径电路的导电迹线,使得相邻的换能器元件不连接到同一信号传输路径电路上的导电迹线。 在一些实施例中,多个信号传输路径电路被偏移,使得可以使用两个相同的信号传输路径电路来提供使用更广泛间隔的导电迹线的阵列换能器元件的连接性,从而减少电串扰效应。
    • 10. 发明申请
    • CVT CONTROL USING STATE SPACE BASED GAIN SCHEDULING
    • 使用基于状态空间的增益调度的CVT控制
    • WO2012134869A3
    • 2012-12-27
    • PCT/US2012029725
    • 2012-03-20
    • CATERPILLAR INCLI WEIHOFF BRIAN
    • LI WEIHOFF BRIAN
    • F16H59/36F16H59/44F16H61/66
    • F16H61/465B60W10/06B60W10/103B60W30/1884B60W2710/1005B60W2710/1061F16H61/431F16H2059/366F16H2059/6853
    • An engine powered wheeled machine having improved engine over speed and under speed protection includes a parallel path transmission having a gear train with first and second transmission inputs and a transmission output, and including a hydraulic variator having a variator output driving the first transmission input, the hydraulic variator having a variator pump and a variator motor, the displacement of the variator pump being controlled by a variator actuator. The machine further includes an engine having an engine output driving the second transmission input and driving the variator pump and a controller for receiving one or more values indicative of one or more ranges of permissible engine speed, a value indicative of an actual engine speed, and a value indicative of the position of the variator actuator, with the controller being configured to control the position of the variator actuator based on state space gain mapping to maintain the engine speed within the one or more ranges of permissible engine speed.
    • 具有改进的发动机超速和低速保护的发动机动力轮式发动机包括具有带有第一和第二变速器输入和变速器输出的齿轮系的并行路径变速器,并且包括具有驱动第一变速器输入的变速器输出的液压变速器, 具有变速泵和变速马达的液压变速器,变速泵的位移由变速器致动器控制。 该机器还包括具有驱动第二变速器输入并驱动变速泵的发动机输出的发动机和用于接收表示允许的发动机转速的一个或多个范围,表示实际发动机转速的值的一个或多个值的控制器,以及 指示变速器致动器的位置的值,其中控制器被配置为基于状态空间增益映射来控制变换器致动器的位置,以将发动机速度维持在允许的发动机转速的一个或多个范围内。