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    • 1. 发明申请
    • Electric Stability Control System And Device For Controlling Sway Stability Of A Caravan Or Trailer And The Like
    • 用于控制大篷车或拖车等的摇摆稳定性的电气稳定控制系统和装置
    • US20130124059A1
    • 2013-05-16
    • US13581295
    • 2012-03-08
    • Robert FunderSimon Cox
    • Robert FunderSimon Cox
    • B60T7/20
    • B60T7/20B60D1/30B60D1/62B60T8/1708B60T8/1755B60T8/248B60T2230/06
    • A system for substantially minimising sway of a towed vehicle, fitted with electric brakes, hitched to a towing vehicle, the system including an electric stability control (ESC) device adapted for mounting to a portion of the towed vehicle, the ESC device being operably connected to the electric brakes by cable means, the ESC including a sway detecting means for measuring lateral acceleration of the towed vehicle; an actuator means for activating the electric brakes of the towed vehicle, the actuator means being operatively connected to the sway detecting means whereby the sway detecting means activates the actuator means to apply a voltage to the brakes for a period of time when the sway detecting means detects a predetermined lateral acceleration of the towed vehicle relative to the towing vehicle. The system can also be used for controlling dangerous sway and instability of a towed vehicle.
    • 一种用于基本上最小化搭载有电动制动器的牵引车辆的摆动的系统,该牵引车辆与牵引车辆相连,所述系统包括适于安装到拖曳车辆的一部分的电稳定性控制(ESC)装置,所述ESC装置可操作地连接 通过电缆装置到电动制动器,ESC包括用于测量拖车的横向加速度的摆动检测装置; 致动器装置,用于启动牵引车辆的电动制动器,致动器装置可操作地连接到摇摆检测装置,由此摇摆检测装置启动致动器装置,以在摇摆检测装置的一段时间内向制动器施加电压 检测牵引车辆相对于牵引车辆的预定横向加速度。 该系统还可用于控制拖车的危险摇摆和不稳定性。
    • 2. 发明授权
    • Electric stability control system and device for controlling sway stability of a caravan or trailer and the like
    • 用于控制大篷车或拖车等的摇摆稳定性的电气稳定性控制系统和装置
    • US09168901B2
    • 2015-10-27
    • US13581295
    • 2012-03-08
    • Robert FunderSimon Cox
    • Robert FunderSimon Cox
    • B60T8/24B60T7/20B60D1/30B60D1/62B60T8/17B60T8/1755
    • B60T7/20B60D1/30B60D1/62B60T8/1708B60T8/1755B60T8/248B60T2230/06
    • A system for substantially minimising sway of a towed vehicle, fitted with electric brakes, hitched to a towing vehicle, the system including an electric stability control (ESC) device adapted for mounting to a portion of the towed vehicle, the ESC device being operably connected to the electric brakes by cable means, the ESC including a sway detecting means for measuring lateral acceleration of the towed vehicle; an actuator means for activating the electric brakes of the towed vehicle, the actuator means being operatively connected to the sway detecting means whereby the sway detecting means activates the actuator means to apply a voltage to the brakes for a period of time when the sway detecting means detects a predetermined lateral acceleration of the towed vehicle relative to the towing vehicle. The system can also be used for controlling dangerous sway and instability of a towed vehicle.
    • 一种用于基本上最小化搭载有电动制动器的牵引车辆的摆动的系统,该牵引车辆与牵引车辆相连,所述系统包括适于安装到拖曳车辆的一部分的电稳定性控制(ESC)装置,所述ESC装置可操作地连接 通过电缆装置到电动制动器,ESC包括用于测量拖车的横向加速度的摆动检测装置; 致动器装置,用于启动牵引车辆的电动制动器,致动器装置可操作地连接到摇摆检测装置,由此摇摆检测装置启动致动器装置,以在摇摆检测装置的一段时间内向制动器施加电压 检测牵引车辆相对于牵引车辆的预定横向加速度。 该系统还可用于控制拖车的危险摇摆和不稳定性。
    • 5. 发明申请
    • Photonic band structure devices
    • 光子带结构设备
    • US20050094956A1
    • 2005-05-05
    • US10878019
    • 2003-11-04
    • Greg ParkerMartin CharltonMajd ZoorobSimon Cox
    • Greg ParkerMartin CharltonMajd ZoorobSimon Cox
    • G02B6/10G02B6/12
    • G02B6/1225B82Y20/00
    • The invention provides a photonic structure comprising a first region (3) formed from a material having a first refractive index; and an array of sub-regions (5) formed in the first region, each sub-region having a refractive index different to the first refractive index; wherein the array of sub-regions (5) can be defined by a plurality of rows and columns, wherein the position of each sub-region relative to adjacent sub-regions in each row and the properties of the sub-regions across each row are defined by parameters of a first type, and the position of each row relative to adjacent rows, and the properties of the sub-regions along each column are defined by parameters of a second type; and wherein at least one parameter of a first type and at least one parameter of the second type is varied systematically and independently across the array. The present invention gives rise to structures with photonic band structures that can be tailored to a particular application. A variation in the first type of parameter has a different effect to a variation in the second type of parameter. Variation in a first type of parameter alters the diffracting properties of each row in the stack of rows. Variation in a second type of parameter affects the reflective properties of the structure. According to another aspect of the invention, a method for manufacturing photonic structures is provided including a computer optimisation process in the design stage.
    • 本发明提供了一种光子结构,其包括由具有第一折射率的材料形成的第一区域(3) 以及形成在所述第一区域中的子区域(5)的阵列,每个子区域具有与所述第一折射率不同的折射率; 其中子区域(5)的阵列可以由多个行和列定义,其中每个子区域相对于每行中的相邻子区域的位置以及横跨每一行的子区域的属性是 由第一类型的参数定义,并且每行相对于相邻行的位置,并且沿着每列的子区域的属性由第二类型的参数定义; 并且其中所述第一类型的至少一个参数和所述第二类型的至少一个参数在所述阵列上系统地和独立地变化。 本发明产生可以针对特定应用而定制的具有光子带结构的结构。 第一类参数的变化对第二类参数的变化具有不同的影响。 第一类参数的变化会改变堆栈行中每行的衍射属性。 第二类参数的变化会影响结构的反射特性。 根据本发明的另一方面,提供了一种制造光子结构的方法,其包括在设计阶段的计算机优化过程。
    • 6. 发明授权
    • User interfaces and associated apparatus and methods
    • 用户界面及相关设备和方法
    • US08248376B2
    • 2012-08-21
    • US12274299
    • 2008-11-19
    • Murray BrownSimon CoxGraham Clay
    • Murray BrownSimon CoxGraham Clay
    • G06F3/041
    • G06F3/0418G06F2203/04105
    • Apparatus comprising one or more inputs configured to receive a configurable control signal from a configurable signal generator; and a non-calibrated touch input signal from a touch sensor. Said non-calibrated touch input signal generated by detecting both internal and external forces applied to the touch sensor. The apparatus also comprises a calibrator configured to process the non-calibrated touch input signal and the configurable control signal to remove the contribution of the internal forces from the non-calibrated signal to generate a calibrated signal, the calibrated signal for use in the detection of an external force applied to the touch sensor.
    • 一种装置,包括:一个或多个输入,被配置为从可配置的信号发生器接收可配置的控制信号; 以及来自触摸传感器的未校准的触摸输入信号。 通过检测施加到触摸传感器的内部和外部力产生的所述未校准的触摸输入信号。 该装置还包括被配置为处理未校准的触摸输入信号和可配置控制信号的校准器,以去除内部力与非校准信号的贡献以产生校准信号,该校准信号用于检测 施加到触摸传感器的外力。
    • 7. 发明申请
    • USER INTERFACES AND ASSOCIATED APPARATUS AND METHODS
    • 用户界面及相关设备及方法
    • US20100123677A1
    • 2010-05-20
    • US12274299
    • 2008-11-19
    • Murray BrownSimon CoxGraham Clay
    • Murray BrownSimon CoxGraham Clay
    • G06F3/045G06F3/041
    • G06F3/0418G06F2203/04105
    • Apparatus comprising one or more inputs configured to receive a configurable control signal from a configurable signal generator; and a non-calibrated touch input signal from a touch sensor. Said non-calibrated touch input signal generated by detecting both internal and external forces applied to the touch sensor. The apparatus also comprises a calibrator configured to process the non-calibrated touch input signal and the configurable control signal to remove the contribution of the internal forces from the non-calibrated signal to generate a calibrated signal, the calibrated signal for use in the detection of an external force applied to the touch sensor.
    • 一种装置,包括:一个或多个输入,被配置为从可配置的信号发生器接收可配置的控制信号; 以及来自触摸传感器的未校准的触摸输入信号。 通过检测施加到触摸传感器的内部和外部力产生的所述未校准的触摸输入信号。 该装置还包括被配置为处理未校准的触摸输入信号和可配置控制信号的校准器,以去除内部力与非校准信号的贡献以产生校准信号,该校准信号用于检测 施加到触摸传感器的外力。