Patent ID: 9227555
Filing Date: 2016-01-05
CPC Classification: B60Q

Claim Text:
1. An adaptive external vehicle illumination system of an asymmetric geometry, built as a vehicle headlamp and signaling device comprising: a three-dimensional geometrical structure of an asymmetrical geometric configuration formed by a five or more non-reflective facets attached to a central facet in a flower-like facet construction, separated from each other and joined along the perimeter of the central non-reflective facet; wherein said non-reflective facets are each, individually positioned at a predetermined angle in relation to the normal axis to the surface of the central facet and at least one of the said facets is oriented at an opposing angle from the facet on the opposite side in an asymmetrical configuration; wherein, at least one light emitting device (LED) or a light amplification by stimulated emission of radiation (Laser), is assembled on the surface of each said non-reflective facet, such that the light vectors emitted are dispersed accordingly to a wide angular unfocussed non-reflective distribution, such that to generate zones of uniformly dispersed over a range from 2 PiSteradian to 0.1 PiSteradian, independently controlled zones of omnidirectional, non-reflective light emissions composed of continuous uniformly dispersed directional vector components; a microprocessor based control system contained within the illumination system independently controls the luminous intensity vectors of the wide angle emission of at least one light emitting device assembled on the said non-reflective facets, such that they emit zones of omnidirectional dispersed light and form zones of independently controlled uniformly dispersed, non-reflective directional light vector component patterns; wherein said microprocessor based control system is controlling the non-reflective light emitting direction, intensity and spectrum of the at least one non-reflective light emitting device independently controlled zones of omnidirectional illumination, based on the feedback signal received from electronic sensors, further comprising; a plurality of electronic sensors, comprising; photo sensors, video sensors, accelerometers and position encoders connected within the negative feedback of the microprocessor based control system, such that the omnidirectional non-reflective light vectors emitted are angularly dispersed and varied in intensity accordingly to a wide angle, ranging from 2 PiSteradian to 0.1 PiSteradian light distribution and forming independently controlled illumination zones of non-reflective uniformly dispersed, non-reflective directional vector component patterns, and where the change in light spectrum and blinking time period is determined by an electric signals received from said sensors.