公开(公告)号：WO2018017177A2

公开(公告)日：2018-01-25

申请号：PCT/US2017/031151

申请日：2017-05-04

Applicant: L-3 COMMUNICATIONS ETO

Inventor： BURNSED, Jon ,  STYONAVICH, Stephen ,  IOSUE, Michael

CPC classification number: G02B23/12

Abstract: An enhanced vision system includes a first optic subsystem and a transparent photodetector subsystem disposed within a common housing. The first optic subsystem may include passive devices such as simple or compound lenses, active devices such as low-light enhancing image intensifiers, or a combination of passive and active devices. The transparent photodetector subsystem receives the visible image exiting the first optic subsystem and converts a portion of the electromagnetic energy in the visible image to a signal communicated to image analysis circuitry. On a real-time or near real-time basis, the image analysis circuitry detects and identifies structures, objects, and/or individuals in the visible image. The image analysis circuitry provides an output that includes information regarding the structure, objects, and individuals to the system user contemporaneous with the system user viewing the visible image.

Abstract translation: 增强型视觉系统包括设置在公共外壳内的第一光学子系统和透明光电检测器子系统。 第一光学子系统可以包括诸如简单或复合透镜的无源器件，诸如低光强增强图像增强器的有源器件或者无源器件和有源器件的组合。 透明光电检测器子系统接收离开第一光学子系统的可见图像并将可见图像中的电磁能量的一部分转换为传送到图像分析电路的信号。 在实时或接近实时的基础上，图像分析电路检测并识别可见图像中的结构，物体和/或个体。 图像分析电路向系统用户提供包括关于结构，对象和个人的信息的输出，与系统用户观看可见图像同时进行。

公开(公告)号：WO2018017177A3

公开(公告)日：2018-01-25

申请号：PCT/US2017/031151

申请日：2017-05-04

Applicant: L-3 COMMUNICATIONS ETO

Inventor： BURNSED, Jon ,  STYONAVICH, Stephen ,  IOSUE, Michael

IPC: G02B27/00

Abstract: An enhanced vision system includes a first optic subsystem and a transparent photodetector subsystem disposed within a common housing. The first optic subsystem may include passive devices such as simple or compound lenses, active devices such as low-light enhancing image intensifiers, or a combination of passive and active devices. The transparent photodetector subsystem receives the visible image exiting the first optic subsystem and converts a portion of the electromagnetic energy in the visible image to a signal communicated to image analysis circuitry. On a real-time or near real-time basis, the image analysis circuitry detects and identifies structures, objects, and/or individuals in the visible image. The image analysis circuitry provides an output that includes information regarding the structure, objects, and individuals to the system user contemporaneous with the system user viewing the visible image.