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    • 2. 发明授权
    • Multi-dwell channel monitoring for coordinated frequency hopped systems
    • 协调跳频系统的多停留信道监测
    • US08077597B1
    • 2011-12-13
    • US12074800
    • 2008-03-06
    • Robert J. FrankRichard L. RobertsonCarlos J. ChavezMark W. Barglof
    • Robert J. FrankRichard L. RobertsonCarlos J. ChavezMark W. Barglof
    • H04J11/00H04B7/216
    • H04B1/715H04B2001/7154
    • Spectral environment estimation systems and methods are provided for use with frequency hopped communications systems. A spectral sensor is configured to receive input signals from a signal aperture and to perform spectral estimations on the input signals to generate a frequency domain spectral estimate. Ordinary spectral characterization circuitry is configured to receive the frequency domain spectral estimate as an input and to produce an ordinary frequency domain spectral environment estimate based on the spectral estimate. Frequency hopping translation circuitry is configured to receive the frequency domain spectral estimate from the spectral sensor as an input and to produce a de-hopped channel domain spectral estimate based on the frequency domain spectral estimate. De-hopped spectral characterization circuitry is configured to receive the de-hopped channel domain spectral estimate as an input and to produce a de-hopped channel domain spectral environment estimate based on the de-hopped spectral estimate. Spectral environment integration circuitry is configured to generate an integrated spectral environment estimate, based on the ordinary frequency domain spectral environment estimate and the de-hopped channel domain spectral environment estimate, for use by networked communications systems or devices in controlling frequency hopped communications.
    • 光谱环境估计系统和方法被提供用于跳频通信系统。 光谱传感器被配置为从信号孔径接收输入信号并且对输入信号执行频谱估计以产生频域频谱估计。 普通频谱表征电路被配置为接收频域频谱估计作为输入,并且基于频谱估计产生普通频域频谱环境估计。 跳频转换电路被配置为从频谱传感器接收频域频谱估计作为输入,并且基于频域频谱估计产生去跳频信道域频谱估计。 去跳频谱表征电路被配置为接收去跳频信道域频谱估计作为输入,并且基于去跳频谱估计产生去跳频信道域频谱环境估计。 频谱环境集成电路被配置为基于普通频域频谱环境估计和去跳频信道域频谱环境估计来生成综合频谱环境估计,供网络通信系统或设备在控制跳频通信中使用。
    • 4. 发明授权
    • Solid fuel conversion furnace
    • 固体燃料转化炉
    • US4007696A
    • 1977-02-15
    • US619141
    • 1975-10-01
    • Richard L. Robertson
    • Richard L. Robertson
    • C10B53/00C10B57/00F23B1/36
    • F23B90/06F23B1/36F23B7/005
    • A solid fuel conversion furnace for breaking down solid fuel into its two basic combustible components, combustible gases and combustible solids, prior to ignition. This is achieved by preheating the solid fuel when it is not in the presence of a combustion supporting atmosphere. This preheating of the solid fuel is achieved through the use of a heat exchange compartment where the hot exhaust gases transfer their heat through the heat exchange wall to preheat the solid fuel in the fuel compartment. The hot exhaust gases are obtained from the ignition of the combustible gases and the combustible solids in the presence of oxygen. This ignition occurs in the fire box area which is below the fuel compartment. The combustible solids are gravity fed to the fire box and the combustible gases are fed to the fire box by both their self-generated pressure and the furnace exhaust draft.
    • 一种固体燃料转化炉,用于在点燃之前将固体燃料分解成其两种基本可燃组分,可燃气体和可燃固体。 这是通过在不存在燃烧支持气氛的情况下预热固体燃料来实现的。 固体燃料的这种预热通过使用热交换室来实现,其中热废气将其热量传递通过热交换壁以预热燃料室中的固体燃料。 热的废气是在有氧的情况下从可燃气体和可燃固体的点火获得的。 该点火发生在燃料箱下方的火箱区域。 可燃固体被重力供给到消防箱,可燃气体通过其自身产生的压力和炉排气通道进入燃料箱。
    • 5. 发明授权
    • Projection display for a aircraft cockpit environment
    • 飞机驾驶舱环境的投影显示
    • US06972788B1
    • 2005-12-06
    • US10058604
    • 2002-01-28
    • Richard L. RobertsonMark A. WoytassekBrian P. Dehmlow
    • Richard L. RobertsonMark A. WoytassekBrian P. Dehmlow
    • G02B27/00G02B27/01H04N5/64H04N5/74H04N9/31
    • G02B27/0006G02B27/01G02B2027/0156H04N5/7408H04N9/3141
    • A projection display is provided according to one embodiment of the invention. The projection display includes a hollow case including a window opening, a screen formed on one portion of the case, and at least one mirror internally mounted to the case at a position to reflect light from the window opening to the screen. The projection display further includes a window mounted in the window opening. The projection display further includes an optical engine mounted to the case. The optical engine is positioned over the window and oriented so that emitted light from the optical engine is directed onto the at least one mirror. The projection display further includes a diaphragm internally attached to the case and dividing an internal volume of the case into a first portion and a second portion. The projection display further includes a gas filling the second portion of the case at an overpressure and a vent communicating with the first portion of the case and communicating with an external environment. The vent at least partially equalizes the overpressure of the second portion with a pressure of the external environment.
    • 根据本发明的一个实施例提供投影显示器。 投影显示器包括中空壳体,其包括窗口,形成在壳体的一部分上的屏幕,以及至少一个反射镜,其内部安装到壳体,以将来自窗口的光反射到屏幕。 投影显示器还包括安装在窗口中的窗口。 投影显示器还包括安装在壳体上的光学引擎。 光学引擎定位在窗口上并定向成使得来自光学引擎的发射光被引导到至少一个反射镜上。 投影显示器还包括内部附接到外壳并将外壳的内部容积分成第一部分和第二部分的隔膜。 投影显示器还包括在超压下填充壳体的第二部分的气体和与壳体的第一部分连通并与外部环境通信的通气口。 排气口在外部环境的压力下至少部分地均衡第二部分的超压。
    • 6. 发明授权
    • Apparatus for lengthening the path of a light beam
    • 用于延长光束路径的装置
    • US06873468B1
    • 2005-03-29
    • US09595192
    • 2000-06-16
    • Richard L. Robertson
    • Richard L. Robertson
    • G02B17/02G02B27/09G02B27/14G02B5/08G02B7/18
    • G02B17/023G02B27/0911G02B27/0977
    • The invention is an apparatus for lengthening the path of a light beam. The apparatus includes an at least partially enclosed chamber having a first opening and a second opening. A first reflective surface is disposed within the chamber and is obliquely oriented with respect to an incoming path of the beam. The beam reflects off of the first reflective surface after the beam enters the chamber through the first opening. Second and third reflective surfaces are disposed within the chamber and are generally parallel to the incoming path of the beam. The beam is reflected a plurality of times between the second and third reflective surfaces after the beam is reflected by the first reflective surface. A fourth reflective surface is disposed within the chamber and is obliquely oriented with respect to the incoming path of the beam. The fourth reflective surface directs the beam through the second opening after the beam has been reflected a plurality of times between the second and third reflective surfaces. The apparatus may be used for amplifying the lateral deflection of a laser beam in an optical analog-to-digital converter.
    • 本发明是一种用于延长光束路径的装置。 该装置包括具有第一开口和第二开口的至少部分封闭的腔室。 第一反射表面设置在腔室内并且相对于梁的输入路径倾斜定向。 在光束通过第一开口进入腔室之后,光束从第一反射表面反射出来。 第二和第三反射表面设置在腔室内并且大致平行于梁的输入路径。 在光束被第一反射表面反射之后,光束在第二和第三反射表面之间反射多次。 第四反射表面设置在腔室内并且相对于梁的输入路径倾斜定向。 第四反射表面在光束已经在第二和第三反射表面之间多次反射之后引导光束通过第二开口。 该装置可以用于放大光学模数转换器中激光束的横向偏转。
    • 9. 发明授权
    • Control of reconfigurable SIS/MAC protocols used in wireless communication devices
    • 控制无线通信设备中使用的可重新配置的SIS / MAC协议
    • US07450523B1
    • 2008-11-11
    • US11194779
    • 2005-08-01
    • Richard L. RobertsonRobert J. Frank
    • Richard L. RobertsonRobert J. Frank
    • H04L12/26
    • H04L41/082H04W8/245
    • A method, a device, and a system for reconfiguring communication transmission characteristics in response to a changing communication environment is provided. An environment at a communication device is characterized to determine if a transmission parameter associated with processing of a communication signal at a physical layer or a network interface layer should change based on current conditions at the communication device. If a need is identified, a second transmission parameter is selected based on the environment monitoring. A request identifying the second transmission parameter is sent to a manager device using an existing communication link. A response from the manager device is received indicating acceptance or rejection of use of the second transmission parameter in communicating with a second communication device. If the response indicates acceptance of use of the second transmission parameter, the physical layer and/or the network interface layer are reconfigured based on the selected second transmission parameter.
    • 提供了一种响应于不断变化的通信环境来重新配置通信传输特性的方法,设备和系统。 通信设备的环境的特征在于确定与物理层或网络接口层处的通信信号的处理相关联的传输参数是否应当改变,基于通信设备的当前状况。 如果确定需要,则基于环境监视选择第二传输参数。 使用现有通信链路将识别第二传输参数的请求发送到管理器设备。 接收到来自管理器设备的响应,指示在与第二通信设备进行通信时接受或拒绝使用第二传输参数。 如果响应指示接受使用第二传输参数,则基于所选择的第二传输参数重新配置物理层和/或网络接口层。