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    • 1. 发明授权
    • Series of aspherical contact lenses
    • 非球面隐形眼镜系列
    • US07380937B2
    • 2008-06-03
    • US11284753
    • 2005-11-21
    • Ming YeCurtis Dean McKenneyJohn McNally
    • Ming YeCurtis Dean McKenneyJohn McNally
    • G02C7/04
    • G02C7/04G02C2202/08G02C2202/22
    • The present invention provides a series of aspherical contact lenses, each lens having a first central optical zone on its anterior surface and a second central optical zone on its posterior surface. Both central optical zones are aspherical surfaces. The first central optical zone is designed to have a surface which provides a target optical power and an optical power profile selected from the group consisting of (1) a substantially constant optical power profile, (2) a power profile mimicking the optical power profile of a spherical lens with an identical targeted optical power, and (3) a power profile in which lens spherical aberration at 6 mm diameter is from about 0.65 diopter to about 1.8 diopters more negative than spherical aberration at 4 mm diameter.
    • 本发明提供了一系列非球面隐形眼镜,每个透镜在其前表面上具有第一中心光学区,在其后表面上具有第二中心光学区。 两个中心光学区都是非球面。 第一中心光学区被设计成具有提供目标光功率的表面和从以下组成的组中选择的光功率曲线:(1)基本上恒定的光功率曲线,(2)模拟光功率曲线的功率曲线 具有相同目标光焦度的球面透镜,以及(3)直径为6mm的透镜球面像差为约0.65屈光度至约1.8屈光度的功率分布,其直径比直径为球面像差更负。
    • 2. 发明授权
    • Series of aspherical contact lenses
    • 非球面隐形眼镜系列
    • US07490937B2
    • 2009-02-17
    • US12100817
    • 2008-04-10
    • Ming YeCurtis Dean McKenneyJohn McNally
    • Ming YeCurtis Dean McKenneyJohn McNally
    • G02C7/04
    • G02C7/04G02C2202/08G02C2202/22
    • The present invention provides a series of aspherical contact lenses, each lens having a first central optical zone on its anterior surface and a second central optical zone on its posterior surface. Both central optical zones are aspherical surfaces. The first central optical zone is designed to have a surface which provides a target optical power and an optical power profile selected from the group consisting of (1) a substantially constant optical power profile, (2) a power profile mimicking the optical power profile of a spherical lens with an identical targeted optical power, and (3) a power profile in which lens spherical aberration at 6 mm diameter is from about 0.65 diopter to about 1.8 diopters more negative than spherical aberration at 4 mm diameter.
    • 本发明提供了一系列非球面隐形眼镜,每个透镜在其前表面上具有第一中心光学区,在其后表面上具有第二中心光学区。 两个中心光学区都是非球面。 第一中心光学区被设计成具有提供目标光功率的表面和从以下组成的组中选择的光功率曲线:(1)基本上恒定的光功率曲线,(2)模拟光功率曲线的功率曲线 具有相同目标光焦度的球面透镜,以及(3)直径为6mm的透镜球面像差为约0.65屈光度至约1.8屈光度的功率分布,其直径比直径为球面像差更负。
    • 7. 发明申请
    • Method and system for preventing high speed downlink packet access transmissions loss
    • 防止高速下行链路分组接入传输损耗的方法和系统
    • US20060251014A1
    • 2006-11-09
    • US11202588
    • 2005-08-12
    • Douglas CastorGregory SternbergJohn McNally
    • Douglas CastorGregory SternbergJohn McNally
    • H04Q7/00H04L12/56
    • H04W72/1226H04L1/1887H04W72/1284
    • The present invention is related to a method and system for preventing high speed downlink packet access (HSDPA) transmission loss due to transmission gap in compressed mode in a wireless transmit/receive unit (WTRU). In accordance with one embodiment, a Node-B receives a compressed mode transmission gap schedule of a WTRU, identifies HSDPA transmission time intervals (TTIs) that are affected by the WTRU compressed mode transmission gap schedule and schedules the HSDPA transmissions not to overlap the WTRU compressed mode transmission gap schedule. In accordance with another embodiment, the Node-B may inform the HSDPA transmission schedule to a radio network controller (RNC) and the RNC coordinates the HSDPA transmission schedule and a compressed mode transmission gap schedule of the WTRU.
    • 本发明涉及一种用于在无线发射/接收单元(WTRU)中防止由压缩模式下的传输间隙引起的高速下行链路分组接入(HSDPA)传输损耗的方法和系统。 根据一个实施例,节点B接收WTRU的压缩模式传输间隙调度,识别受到WTRU压缩模式传输间隙调度影响的HSDPA传输时间间隔(TTI),并调度不与WTRU重叠的HSDPA传输 压缩模式传输间隙时间表。 根据另一个实施例,节点B可以向无线电网络控制器(RNC)通知HSDPA传输调度,并且RNC协调HSDPA传输调度和WTRU的压缩模式传输间隙调度。
    • 10. 发明授权
    • Intelligent power distribution system
    • 智能配电系统
    • US06741442B1
    • 2004-05-25
    • US09688298
    • 2000-10-13
    • John McNallyDaniel Rohr
    • John McNallyDaniel Rohr
    • H01H4700
    • G06F1/206G06F1/266G06F2200/261H02J1/14H05K7/1457Y02D10/16Y02D10/175Y10T307/469Y10T307/484
    • An intelligent power distribution system including one or more intelligent power strips. The power strips can each include an elongated housing that may be adapted for mounting in an equipment rack. The housing can include a first end, a second end and plurality of power outlets mounted thereon. The first end can have a number of apertures that enable power and signal conductors to enter an interior region of the housing. The second end can include a first and a second communication port. The first communication port may be adapted to enable a computer to communicate with the power the strip. The second communication port may be adapted to enable the power the strip to be daisy chained with a second intelligent power strip. The power strip further includes power management circuitry that can power-on and power-off the power outlets in accordance with an operator defined sequence and delays. The power management circuitry can further sense electrical current drawn by the power strip and control operation of the power strip based on the sensed electrical current to minimize branch circuit breaker tripping.
    • 智能配电系统,包括一个或多个智能电源板。 电源条可以各自包括可适于安装在设备机架中的细长外壳。 壳体可以包括安装在其上的第一端,第二端和多个电源插座。 第一端可以具有使得电力和信号导体能够进入壳体的内部区域的多个孔。 第二端可以包括第一和第二通信端口。 第一通信端口可以适于使得计算机能够与该条带的电源通信。 第二通信端口可以适于使得条带能够与第二智能电源板串联链接。 电源板还包括电源管理电路,其可以根据操作者定义的顺序和延迟来接通和断电电源插座。 功率管理电路可以进一步感测由电源板拉出的电流,并且基于检测到的电流来控制电源板的操作,以使分支断路器跳闸最小化。