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    • 1. 发明授权
    • Method and apparatus for determining transmit power levels for data
transmission and reception
    • 用于确定数据传输和接收的发射功率电平的方法和装置
    • US5844940A
    • 1998-12-01
    • US496988
    • 1995-06-30
    • Richard L. GoodsonMickey C. RushingGary D. Hunt
    • Richard L. GoodsonMickey C. RushingGary D. Hunt
    • H04B7/005H04B1/38
    • H04W52/367
    • An apparatus and method for a data communications device such as a modem (100, 101) to determine transmit power levels for data transmission and reception, from a received probe signal. The various embodiments utilizing a processor (108) or a digital signal processor (106) receive a probe signal, transmitted at two different power levels, which also typically contains noise and other distortions. The various method and apparatus embodiments then determine average signal levels (501), average noise levels (503), and a set of signal to distortion ratios corresponding to combinations of symbol rates and carrier frequencies. Parameters such as the receive signal power (509), the harmonic content (507), the proportional noise (511), and a signal to distortion ratio threshold (513) are utilized to determine a transmit power level (515).
    • 一种用于数据通信设备的装置和方法,例如调制解调器(100,101),用于从接收到的探测信号确定数据发送和接收的发射功率电平。 利用处理器(108)或数字信号处理器(106)的各种实施例接收在两个不同功率电平(其也通常包含噪声和其它失真)的传输信号。 各种方法和装置实施例然后确定对应于符号速率和载波频率的组合的平均信号电平(501),平均噪声电平(503)以及一组信号到失真比。 使用诸如接收信号功率(509),谐波含量(507),比例噪声(511)和信号到失真比阈值(513)的参数来确定发射功率电平(515)。
    • 2. 发明授权
    • Apparatus and method for detecting and discriminating various signal
types in the presence of impulse distortions
    • 在存在脉冲失真的情况下检测和识别各种信号类型的装置和方法
    • US5809085A
    • 1998-09-15
    • US496048
    • 1995-06-28
    • Richard L. GoodsonMickey C. RushingGary D. HuntLee T. Gusler, Jr.
    • Richard L. GoodsonMickey C. RushingGary D. HuntLee T. Gusler, Jr.
    • H03D1/06H03D1/02
    • H03D1/06
    • An apparatus and method are provided for a data communications device, such as a modem (100, 101) or facsimile machine, to detect and discriminate various amplitude modulated signals, such as an ANS signal of the ITU V.25 protocol and an ANSam signal of the ITU V.8 protocol, which may be subject to impulse distortions (FIG. 5B). The apparatus and method embodiments band pass filter (204) an incoming signal at a first frequency, and dynamically limit (208) any impulse distortions of the incoming signal to a limit threshold (211). The limit thresholds may be dynamically determined by rectifying (209) and low pass filtering (210) the band pass filtered signal to determine a low frequency average magnitude level of the incoming signal, with the limit thresholds set as a predetermined variance from this low frequency average magnitude level. The various frequency components of the amplitude modulated signal may then be discriminated by rectifying (215) and band pass filtering (217) at a second frequency, such as the frequency of the amplitude modulating component. Various detectors (205, 206) then determine the type of information present in the incoming signal, such as whether the signal is an ANS signal or an ANSam signal.
    • 为诸如调制解调器(100,101)或传真机之类的数据通信设备提供了一种用于检测和鉴别各种幅度调制信号(诸如ITU V.25协议的ANS信号)和ANSam信号的装置和方法 的ITU V.8协议,可能会受到脉冲失真(图5B)的影响。 装置和方法实施例以第一频率对输入信号进行带通滤波器(204),并且将输入信号的任何脉冲失真动态地限制(208)到极限阈值(211)。 极限阈值可以通过整流(209)和低通滤波(210)带通滤波信号来动态地确定,以确定输入信号的低频平均幅度电平,其中限制阈值被设置为与该低频率的预定方差 平均幅度级别。 然后可以通过在诸如振幅调制分量的频率的第二频率进行整流(215)和带通滤波(217)来鉴别幅度调制信号的各种频率分量。 各种检测器(205,206)然后确定输入信号中存在的信息的类型,诸如信号是ANS信号还是ANSam信号。
    • 3. 发明授权
    • Microscope with plural zoom lens assemblies in series
    • 具有多个变焦镜头组件的显微镜串联
    • US5668660A
    • 1997-09-16
    • US346028
    • 1994-11-29
    • Gary D. Hunt
    • Gary D. Hunt
    • G02B21/02G02B21/00G02B23/00
    • G02B21/025
    • A microscope includes an objective lens and a pair of zoom lenses arranged in series along an optical path from the objective lens to a video camera, which converts the output of the second zoom lens to a video signal for display of a magnified first image on an associated monitor. A portion of the output from the objective lens is split to a second video camera which generates a second video signal to display a second image on the monitor, of a different magnification from the first image. The objective is fixed on a holder which can be removably mounted in a receptacle on the microscope housing and retained therein by a manually releasable latch. An optical binocular eyepiece assembly has a prism which is selectively movable into the optical path to intercept the output of the second zoom lens. Illuminating visible light is transmitted from a remote source into the optical path and through the objective lens to illuminate the object viewed. A polarizer/analyzer unit is provided. A laser source directs a laser beam via a splitter into the optical path and thence to the objective lens. The splitter is movable between a use position in the optical path and a non-use position out of the optical path.
    • 显微镜包括物镜和沿着从物镜到摄像机的光路串联布置的一对变焦透镜,其将第二变焦镜头的输出转换为视频信号,以在第一变焦镜头上显示放大的第一图像 关联监视器。 来自物镜的输出的一部分被分割成第二摄像机,其产生第二视频信号以在监视器上显示与第一图像不同的倍率的第二图像。 该目的被固定在可移除地安装在显微镜壳体上的容器中并通过手动释放的闩锁保持在其中的保持器上。 光学双目目镜组件具有可选择性地移动到光路中以拦截第二变焦镜头的输出的棱镜。 照明的可见光从远程光源传输到光路中并通过物镜照射被观察的物体。 提供偏振器/分析器单元。 激光源通过分光器将激光束引导到光路中,从而将物镜引导到物镜。 分路器可在光路中的使用位置和光路之外的不使用位置之间移动。
    • 5. 发明授权
    • Computer controlled article handling device
    • 计算机控制物品处理装置
    • US4978275A
    • 1990-12-18
    • US387692
    • 1989-07-31
    • Laurie M. ReidGary D. Hunt
    • Laurie M. ReidGary D. Hunt
    • B65G57/00B65G57/11
    • B65G57/11B65G57/005
    • An improved palletizer is provided for receiving successive groups of articles in a pattern forming area and transferring the groups in succession to a stacking area on a pallet. A servocontrolled sweep system transfers article groups from the pattern formings to the stacking area for stacking one group on top of the other as the pallet is indexed downward by a hoist system after each successive group, and a carriage system interleaves separator sheets between successive groups. A programmable logic controller controls the servocontrolled sweep system in accordance with a velocity characteristic designed to increase machine speed and efficiency.
    • 提供了一种改进的码垛机,用于在图案形成区域中接收连续的物品组,并将这些组连续地传送到托盘上的堆叠区域。 伺服控制的扫掠系统将物品组从图案结构传送到堆垛区域,用于在每个连续的组之后通过提升系统将托盘向下索引,并且在连续的组之间交替分隔板,从而堆叠一组在另一组之上。 可编程逻辑控制器根据旨在提高机器速度和效率的速度特性来控制伺服控制的扫描系统。
    • 6. 发明申请
    • VERTICALLY STAGGERED PALLET STACKING ASSEMBLY LINE AND METHOD
    • 垂直堆叠堆栈组装线和方法
    • US20090200137A1
    • 2009-08-13
    • US12425881
    • 2009-04-17
    • Christopher A. RAYDavid N. CooleyGary D. HuntJ. Michael ConnerGert B. GastDonald Peter WelchMark T. BroganJohn P. ChoufaniKevin F. Keyes
    • Christopher A. RAYDavid N. CooleyGary D. HuntJ. Michael ConnerGert B. GastDonald Peter WelchMark T. BroganJohn P. ChoufaniKevin F. Keyes
    • B65G43/10
    • B65G61/00B65G57/03
    • A pallet stacking assembly line having at least two pick-and-place robots are used. The first robot has a relatively low position. The second robot is in an elevated position. A pallet dispenser dispenses a first pallet onto a pallet conveyor The pallet conveyor moves the first pallet to a first build position in front of the first robot. The first robot picks products from a first pick position and stacks them on the first pallet. Once the stack of products on the first pallet reach approximately half the finished stack height, the pallet conveyor carries the first pallet to a second build position in front of the second robot. At the same time, the pallet dispenser dispenses a second pallet which is carried to the first build position. The second robot picks products from a second pick position and places them on the upper portion of the stack on the first pallet to complete the stack. Meanwhile, the first robot is picking and placing products on the lower portion of the second pallet. The process continues indexing, with both robots ideally being busy all the time. Each robot builds half the stack on the pallet,
    • 使用具有至少两个拾放机器人的托盘堆叠装配线。 第一台机器人的位置相对较低。 第二台机器人处于高位。 托盘分配器将第一托盘分配到托盘输送机上托盘输送机将第一托盘移动到第一机器人前面的第一构建位置。 第一个机器人从第一个拾取位置拾取产品,并将其堆叠在第一个托盘上。 一旦第一托盘上的产品堆叠达到了完成堆叠高度的大约一半,托盘输送机将第一托盘运送到第二机器人前面的第二构建位置。 同时,托盘分配器分配托运到第一构建位置的第二托盘。 第二机器人从第二拾取位置拾取产品并将它们放置在第一托盘上的堆叠的上部以完成堆叠。 同时,第一台机器人在第二托盘的下部拾取和放置产品。 该过程继续进行索引,两个机器人理想地始终处于忙碌状态。 每个机器人在托盘上堆叠一半的堆叠,
    • 10. 发明授权
    • Vertically staggered pallet stacking assembly line and method
    • 垂直交错托盘堆垛装配线及方法
    • US07559737B2
    • 2009-07-14
    • US11036921
    • 2005-01-14
    • Christopher A. RayDavid N. CooleyGary D. HuntJ. Michael ConnorGert B. GastDonald Peter WelchMark T. BroganJohn P. ChoufaniKevin F. Keyes
    • Christopher A. RayDavid N. CooleyGary D. HuntJ. Michael ConnorGert B. GastDonald Peter WelchMark T. BroganJohn P. ChoufaniKevin F. Keyes
    • B65G57/02B65G1/18B65G57/00
    • B65G61/00B65G57/03
    • A new type of pallet stacking assembly line. Two pick-and-place robots are used. The first robot has a relatively low position. The second robot is in an elevated position. A pallet dispenser dispenses a first pallet onto a pallet conveyor. The pallet conveyor then moves the first pallet to a first build position in front of the first robot. The first robot then begins picking products from a first pick position and stacking them on the first pallet. Once the products on the first pallet reach approximately half the finished height, the pallet conveyor carries the first pallet over to a second build position in front of the second robot. At the same time, the pallet dispenser dispenses a second pallet which is carried to the first build position. The second robot picks products from a second pick position and places them on the upper portion of the first pallet in order to complete the stack. Meanwhile, the first robot is picking and placing products on the lower portion of the second pallet. The process continues indexing, with both robots ideally being busy all the time. Each robot only has to build half the pallet. Thus, overall line speed is increased.
    • 一种新型托盘堆垛装配线。 使用两个拾放机器人。 第一台机器人的位置相对较低。 第二台机器人处于高位。 托盘分配器将第一托盘分配到托盘输送机上。 托盘输送机然后将第一托盘移动到第一机器人前面的第一构建位置。 然后,第一个机器人开始从第一个拾取位置挑选产品并将其堆叠在第一个托盘上。 一旦第一托盘上的产品达到成品高度的大约一半,托盘输送机将第一托盘运送到第二机器人前面的第二构建位置。 同时,托盘分配器分配托运到第一构建位置的第二托盘。 第二机器人从第二拾取位置拾取产品并将它们放置在第一托盘的上部以便完成堆叠。 同时,第一台机器人在第二托盘的下部拾取和放置产品。 该过程继续进行索引,两个机器人理想地始终处于忙碌状态。 每个机器人只需要制作一半的托盘。 因此,总线速度增加。