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    • 31. 发明申请
    • METHODS AND APPARATUS FOR OPERATING AN INTERMODEL FACILITY
    • 用于操作INTERMODEL设备的方法和设备
    • US20080052093A1
    • 2008-02-28
    • US11467042
    • 2006-08-24
    • Brian SwindlePaul FisherMichael MullenDaniel HemmerJames Ford
    • Brian SwindlePaul FisherMichael MullenDaniel HemmerJames Ford
    • G06Q10/00G06Q30/00
    • G06Q30/06G06Q10/08G06Q10/083G06Q30/04G06Q30/0645G06Q50/165G06Q50/167
    • Methods and apparatus to operate an intermodal facility are disclosed. In the method described herein, a carrier enters into a contractual agreement with a separate intermodal facility owner to have exclusive use of the intermodal facility. Alternatively, a rail-to-truck and/or truck-to-rail intermodal facility owner may provide non-exclusive use to multiple railroads. Preferably, the carrier has no minimum use requirements associated with the intermodal facility. For example, the carrier is not required to transfer a certain number of containers in a certain period of time, and the carrier does not have to pay a periodic fee to the intermodal facility owner. Instead, the shipper associated with the carrier is charge by the intermodal facility owner based on the amount of intermodal facility use (e.g., on a per container basis). In one embodiment, a real estate developer is the intermodal facility owner. In addition, the real estate developer preferably builds a business park near the intermodal facility in order to capture the related business.
    • 公开了运作联运设施的方法和装置。 在本文所述的方法中,承运人与独立的多式联运设施所有者订立合约协议,以独占使用联运设施。 或者,轨道到卡车和/或卡车到轨道的多式联运设施所有者可以向多个铁路提供非独占使用。 优选地,载体没有与联运设施相关联的最小使用要求。 例如,承运人不需要在一定时间内转运一定数量的集装箱,承运人不必向多式联运设施所有者支付定期费用。 相反,与承运人有关的托运人是由多式联运设施所有者根据多式联运设施使用量(例如,以每集装箱为基础)收取的。 在一个实施例中,房地产开发商是多式联运设施所有者。 此外,房地产开发商最好在多式联运设施附近建立一个商业园,以捕获相关业务。
    • 34. 发明申请
    • All American clock
    • 所有美国时钟
    • US20060039242A1
    • 2006-02-23
    • US10866947
    • 2004-08-20
    • James FordBarbara Washington-Ford
    • James FordBarbara Washington-Ford
    • G04B19/00
    • G04B19/10
    • An abstract of technical disclosure: “The All American Clock” serial #10/866947 1. The backdrop of the clock is the American flag. 2. In model #3 of the clock, coins representing the hours; and the hands of the clock are positioned on the area of the stars, and will have nickels on the 12 and 6th hour; dimes on the 3rd and 9th hours, and pennies on the other hours. 4. Model #4 of the clock will have quarters on the 12 and 6th hour; nickels on the 3rd and 9th hour, and pennies on the other hours. Coins representing hours; and the hands of the clock will be positioned on the stars/stripes. 5. Can be battery/electricity operated. 6. Can be shaped square, oblong, or round. Can be framed in walnut, or mahogany wood, or plastic. 7. Can be made in various sizes. Can be wall mounted or sit on a surface.
    • 技术披露摘要:“全美时钟”系列号10/866947 1.时钟的背景是美国国旗。 在时钟的型号3中,代表时间的硬币; 时钟的手位于恒星的区域上,并且在12和6 小时之间将具有镍; 在3小时和9小时的小时,以及其他小时的便士。 时钟的型号#4将在12和6小时的季度有所不同; 3小时和9小时的小时,在其他时间便宜。 硬币代表小时; 时钟的手将被定位在星星/条纹上。 5.可以电池/电力操作。 可以形成方形,长方形或圆形。 可以在核桃,或红木木头或塑料框架。 7.可以制作各种尺寸。 可以安装在墙上或坐在表面上。
    • 35. 发明授权
    • Thermally responsive trigger devices and their use in shut-down devices
for nuclear reactors
    • 热响应触发装置及其在核反应堆关闭装置中的应用
    • US5051229A
    • 1991-09-24
    • US456518
    • 1989-12-26
    • James FordJohn Webb
    • James FordJohn Webb
    • G21C9/027
    • G21C9/027Y02E30/35
    • A thermally responsive trigger device comprises a closed bellows (14) having a filling of liquid metal and acting on a trigger (19) responsive to the free end of the bellows. The bellows and trigger are located at a temperature measuring location which is the coolant flow outlet (15) from a demountable sub-assembly vehicle (10) having a fuel unit (11) and a triggerable absorber unit (12). The outlet flowing coolant sweeps over the bellows (14) and once the expansion of the bellows exceeds a threshold a pin (26) and cam (28) at the free end of the bellows causes a plate (21) to move to release the absorber unit (12).
    • 热响应触发装置包括具有液体金属填充物并响应于波纹管的自由端作用在触发器(19)上的封闭波纹管(14)。 波纹管和触发器位于温度测量位置,该温度测量位置是来自具有燃料单元(11)和可触发吸收器单元(12)的可拆卸子组件车辆(10)的冷却剂流出口(15)。 出口流动的冷却剂扫过波纹管(14),并且一旦波纹管的膨胀超过阈值,在波纹管的自由端处的销(26)和凸轮(28)导致板(21)移动以释放吸收体 单位(12)。
    • 36. 发明申请
    • METHODS AND APPARATUS FOR OPERATING AN INTERMODAL FACILITY
    • 用于操作互动设施的方法和装置
    • US20090119210A1
    • 2009-05-07
    • US12262938
    • 2008-10-31
    • Brian SwindlePaul FisherMichael MullenDaniel HemmerJames Ford
    • Brian SwindlePaul FisherMichael MullenDaniel HemmerJames Ford
    • G06Q50/00G06Q99/00G06Q30/00G06Q20/00
    • G06Q30/06G06Q10/08G06Q10/083G06Q30/0283
    • Methods and apparatus to operate an intermodal facility are disclosed. In a method described herein, a carrier enters into a contractual agreement with a separate intermodal facility owner to have exclusive use of the intermodal facility. Alternatively, a rail-to-truck and/or truck-to-rail intermodal facility owner may provide non-exclusive use to multiple railroads. In one embodiment, the contractual agreement is a contingent lease. For example, if intermodal facility use falls below a threshold, a carrier may terminate the contingent lease. Preferably, the carrier has no minimum use requirements associated with the intermodal facility. Instead, the shipper associated with the carrier is charged by the intermodal facility owner based on the amount of intermodal facility use (e.g., on a per container basis). In one preferred embodiment, a real estate developer owns the intermodal facility and builds a business park near the intermodal facility in order to capture the related business.
    • 公开了运作联运设施的方法和装置。 在本文所述的方法中,承运人与单独的多式联运设施所有者订立合同协议以独占使用联运设施。 或者,轨道到卡车和/或卡车到轨道的多式联运设施所有者可以向多个铁路提供非独占使用。 在一个实施例中,合同协议是或有租赁。 例如,如果多式联运设施使用量低于阈值,则承运人可以终止或有租约。 优选地,载体没有与联运设施相关联的最小使用要求。 相反,与承运人有关的托运人由多式联运设施所有者根据多式联运设施的使用量(例如,以每个集装箱为基础)收取费用。 在一个优选实施例中,房地产开发商拥有多式联运设施,并在多式联运设施附近建立一个商业园,以便捕获相关业务。
    • 38. 发明申请
    • Method and apparatus for uniformity and brightness correction in an OLED display
    • 用于OLED显示器中的均匀性和亮度校正的方法和装置
    • US20060221326A1
    • 2006-10-05
    • US11093115
    • 2005-03-29
    • Ronald CokJames Ford
    • Ronald CokJames Ford
    • G01J1/00
    • G09G3/3225G09G3/3208G09G2320/0233G09G2320/0285G09G2320/029G09G2320/0295G09G2320/043G09G2320/045
    • A method for the correction of average brightness or brightness uniformity variations in OLED displays comprising: a) providing an OLED display having one or more light-emitting elements responsive to a multi-valued input signal for causing the light-emitting elements to emit light at a plurality of brightness levels; b) measuring the brightness of each light-emitting element at two or more, but fewer than all possible, different input signal values; c) employing the measured brightness values to estimate a maximum input signal value at which the light-emitting element will not emit more than a predefined minimum brightness and the rate at which the brightness of the light-emitting element increases above the predefined minimum brightness in response to increases in the value of the input signal; and d) using the estimated maximum input signal value at which the light-emitting element will not emit light more than the predefined minimum brightness and the rate at which the brightness of the light-emitting element increases above the predefined minimum brightness in response to increases in the value of the input signal to modify the input signal to a corrected input signal to correct the light output of the light-emitting elements.
    • 一种用于校正OLED显示器中的平均亮度或亮度均匀性变化的方法,包括:a)提供具有响应于多值输入信号的一个或多个发光元件的OLED显示器,用于使发光元件发光 多个亮度级; b)在两个或多个但是少于所有可能的不同输入信号值的情况下测量每个发光元件的亮度; c)使用测量的亮度值来估计发光元件不会发射超过预定义的最小亮度的最大输入信号值,以及发光元件的亮度增加到高于预定最小亮度的速率 响应于输入信号的值的增加; 以及d)使用估计的最大输入信号值,在该最大输入信号值下,发光元件将不会发出比预定的最小亮度更多的光,并且发光元件的亮度响应于增加而增加到高于预定的最小亮度的速率 在输入信号的值中将输入信号修改为校正的输入信号,以校正发光元件的光输出。
    • 39. 发明申请
    • Method and apparatus for uniformity and brightness correction in an OLED display
    • 用于OLED显示器中的均匀性和亮度校正的方法和装置
    • US20060063281A1
    • 2006-03-23
    • US10946845
    • 2004-09-22
    • Ronald CokJames Ford
    • Ronald CokJames Ford
    • H01L21/66
    • G09G3/006G09G3/3208G09G2320/043G09G2320/0693
    • A method for manufacturing and grading OLED devices is described, comprising the steps of: a) manufacturing OLED devices having a plurality of pixels; b) measuring pixel brightness and uniformity variation of each of the OLED devices prior to burning-in the OLED devices; c) correcting the pixel brightness and uniformity variation of each of the OLED devices prior to burning-in the OLED devices; d) grading each of the corrected OLED devices prior to burning-in the OLED devices; e) burning-in OLED devices graded as acceptable prior to burning-in the OLED devices; f) measuring burned-in pixel brightness and uniformity variation of each of the burned-in OLED devices; g) re-correcting the pixel brightness and uniformity variation of each of the burned-in OLED devices; and h) grading each of the re-corrected, burned-in OLED devices. The present invention has the advantage of providing improved yields in manufacture of OLED displays having acceptable uniformity and thereby reducing the cost of manufacturing an OLED display.
    • 描述了用于制造和分级OLED器件的方法,包括以下步骤:a)制造具有多个像素的OLED器件; b)在OLED器件燃烧之前测量每个OLED器件的像素亮度和均匀性变化; c)在OLED器件燃烧之前校正每个OLED器件的像素亮度和均匀性变化; d)在燃烧到OLED器件之前对每个校正的OLED器件进行分级; e)燃烧的OLED器件在OLED器件燃烧之前被分级为可接受的; f)测量每个烧制的OLED器件的烧焦像素亮度和均匀性变化; g)重新校正每个烧制OLED器件的像素亮度和均匀性变化; 以及h)对每个经重新校正的烧制的OLED器件进行分级。 本发明的优点在于提供具有可接受的均匀性并由此降低制造OLED显示器的成本的OLED显示器的制造中的提高的成品率。
    • 40. 发明申请
    • Uniformity and brightness measurement in OLED displays
    • OLED显示屏的均匀度和亮度测量
    • US20060061248A1
    • 2006-03-23
    • US10947655
    • 2004-09-22
    • Ronald CokJames Ford
    • Ronald CokJames Ford
    • H05B33/00
    • H04N17/04G09G3/3208G09G2320/043G09G2320/0693G09G2360/145
    • A system for the detection of brightness uniformity variations in light-emitting elements in an OLED display is described, comprising: a) an OLED display having a plurality of light-emitting elements having perceptible brightness uniformity variations less than a threshold value when driven with a common signal; b) an imager with one or more light-sensitive sensor elements having variable light exposure levels and sensitive to the light emitted by the light-emitting elements, where the sensor elements are not capable of detecting brightness uniformity variations less than the threshold value at a first light exposure level; c) optical elements arranged so that the light-sensitive sensor elements are exposed to the light-emitting elements of the OLED display; and d) a controller programmed to control the OLED display and cause the light-emitting elements to illuminate and the imager to acquire images of the illuminated light-emitting elements in the OLED display at at least the first and a different second light exposure level.
    • 描述了一种用于检测OLED显示器中的发光元件的亮度均匀性变化的系统,包括:a)具有多个发光元件的OLED显示器,当OLED被驱动时,具有小于阈值的可感知亮度均匀性变化的发光元件 公共信号 b)具有一个或多个感光传感器元件的成像器,其具有可变的曝光水平并且对由发光元件发射的光敏感,其中传感器元件不能检测到小于a的阈值的亮度均匀性变化 第一曝光水平; c)布置成使得光敏传感器元件暴露于OLED显示器的发光元件的光学元件; 以及d)控制器,被编程为控制所述OLED显示器并使所述发光元件照亮并且所述成像器以至少所述第一和第二曝光水平获取所述OLED显示器中的被照亮发光元件的图像。