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    • 2. 发明授权
    • Dynamically reconfigurable electrical interface
    • 动态可重新配置的电接口
    • US08751069B2
    • 2014-06-10
    • US13162260
    • 2011-06-16
    • Gregory M. WellbrookCharlie Wang
    • Gregory M. WellbrookCharlie Wang
    • H03M1/04
    • G06F13/4072Y10T307/469Y10T307/766Y10T307/832Y10T307/865
    • A dynamically reconfigurable electrical interface is disclosed that can be used in various applications, including avionics communications. In one embodiment, a first switch receives an input signal and routes it to the applicable signal conditioning path unit that conditions the input signal, after which a second switch routes it to an amplifier. The amplifier provides an amplified signal to an analog-to-digital converter that generates a corresponding numerical value based on the voltage of the amplified signal that is analyzed by a processor to determine information conveyed by the input signal based on a particular electrical interface. Multiple distinct interfaces can be accommodated by on one more processors accessing instructions sets for processing information corresponding to a particular electrical interface. In another embodiment, the processor provides numerical values to a digital-to-analog converter producing an analog signal that is amplified, routed, and conditioned to convey information using a particular electrical interface.
    • 公开了可以用于包括航空电子通信在内的各种应用的动态可重新配置的电接口。 在一个实施例中,第一开关接收输入信号并将其路由到适用于调节输入信号的信号调理路径单元,之后第二开关将其传送到放大器。 放大器向模数转换器提供放大的信号,其基于由处理器分析的放大信号的电压产生相应的数值,以确定基于特定电接口的输入信号所传达的信息。 多个不同的接口可以通过访问用于处理对应于特定电接口的信息的指令集的多个处理器来适应。 在另一个实施例中,处理器向数模转换器提供数值,产生模拟信号,该模拟信号被放大,路由和调节以使用特定电接口传送信息。
    • 5. 发明申请
    • ADJUSTABLE SUPPORT APPARATUS
    • 可调整的支持设备
    • US20120132771A1
    • 2012-05-31
    • US13215808
    • 2011-08-23
    • Charlie WANG
    • Charlie WANG
    • F16M13/02
    • F16M11/2014F16M11/2092F16M11/24F16M2200/044F16M2200/063
    • The present invention relates to an adjustable support apparatus comprising a support rod, a chassis, and a connecting seat. The two ends of the support rod are provided with the chassis and the connecting seat via a U-type connecting unit, and the hollow rod of the support rod is able to cover a linked device. This is achieved to maintain a fixed angle between the connecting seat and the chassis by using the linked device when users adjust the position of the connecting seat. Because of the assembly of the U-type connecting unit, interference from each unit can be avoided, and the adjustable range and angle of the support rod and the connecting seat can be increased, and furthermore to balance the force on both sides of the U-type connecting unit and improve the construction of the support apparatus.
    • 本发明涉及一种可调节支撑装置,包括支撑杆,底盘和连接座。 支撑杆的两端通过U型连接单元设置有底盘和连接座,支撑杆的中空杆能够覆盖连接的装置。 当用户调整连接座的位置时,通过使用连接的装置来实现在连接座和底盘之间保持固定的角度。 由于U型连接单元的组装,可以避免每个单元的干扰,并且可以增加支撑杆和连接座的可调节范围和角度,此外平衡U的两侧的力 型连接单元,改善了支撑装置的结构。
    • 6. 发明授权
    • Methods for flattening a 3D surface into a 2D piece
    • 将3D表面平坦化为2D件的方法
    • US08411090B2
    • 2013-04-02
    • US12199551
    • 2008-08-27
    • Changling Charlie Wang
    • Changling Charlie Wang
    • G06T15/10
    • G06T19/00G06T2219/021
    • Disclosed is a method for flattening a 3D surface into a 2D piece. In one embodiment, the method is implemented by constructing a plurality of wire-patches by feature curves on a surface patch of the 3D surface, wherein each of feature curves comprises a plurality of wire-nodes; computing an optimal 2D angle for each of said wire-nodes of the constructed wire-patches; determining an optimal position for each of said wire-nodes based on the computed optimal 2D angles thereof, respectively; and laying out each of said feature curves in 2D based on the determined optimal position. A device to flatten a 3D surface into a 2D piece is also provided.
    • 公开了一种将3D表面平坦化为2D件的方法。 在一个实施例中,该方法通过在3D表面的表面贴片上的特征曲线构造多个线迹来实现,其中每个特征曲线包括多个线节点; 为所述构造的线片的每个所述线节点计算最佳2D角; 基于所计算的最佳2D角度,分别确定每个所述线节点的最佳位置; 并基于所确定的最佳位置在2D中布置每个所述特征曲线。 还提供了将3D表面平坦化为2D件的装置。
    • 7. 发明申请
    • Dynamically Reconfigurable Electrical Interface
    • 动态可重构电接口
    • US20120323409A1
    • 2012-12-20
    • US13162260
    • 2011-06-16
    • Gregory M. WellbrookCharlie Wang
    • Gregory M. WellbrookCharlie Wang
    • H03M1/12H03M1/00G06F17/00
    • G06F13/4072Y10T307/469Y10T307/766Y10T307/832Y10T307/865
    • A dynamically reconfigurable electrical interface is disclosed that can be used in various applications, including avionics communications. In one embodiment, a first switch receives an input signal and routes it to the applicable signal conditioning path unit that conditions the input signal, after which a second switch routes it to an amplifier. The amplifier provides an amplified signal to an analog-to-digital converter that generates a corresponding numerical value based on the voltage of the amplified signal that is analyzed by a processor to determine information conveyed by the input signal based on a particular electrical interface. Multiple distinct interfaces can be accommodated by on one more processors accessing instructions sets for processing information corresponding to a particular electrical interface. In another embodiment, the processor provides numerical values to a digital-to-analog converter producing an analog signal that is amplified, routed, and conditioned to convey information using a particular electrical interface.
    • 公开了可以用于包括航空电子通信在内的各种应用的动态可重新配置的电接口。 在一个实施例中,第一开关接收输入信号并将其路由到适用于调节输入信号的信号调理路径单元,之后第二开关将其传送到放大器。 放大器向模数转换器提供放大的信号,其基于由处理器分析的放大信号的电压产生相应的数值,以确定基于特定电接口的输入信号所传达的信息。 多个不同的接口可以通过访问用于处理对应于特定电接口的信息的指令集的多个处理器来适应。 在另一个实施例中,处理器向数模转换器提供数值,产生模拟信号,该模拟信号被放大,路由和调节以使用特定电接口传送信息。
    • 8. 发明申请
    • METHODS FOR FLATTENING A 3D SURFACE INTO A 2D PIECE
    • 将三维表面平滑化成2D图像的方法
    • US20100054625A1
    • 2010-03-04
    • US12199551
    • 2008-08-27
    • Changling Charlie Wang
    • Changling Charlie Wang
    • G06K9/36
    • G06T19/00G06T2219/021
    • Disclosed is a method for flattening a 3D surface into a 2D piece. In one embodiment, the method is implemented by constructing a plurality of wire-patches by feature curves on a surface patch of the 3D surface, wherein each of feature curves comprises a plurality of wire-nodes; computing an optimal 2D angle for each of said wire-nodes of the constructed wire-patches; determining an optimal position for each of said wire-nodes based on the computed optimal 2D angles thereof, respectively; and laying out each of said feature curves in 2D based on the determined optimal position. A device to flatten a 3D surface into a 2D piece is also provided.
    • 公开了一种将3D表面平坦化为2D件的方法。 在一个实施例中,该方法通过在3D表面的表面贴片上的特征曲线构造多个线迹来实现,其中每个特征曲线包括多个线节点; 为所述构造的线片的每个所述线节点计算最佳2D角; 基于所计算的最佳2D角度,分别确定每个所述线节点的最佳位置; 并基于所确定的最佳位置在2D中布置每个所述特征曲线。 还提供了将3D表面平坦化为2D件的装置。