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    • 2. 发明申请
    • A METHOD AND A SYSTEM FOR RANGING A SCENE
    • 一种用于测距场景的方法和系统
    • WO2004086088A1
    • 2004-10-07
    • PCT/IL2004/000267
    • 2004-03-24
    • ELOP ELECTRO-OPTICS INDUSTRIES LTD.SARID, Moshe
    • SARID, Moshe
    • G01S17/89
    • G01S17/89G01S7/4816G01S7/4818G01S7/486
    • There is disclosed a method for multi-pixel ranging of a scene, comprising the steps of providing a single detector/receiver associated with a time-delay arrangement; producing a delayed time-arrival distribution of pulse echoes of at least part of a remote scene of a predetermined depth spanning between a closest point and a furthest point from the detector/receiver; receiving the distribution as produced on the ranging plane and conveying it, echo pulse by echo pulse through a plurality of time-ordered echo pulse conveyor to a single detector, while introducing an additional time delay between the conveyor, which is equal to, or greater than, the time delay between the closest and furthest points of the scene, whereby the echo pulses arrive at the single detector/receiver in a sequential order, and using an electronic logic to reconstruct the time-arrival distribution from the time-delayed echo pulses received by the detector/receiver. A system for ranging a scene is also provided.
    • 公开了一种用于场景的多像素测距的方法,包括以下步骤:提供与时间延迟布置相关联的单个检测器/接收机; 产生距离检测器/接收器最近点和最远点之间的预定深度的至少部分远程场景的脉冲回波的延迟时间到达分布; 接收在测距平面上产生的分布并传送它,通过回波脉冲将回波脉冲通过多个时间有序的回波脉冲输送器传送到单个检测器,同时在输送机之间引入额外的时间延迟,其等于或大于 比起场景的最近点和最远点之间的时间延迟,由此回波脉冲以顺序顺序到达单个检测器/接收机,并且使用电子逻辑从时间延迟回波脉冲重构时间到达分布 由检测器/接收器接收。 还提供了用于测距场景的系统。
    • 10. 发明申请
    • METHOD AND SYSTEM FOR DISPLAYING AN INFORMATIVE IMAGE AGAINST A BACKGROUND IMAGE
    • WO2004109349A3
    • 2004-12-16
    • PCT/IL2004/000494
    • 2004-06-09
    • ELOP ELECTRO-OPTICS INDUSTRIES LTD.WEISS, VictorGURWICH, Ioseph
    • WEISS, VictorGURWICH, Ioseph
    • G02B5/32
    • Incident image displaying device for displaying at least one incident image against a scene image of a scene, the incident image displaying device including at least one light guide, at least one input beam transforming element, at least one output beam transforming element and a scene image reflector, each of the input beam transforming element and the output beam transforming element being incorporated with a respective light guide, the scene image reflector being located behind the light guide, the input beam transforming element receiving incident light beams respective of the incident image from a respective one of at least one image source, the output beam transforming element being associated with a respective input beam transforming element, the scene image reflector reflecting the scene image through at least a portion of the output beam transforming element, wherein the input beam transforming element couples the incident light beams into the respective light guide as a set of coupled light beams, the set of coupled light beams is associated with the respective input beam transforming element, wherein the output beam transforming element receives from the respective light guide and decouples as decoupled light beams, the set of coupled light beams, thereby forming a set of output decoupled images, and wherein each output decoupled image of the set of output decoupled images is representative of a sensor fused image of the incident image.