Abstract: A system of lasers and detectors to detect the presence of objects and determine their speed is disclosed. The system comprises of a pair of lasers and a pair of detectors focused through a single lens or a pair of lenses. An electronic board that accompanies the lasers and detectors is used to provide the logic and decision making mechanism. Data collected and processed by the system yields such information as whether an object is present, whether the object is stationary or is moving, and subsequent speed information. The described system is also capable of providing additional information concerning the characteristics of the moving object such as its profile and length, and indication of a traffic violation.

Abstract: A system of lasers and detectors to detect the presence of objects and determine their speed is disclosed. The system comprises of a pair of lasers and a pair of detectors focused through a single lens. An electronic board that accompanies the lasers and detectors is used to provide the logic and decision making mechanism. Data collected and processed by the system yields such information as whether an object is present, whether is stationary or is moving, and subsequent speed information. The described system is also capable if desired of providing additional information concerning the characteristics of the moving object such as its profile and length, and indication of a traffic violation.

Abstract: A novel concept for high-resolution attitude determination sun sensor, which reduces mass and power of current commercial technology sensors by orders of magnitude, while at the same time providing high resolution and a very wide field of view. The sensor is based on a few basic principles and state of the art technology. The wide FOV, high resolution, and compact size are achieved by overlapping fields-of-view onto a single high-resolution detector using holographic technology. Overlapping the fields of small angular sectors in the field of view of a fine sensor permits sharing a single high-resolution focal plane array of a moderate size among sectors. For a given array size it allows to spread the signal in the elevation direction over N times the number of pixels that a sensor with a single sector and the same system field of view would have used. thus creating a system that overcomes the inherent problems of wide field of view systems, namely, low resolution.

Abstract: A holographic optical element transforms a spectral distribution of light to image points. The element comprises areas, each of which acts as a separate lens to image the light incident in its area to an image point. Each area contains the recorded hologram of a point source object. The image points can be made to lie in a line in the same focal plane so as to align with a linear array detector. A version of the element has been developed that has concentric equal areas to match the circular fringe pattern of a Fabry-Perot interferometer. The element has high transmission efficiency, and when coupled with high quantum efficiency solid state detectors, provides an efficient photon-collecting detection system. The element may be used as part of the detection system in a direct detection Doppler lidar system or multiple field of view lidar system.