| Syracuse Research Corporation Patent applications |
| Patent application number | Title | Published |
|---|
| 20100226255 | ENTROPIC BASED ACTIVITY PASSIVE DETECTION AND MONITORING SYSTEM - 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). | 09-09-2010 |
| 20100026552 | Man-Portable Counter Mortar Radar System - The present invention is a man-portable counter-mortar radar (MCMR) radar system that detects and tracks enemy mortar projectiles in flight and calculates their point of origin (launch point) to enable and direct countermeasures against the mortar and its personnel. In addition, MCMR may also perform air defense surveillance by detecting and tracking aircraft, helicopters, and ground vehicles. MCMR is a man-portable radar system that can be disassembled for transport, then quickly assembled in the field, and provides 360-degree coverage against an enemy mortar attack. MCMR comprises an antenna for radiating the radar pulses and for receiving the reflected target echoes, a transmitter that produces the radar pulses to be radiated from the antenna, a receiver-processor for performing measurements (range, azimuth and elevation) on the target echoes, associating multiple echoes to create target tracks, classifying the tracks as mortar projectiles, and calculating the probable location of the mortar weapon, and a control and display computer that permits the operation of the radar and the display and interpretation of the processed radar data. | 02-04-2010 |
| 20090146868 | RF ATTENUATION CIRCUIT - 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. | 06-11-2009 |
