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    • 1. 发明授权
    • Laser aim scoring system
    • 激光瞄准系统
    • US07147472B1
    • 2006-12-12
    • US10691455
    • 2003-10-23
    • James D. HabersatBrian C. RedmanJonathan S. LeiJohn E. NettletonMichael M. Quarles
    • James D. HabersatBrian C. RedmanJonathan S. LeiJohn E. NettletonMichael M. Quarles
    • F41A33/00F41G3/26G09B19/00
    • F41G7/006F41A33/00F41J5/02
    • A system, called the Laser Aim Scoring System, and method for automatically scoring gunner training sessions for simulated laser-guided missile, target engagements using the laser designator without the need for training or tactical rounds are disclosed. In the disclosed invention, a pop-up target and its surrounds are separately monitored for radiations at the laser designator frequency. “Hit” or “Miss” scoring is based on detection of the laser radiation at the laser designator frequency illuminating the appropriate region around or on the target at the appropriate time with respect to a simulated missile launch signal at the start of the training engagement, in accordance with the engagement profile programmed into the scoring computer prior to the start of training. The laser aim scoring system send a signal to lower the pop-up target in response to a “Hit” score, and if desired by the user, also sends a signal to initiate smoke and flash signals from a Hoffman Kill Simulator interfaced with the system. The disclosed invention also sends the appropriate signals at the end of the engagement to reset the target in the upright position so that it is ready for the next engagement. The disclosed invention includes subsystems for transmitting data, video imagery, and control signals between the portion of the system at the target location and the portion of the system at the control tower.
    • 公开了一种称为激光瞄准评分系统的系统,以及用于自动计算模拟激光导弹的炮手培训课程的方法,使用激光指示器进行目标接触,而不需要训练或战术回合。 在所公开的发明中,单独地监视弹出目标及其周围的激光指示器频率的辐射。 “打击”或“小姐”得分是基于在训练接触开始时相对于模拟的导弹发射信号在适当的时刻检测在激光指示器频率处的激光辐射照射目标周围或靶上的适当区域, 根据在开始训练之前编入计分计算机的参与轮廓。 激光目标评分系统响应于“命中”分数发送信号以降低弹出目标,并且如果用户需要,还发送信号以从与系统接口的霍夫曼杀伤模拟器发起烟雾和闪光信号 。 所公开的发明还在接合结束时发送适当的信号以将目标重新设置在直立位置,使得其准备好进行下一个接合。 所公开的发明包括用于在目标位置处的系统的部分与控制塔的系统的部分之间传输数据,视频图像和控制信号的子系统。
    • 2. 发明授权
    • Laser obstacle avoidance apparartus
    • 激光障碍避免
    • US07133123B1
    • 2006-11-07
    • US10833634
    • 2004-04-27
    • Jonathan S. LeiBradley W. SchillingDallas N. BarrJohn E. NettletonMichael M. Quarles
    • Jonathan S. LeiBradley W. SchillingDallas N. BarrJohn E. NettletonMichael M. Quarles
    • G01C3/08
    • G01C3/08
    • The laser obstacle avoidance device of the present invention includes an optical head which includes a laser source which produces a laser signal, crossed cylindrical lenses and through which the laser signal is transmitted, a transceiver including a receiving lens through which a reflected laser signal is received by the transceiver, a receiver and a line filter through which the reflected laser signal is filtered, and scanners which receive the reflected laser signal; and control electronics optically connected to the optical head, wherein the control electronics comprise scanner driver electronics, range processor electronics, power converters, and a display all which produce an x-y display of the terrain scanned by the laser signal wherein the X-axis is driven by a scanner position output and the Y-axis by range data. The system was designed to avoid hazards with emphasis simplicity and low cost. The device has been employed in the field to collect data from natural and man-made objects. A simple, single scan line, range discontinuity detection program has been written and tested. The next step in the process is to interface the output of the processor with driver's display indicating the location of the potential hazard for the operator's closer scrutiny.
    • 本发明的激光障碍物回避装置包括:光头,其包括产生激光信号的激光源,交叉的柱面透镜,激光信号被透射通过的光头,包括接收透镜的收发器,通过该接收透镜接收反射的激光信号 通过收发器,经过滤波的反射激光信号的接收器和线路滤波器以及接收反射的激光信号的扫描仪; 以及控制电子器件,其光学连接到光学头,其中控制电子器件包括扫描器驱动器电子器件,范围处理器电子器件,功率转换器和显示器,其全部产生由激光信号扫描的地形的xy显示,其中X轴被驱动 通过扫描仪位置输出和Y轴按范围数据。 该系统旨在避免危害,重点是简单性和低成本。 该设备已被用于现场从天然和人造物体收集数据。 一个简单的单扫描线,范围不连续检测程序已经被编写和测试。 该过程的下一步是将处理器的输出与驱动程序显示器相连接,指示潜在危险的位置,以便操作人员仔细检查。