Abstract: The disclosed invention comprises a security screening system and device for detecting and classifying items concealed on the body of a moving or stationary person, as well as in carried or wheeled luggage, in real time. The invention combines radio wave technology, magnetometer technology, and optical sensors to detect dielectric and/or metal objects on targets moving through the portal formed by the invention. The sensed data is then sent to a calculation processor of the system which forms 2-D images to determine the type of object, the location of the object, and other additional information relating to the target and/or object.
Abstract: A method for standoff detection and analysis of objects comprises sending a signal through an inspection area, from a transmitter to a receiver, wherein the signal travels through objects in its path. If the signal encounters an object, through which it must travel, the speed of signal distribution decreases and its amplitude drops. A processor then determines the amplitude of the signal and whether the amplitude is above a given threshold, and if the threshold is met, further determining the shift in length of the signal's optical path, determining the thickness of the object, calculating the dielectric permittivity constant, and comparing this constant to known values of different materials to determine a preselected group of materials, to which the object in the inspection area belongs, and whether the inspected object belongs to a preselected group of dangerous objects. A system for detecting and analyzing such materials is also disclosed.
Type:
Grant
Filed:
June 30, 2014
Date of Patent:
October 10, 2017
Assignee:
APSTEC SYSTEMS LTD
Inventors:
Andrey Kuznetsov, Valery Averyanov, Stanislav Vorobyev, Igor Gorshkov
Abstract: The invention relates to the remote measurement of the dielectric permittivity of dielectrics. A 3D microwave and a 3D optical range images of an interrogated scene are recorded at the same time moment. The images are digitized and overlapped. A space between the microwave and optical image is measured, and a dielectric permittivity of the space between these images is determined. If the dielectric permittivity is about 3, then hidden explosive materials or components of thereof are suspected. The invention makes it possible to remotely determine the dielectric permittivity of a moving, irregularly-shaped dielectric objects.
Type:
Grant
Filed:
June 20, 2012
Date of Patent:
April 5, 2016
Assignee:
APSTEC SYSTEMS LTD
Inventors:
Andrey Kuznetsov, Igor Gorshkov, Valery Averyanov
Abstract: This invention addresses remote inspection of target in monitored space. A three dimensional (3D) microwave image of the space is obtained using at least two emitters. The data undergoes coherent processing to obtain maximum intensity of the objects in the area. This image is combined with a 3D video image obtained using two or more video cameras synchronized with the microwave emitters. The images are converted into digital format and transferred into one coordinate system. The distance l is determined between the microwave and the video image. If l<lo, where lo is a given threshold, the absence of a concealed dielectric object at the target is indicated. If l>lo then the presence of cavities is analyzed. If the cavity depth h is greater than the threshold value ho a concealed dielectric object at the target is ascertained: h 0 = l 0 ? ? - 1 ? ? where ? is dielectric permeability of the sought dielectric object.
Type:
Grant
Filed:
February 23, 2012
Date of Patent:
March 11, 2014
Assignee:
APSTEC Systems Ltd
Inventors:
Andrey Kuznetsov, Igor Gorshkov, Valery Averyanov