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    • 4. 发明申请
    • SYSTEMS AND METHODS FOR DETECTING OBJECTS IN THE GROUND
    • 用于检测地面物体的系统和方法
    • US20120017707A1
    • 2012-01-26
    • US13011577
    • 2011-01-21
    • Ronald Scott JacksonDavid W. SimmonsDavid A. Clark
    • Ronald Scott JacksonDavid W. SimmonsDavid A. Clark
    • G01D21/00
    • G01V3/15F41H11/136
    • The presently disclosed systems and methods may be utilized in connection with several different sensor suites for detecting objects in the ground. Such systems and methods may be utilized in conjunction with a variety of military and commercial vehicles. In various embodiments, a sensing system may be carried by a vehicle in a stowed or deployed position. While in the stowed position, a segmented boom may have a relatively small vertical profile in comparison to the length of the boom when fully extended. According to various embodiments, in the deployed position the height of the sensor may be controlled to avoid obstructions. A hoist connected to the boom may be utilized to move the boom between the deployed and stowed positions.
    • 目前公开的系统和方法可以结合用于检测地面中的物体的几个不同的传感器套件来使用。 这种系统和方法可以与各种军用和商业车辆结合使用。 在各种实施例中,感测系统可由车辆在收起或展开位置承载。 在收起位置时,与完全伸展的吊杆长度相比,分段式起重臂可具有相对小的垂直轮廓。 根据各种实施例,在展开位置中,可以控制传感器的高度以避免障碍物。 可以使用连接到起重臂的起重机来将升降臂移动到展开位置和收起位置之间。
    • 5. 发明授权
    • System and method for setting a data rate in TDMA communications
    • 用于在TDMA通信中设置数据速率的系统和方法
    • US08054819B2
    • 2011-11-08
    • US11951498
    • 2007-12-06
    • Mark W. ChamberlainDavid A. ClarkJoseph ShaverJohn W. Nieto
    • Mark W. ChamberlainDavid A. ClarkJoseph ShaverJohn W. Nieto
    • H04B7/212
    • H04L1/0002H04L1/0019H04L1/20H04L2001/0092Y02D50/10
    • A mobile ad-hoc network includes a plurality of N mobile nodes and wireless communication links connecting the mobile nodes, which each include a communications device for transmitting and routing data packets wirelessly to other mobile nodes via the wireless communication links in accordance with a time division multiple access (TDMA) data transmission protocol using a TDMA epoch that is divided into a beacon interval, digital voice interval and digital data interval. The mobile nodes monitor channel conditions using the beacon, digital voice and digital data intervals and provide a network conductivity performance as valid receptions occur within mobile nodes. A data rate is calculated and set for other N−1 mobile nodes using monitored channel conditions for the beacon, digital voice and digital data intervals.
    • 移动自组织网络包括多个N个移动节点和连接移动节点的无线通信链路,每个移动节点包括用于根据时分经由无线通信链路无线地将数据分组无线地传送到其他移动节点的通信设备 使用被划分为信标间隔,数字语音间隔和数字数据间隔的TDMA纪元的多址(TDMA)数据传输协议。 移动节点使用信标,数字语音和数字数据间隔监视信道条件,并提供网络电导性能,因为在移动节点内发生有效的接收。 使用信标,数字语音和数字数据间隔的监视信道条件,为其他N-1移动节点计算数据速率并设置数据速率。
    • 6. 发明申请
    • SYSTEM AND METHOD FOR SETTING A DATA RATE IN TDMA COMMUNICATIONS
    • 用于设置TDMA通信中的数据速率的系统和方法
    • US20090147766A1
    • 2009-06-11
    • US11951498
    • 2007-12-06
    • Mark W. CHAMBERLAINDavid A. ClarkJoseph ShaverJohn W. Nieto
    • Mark W. CHAMBERLAINDavid A. ClarkJoseph ShaverJohn W. Nieto
    • H04B7/212
    • H04L1/0002H04L1/0019H04L1/20H04L2001/0092Y02D50/10
    • A mobile ad-hoc network includes a plurality of N mobile nodes and wireless communication links connecting the mobile nodes, which each include a communications device for transmitting and routing data packets wirelessly to other mobile nodes via the wireless communication links in accordance with a time division multiple access (TDMA) data transmission protocol using a TDMA epoch that is divided into a beacon interval, digital voice interval and digital data interval. The mobile nodes monitor channel conditions using the beacon, digital voice and digital data intervals and provide a network conductivity performance as valid receptions occur within mobile nodes. A data rate is calculated and set for other N−1 mobile nodes using monitored channel conditions for the beacon, digital voice and digital data intervals.
    • 移动自组织网络包括多个N个移动节点和连接移动节点的无线通信链路,每个移动节点包括用于根据时分经由无线通信链路无线地将数据分组无线地传送到其他移动节点的通信设备 使用被划分为信标间隔,数字语音间隔和数字数据间隔的TDMA纪元的多址(TDMA)数据传输协议。 移动节点使用信标,数字语音和数字数据间隔监视信道条件,并提供网络电导性能,因为在移动节点内发生有效的接收。 使用信标,数字语音和数字数据间隔的监视信道条件,为其他N-1移动节点计算数据速率并设置数据速率。
    • 9. 发明授权
    • Sortation and sequencing system
    • 分拣和排序系统
    • US5977501A
    • 1999-11-02
    • US764950
    • 1996-12-13
    • James WerkheiserPhillip N. RossDavid A. ClarkRobert Porter
    • James WerkheiserPhillip N. RossDavid A. ClarkRobert Porter
    • B07C3/02B07C209/583
    • B07C3/02Y10S209/917Y10S209/923Y10S209/942
    • A sortation and sequencing system for sorting a plurality of different items into discrete orders and putting the items into a predetermined sequence within each discrete order or group of orders. The system includes an induction station for accepting items in random succession, and a sensor at the induction station for sensing an identifying characteristic unique to each item and for generating tracking signals uniquely corresponding to the items for tracking the items through the system. A controller receives the tracking signals and generates sort command and sequence command signals which are in part responsive to the tracking signals. A sorter receives the items from the induction station and directs individual items to selected ones of a plurality of sort locations, each sort location corresponding to an individual order or group of orders, in response to sort command signals from the controller. A sequencer associated with each sort location receives sorted items from the sorter and discharges the items in a preselected sequence at a discharge location in response to the sequence control signals.
    • 一种分类和排序系统,用于将多个不同的项目分类成离散的订单,并将物品放入每个离散的订单或订单组中的预定顺序。 该系统包括用于随机连续接收物品的感应台和感应台处的传感器,用于感测每个物品独有的识别特征,并产生唯一对应于通过系统跟踪物品的物品的跟踪信号。 控制器接收跟踪信号并产生分类命令和序列命令信号,其部分地响应跟踪信号。 分类器响应于来自控制器的分类命令信号,从各导入站接收项目,并将各个项目引导到多个分类位置中的选定的分类位置,每个分类位置对应于单个顺序或一组订单。 与每个分类位置相关联的定序器响应于序列控制信号,从分类器接收排序的物品,并以放电位置的预选序列排出物品。