Abstract: An indoor geolocation system for determining a location in three-dimensional space includes a plurality of base stations and a mobile device movable about an indoor environment in three dimensions. The mobile device detects electromagnetic signals in the indoor environment emitted by devices other than the base stations, and generates a signal profile based on the signals. The mobile device transmits the signal profile to one or more of the base stations, which forward the signal profile to a remote server. The system determines a location of the in three-dimensional space of the mobile device by comparing the signal profile to data regarding signal profiles at a plurality of locations in the indoor environment. The data regarding signal profiles in the indoor environment may have been captured by a detection device other than the mobile device at a time prior to the detection of the electromagnetic signals by the mobile device.

Abstract: A beacon is provided for automatically probing the wireless environment with a large number of waveforms having different characteristics and measuring the wireless environment to ascertain optimal transmission parameters. The probing system utilizes a software defined radio beacon provided with a stored parameterized reference.

Abstract: A system (2) for transferring radio frequency energy to a composite structure (22) is provided that includes a radio signal generator (14) that produces a pulse modulated waveform with variable carrier frequency and variable pulse repetition frequency. The pulse modulated waveform is applied to the composite structure (22) for heating. An infrared imaging element (4, 6) measures the rate of heating in the composite structure (22) for particular values of the variable carrier frequency and the variable pulse repetition frequency. The infrared imaging element (4, 6) produces a representation illustrating the effects of heating on the composite structure (22) as well as the composite's molecular, nanoscopic structural, or chemical characteristics. A controller (8) determines the optimum variable center frequency and the variable pulse repetition frequency for optimum heating of the composite structure (22) while minimizing damage.

Abstract: A system is provided for the optimization of wireless networks and more particularly a system for automatically probing the wireless environment with a large number of waveforms having different characteristics and measuring the wireless environment to ascertain optimal transmission parameters. The probing system utilizes a software defined radio beacon provided with stored parameterized reference waveforms in combination with a software defined diagnostic receiver functioning as a correlating spectrum analyzer for correlating incoming signals with the same parameterized reference waveforms for analysis of the wireless environment to determine optimal transmission parameters for transmitters at various nodes on the network.

Abstract: A correlating mixed signal spectrum analyzer receiver is provided that automatically correlates signals in a mixed-signal environment with a large number of waveforms having different characteristics corresponding to different protocols and modulation types, with the receiver utilizing either parallel correlators or sequential correlations to automatically accommodate the different waveforms such that in any given testing cycle, the spectrum analyzer runs through a comprehensive list of waveforms to detect the existence of corresponding signals. Frequency drift compensation and the utilization of multiple receivers for providing time difference of arrival calculations is described.

Abstract: A beacon is provided for automatically probing the wireless environment with a large number of waveforms having different characteristics and measuring the wireless environment to ascertain optimal transmission parameters. The probing system utilizes a software defined radio beacon provided with a stored parameterized reference.

Abstract: A correlating mixed signal spectrum analyzer receiver is provided that automatically correlates signals in a mixed-signal environment with a large number of waveforms having different characteristics corresponding to different protocols and modulation types, with the receiver utilizing either parallel correlators or sequential correlations to automatically accommodate the different waveforms such that in any given testing cycle, the spectrum analyzer runs through a comprehensive list of waveforms to detect the existence of corresponding signals. Frequency drift compensation and the utilization of multiple receivers for providing time difference of arrival calculations is described.

Abstract: A system is provided for the optimization of wireless networks and more particularly a system for automatically probing the wireless environment with a large number of waveforms having different characteristics and measuring the wireless environment to ascertain optimal transmission parameters. The probing system utilizes a software defined radio beacon provided with stored parameterized reference waveforms in combination with a software defined diagnostic receiver functioning as a correlating spectrum analyzer for correlating incoming signals with the same parameterized reference waveforms for analysis of the wireless environment to determine optimal transmission parameters for transmitters at various nodes on the network.

Abstract: In the method of reducing the likelihood of collisions, the improvement comprising the step of embedding passive radio transponders in a tape, grease, or other materials; applying said passive radio transponders to an object of which collisions must be avoided, and mounting an active interrogating transponder on a moving machinery, which uses the information provided by the radio transponders to semi-autonomously avoid collisions.

Abstract: A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an n2 power enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols.

Abstract: A real time streaming geolocation method includes recording data and linking it to specific coordinates. The data is selectively stored to a database using a specialized data filtering method, and a streaming video can be created from the stored data. The streaming video can be created in real time, creating a current video simulation of a specific environment. The method also allows for interactive addition, modification and deletion of data, such as points of interest, in the video stream.

Abstract: In the method of reducing the likelihood of collisions, the improvement comprising the step of embedding passive radio transponders in a tape, grease, or other materials; applying said passive radio transponders to an object of which collisions must be avoided, and mounting an active interrogating transponder on a moving machinery, which uses the information provided by the radio transponders to semi-autonomously avoid collisions.

Abstract: An electronic countermeasures product includes flexible packaging of diodes that operate in the infrared portion of the electromagnetic spectrum to replace flares, lamps and directed lasers with an inexpensive easily deployed countermeasure systems.

Abstract: A real time streaming geolocation method includes recording data and linking it to specific coordinates. The data is selectively stored to a database using a specialized data filtering method, and a streaming video can be created from the stored data. The streaming video can be created in real time, creating a current video simulation of a specific environment. The method also allows for interactive addition, modification and deletion of data, such as points of interest, in the video stream.

Abstract: A tag operates in an environment where transmitted interrogators are not possible or desired. High-efficiency diode rectifiers and low-power oscillators are used in combination with an energy storage element and hysteretic switch. The combination of multi-diode rectifier, low power tunnel diode oscillator, energy storage element and hysteretic switch allow for nanowatt levels of received RF power to be stored to produce micro-watts of RF transmit power. The device trickle charges off of ambient RF radiation until enough energy is stored for transmission.

Abstract: A convenient handheld locator is provided for locating an item in an urban environment in which the locator is programmed to search for and locate specific items, with the detected item being displayed on the locator as to its identity or name, also displaying where the item is relative to the locator, as to position and range.

Abstract: A convenient handheld locator is provided for locating an item in an urban environment in which the locator is programmed to search for and locate specific items, with the detected item being displayed on the locator as to its identity or name, also displaying where the item is relative to the locator, as to position and range.

Abstract: A microradio is provided with a hysteretic switch to permit an optimum range increasing charging cycle, with the charging cycle being long relative to the transmit cycle. Secondly, an ensemble of microradios permits an n2 power enhancement to increase range with coherent operation. Various multi-frequency techniques are used both for parasitic powering and to isolate powering and transmit cycles. Applications for microradios and specifically for ensembles of microradios include authentication, tracking, fluid flow sensing, identification, terrain surveillance including crop health sensing and detection of improvised explosive devices, biohazard and containment breach detection, and biomedical applications including the use of microradios attached to molecular tags to destroy tagged cells when the microradios are activated. Microradio deployment includes the use of paints or other coatings containing microradios, greases and aerosols.

Abstract: RFID tag designs and sensors are disclosed that include a dispersive antenna and exhibit greater detection ranges relative to conventional designs. The designs include, for example a transponder having including a rectifier, a radio-frequency identification (RFID) circuit for receiving and responding to interrogation signals, and a frequency dispersion element for receiving a multi-phase input signal and creating a pulse therefrom for input to the rectifier. Frequency-dispersive elements (e.g., antennas) and compatible interrogation waveforms can be used so that the rectifying diodes receive high peak voltage levels relative to the average voltage levels.

Abstract: An electronic countermeasures product includes flexible packaging of diodes that operate in the infrared portion of the electromagnetic spectrum to replace flares, lamps and directed lasers with an inexpensive easily deployed countermeasure systems.