Abstract: The present invention relates generally to computer systems in the field of signals intelligence, and more particularly, to entropic activity detection and monitoring computer systems for collecting and analyzing data packets wirelessly transmitted from a wireless transmitter by applying information theoretic metrics (Tsallis entropy).

Abstract: A method for characterizing risk using an adaptive risk analysis engine. Following a user request for a risk analysis, online and/or offline factual information is retrieved by the engine and is used to produce risk indicators. The risk indicators are mapped onto risk ontology to produce risk factors which are then used to assess the level of risk. Parameters for the likelihood, impact, and external threat of the risk are calculated, and a risk assessment report is produced for the user.

Abstract: The present invention is directed to a radar system that includes an antenna array having a plurality of antenna elements and a plurality of transmit antenna phase centers. A transmitter portion is coupled to the antenna array. The transmitter portion is configured to transmit a plurality of transmit beams characterized by a transmit beam pattern. The transmit beam pattern has a predetermined transmit beamwidth that is a function of the number of orthogonal transmit waveforms. The predetermined transmit beamwidth substantially fills a predetermined angular volume. Each of the plurality of transmit beams includes a corresponding one of the plurality of orthogonal transmit waveforms. Each of the plurality of transmit beams is transmitted by a corresponding one of the plurality of transmit antenna phase centers. The number of orthogonal transmit waveforms is less than the plurality of antenna elements. A receiver portion is also coupled to the antenna array.

Abstract: A method for using information encrypted with a nucleic acid molecule to backtrack an item's path or identify a point of origin. Unique nucleic acid-containing tags are seeded at one or more geographic locations. Using sequence analysis techniques, the person or object of interest is examined for the presence of one or more of the seeded nucleic acids. The geographic location associated with each detected nucleic acid is used to backtrack the item's path or extrapolate a probable point of origin.

Abstract: A real-time system for determining the geographic movements of an individual or object by sampling particulates contained thereon. The system includes particle collection, sample preparations, and sample analysis using three primary modes of detecting certain particulates. The first mode involves the imaging of pollen, spores, or other biological material which are visible through a light microscope when properly stained or prepared. The second mode involves the use of real-time polymerase chain reaction to amplify and detect target nucleic acid sequences. The third mode involves the use of X-ray diffraction to identify mineral particles. The results from any mode, or any combination of modes, are analyzed by comparison to a reference database containing geographic information and the results are compiled by a controller for visual display.

Abstract: An RF receiving circuit that selectively attenuates a received RF signal before it reaches sensitive modifying devices, such as a low noise amplifier or an analog to digital converter. The receiving circuit includes a delay element upstream of its attenuator so that high energy pulses of a short duration (for example, less than 10 nanoseconds) can be effectively attenuated despite coupler, detector, threshold and/or switch delays of the attenuation related circuitry.

Abstract: A communication device locates a preferable wireless service provider in a multi-service provider environment using a frequency band search schedule. Initially, the communications device registers with a less preferred service provider in a first frequency band. While remaining registered with the less preferred service provider, the device examines several frequency bands in the order specified by the frequency band search schedule. A frequency band is examined by dividing the frequency band into many sub-bands, and by locating the strongest signal above a threshold within the sub-band being examined. The examination continues until a second frequency band having a more preferred service provider is located. The communication device then registers with the more preferred service provider. The category of service provider may be identified and displayed on the communication device.