Patents by Inventor Faranak Nekoogar
Faranak Nekoogar has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20220286845Abstract: A networking architecture that incorporates the security of Blockchain distributed ledgers as an authentication layer, while connecting mesh nodes using secure, pulse-based wide-band and ultra wide-band communication technology to provide a nearly undetectable, unbreakable, and dynamic wireless communication mesh architecture that can securely transmit data, voice and video over short ranges, in one embodiment, up to 1 Km, is disclosed.Type: ApplicationFiled: April 29, 2021Publication date: September 8, 2022Inventors: Vincent M. Vanoss, Faranak Nekoogar, Farid U. Dowla
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Patent number: 11387864Abstract: A system for pulse based wideband signaling comprises a transmitter that performs physical layer encoding of both digital and analog data into a pulse repetition rate signal, and modulation of the pulse repetition rate signal into wideband radio frequency pulses, and transmission of the pulses as a wideband RF signal, a receiver that performs physical layer demodulation of the wideband RF signal into a pulse repetition rate signal, and decoding of the pulse repetition rate signal into digital and analog data, wherein the system provides improvement in controlling and balancing the variables of bandwidth, signal to noise ratio, range, and power consumption.Type: GrantFiled: June 3, 2020Date of Patent: July 12, 2022Inventors: Farid Dowla, Faranak Nekoogar, David Benzel
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Publication number: 20200389206Abstract: A system for pulse based wideband signaling comprises a transmitter that performs physical layer encoding of both digital and analog data into a pulse repetition rate signal, and modulation of the pulse repetition rate signal into wideband radio frequency pulses, and transmission of the pulses as a wideband RF signal, a receiver that performs physical layer demodulation of the wideband RF signal into a pulse repetition rate signal, and decoding of the pulse repetition rate signal into digital and analog data, wherein the system provides improvement in controlling and balancing the variables of bandwidth, signal to noise ratio, range, and power consumption.Type: ApplicationFiled: June 3, 2020Publication date: December 10, 2020Applicant: Dirac Solutions Inc.Inventors: Farid Dowla, Faranak Nekoogar, David Benzel
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Patent number: 9818273Abstract: A secure passive RFID tag system comprises at least one base station and at least one passive RFID tag. The tag includes a fiber optic cable with the cable ends sealed within the tag and the middle portion forming an external loop. The loop may be secured to at least portions of an object. The tag transmits and receives an optical signal through the fiber optic cable, and the cable is configured to be damaged or broken in response to removal or tampering attempts, wherein the optical signal is significantly altered if the cable is damaged or broken. The tag transmits the optical signal in response to receiving a radio signal from the base station and compares the transmitted optical signal to the received optical signal. If the transmitted optical signal and the received optical signal are identical, the tag transmits an affirmative radio signal to the base station.Type: GrantFiled: April 24, 2015Date of Patent: November 14, 2017Assignee: Dirac Solutions, Inc.Inventors: Faranak Nekoogar, Matthew Reynolds, Scott Lefton, Farid Dowla, Richard Twogood
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Patent number: 9537604Abstract: A method for adaptive Radio Frequency (RF) jamming according to one embodiment includes dynamically monitoring a RF spectrum; detecting any undesired signals in real time from the RF spectrum; and sending a directional countermeasure signal to jam the undesired signals. A method for adaptive Radio Frequency (RF) communications according to another embodiment includes transmitting a data pulse in a RF spectrum; and transmitting a reference pulse separated by a predetermined period of time from the data pulse; wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated. A method for adaptive Radio Frequency (RF) communications according to yet another embodiment includes receiving a data pulse in a RF spectrum; and receiving a reference pulse separated in time from the data pulse, wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated; and demodulating the pulses.Type: GrantFiled: February 2, 2015Date of Patent: January 3, 2017Assignee: Lawrence Livemore National Security, LLCInventors: Farid Dowla, Faranak Nekoogar
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Patent number: 9530090Abstract: A circuit board anti-tamper mechanism comprises a circuit board having a frangible portion, a trigger having a trigger spring, a trigger arming mechanism actuated by the trigger wherein the trigger arming mechanism is initially non-actuated, a force producing mechanism, a latch providing mechanical communication between the trigger arming mechanism and the force producing mechanism, wherein the latch initially retains the force producing mechanism in a refracted position. Arming pressure applied to the trigger sufficient to overcome the trigger spring force will actuate the trigger arming mechanism, causing the anti-tamper mechanism to be armed. Subsequent tampering with the anti-tamper mechanism results in a decrease of pressure on the trigger below the trigger spring force, thereby causing the trigger arming mechanism to actuate the latch, thereby releasing the force producing mechanism to apply force to the frangible portion of the circuit board, thereby breaking the circuit board.Type: GrantFiled: May 15, 2015Date of Patent: December 27, 2016Assignee: Dirac Solutions Inc.Inventors: Faranak Nekoogar, Farid Dowla, Richard Twogood, Scott Lefton
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Patent number: 9355545Abstract: A secure optionally passive RFID tag or sensor system comprises a passive RFID tag having means for receiving radio signals from at least one base station and for transmitting radio signals to at least one base station, where the tag is capable of being powered exclusively by received radio energy, and an external power and data logging device having at least one battery and electronic circuitry including a digital memory configured for storing and recalling data. The external power and data logging device has a means for powering the tag, and also has a means.Type: GrantFiled: May 18, 2015Date of Patent: May 31, 2016Assignee: Dirac Solutions, Inc.Inventors: Faranak Nekoogar, Matthew Reynolds, Scott Lefton, Farid Dowla, Richard Twogood
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Publication number: 20160048710Abstract: A method and apparatus for remote UWB powering of passive RFID tags, sensors, and other electronic devices at long ranges and still at FCC low emission power limits utilizes a distributed multi-transmitter system configured for spotforming. The UWB powering signal is different from the signal that is used for communication between the tag and its reader. By de-coupling the powering task from the communication task, one is able to increase the range of communication between the tag and the reader, as readers can be designed to have excellent receiver sensitivities, while powering range is increased by use of multiple “spot-forming” antennas over a large area.Type: ApplicationFiled: July 14, 2014Publication date: February 18, 2016Applicant: Lawrence Livermore National Security, LLCInventors: Faranak Nekoogar, Farid U. Dowla, David M. Benzel, Richard E. Twogood
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Publication number: 20150339568Abstract: A circuit board anti-tamper mechanism comprises a circuit board having a frangible portion, a trigger having a trigger spring, a trigger arming mechanism actuated by the trigger wherein the trigger arming mechanism is initially non-actuated, a force producing mechanism, a latch providing mechanical communication between the trigger arming mechanism and the force producing mechanism, wherein the latch initially retains the force producing mechanism in a refracted position. Arming pressure applied to the trigger sufficient to overcome the trigger spring force will actuate the trigger arming mechanism, causing the anti-tamper mechanism to be armed. Subsequent tampering with the anti-tamper mechanism results in a decrease of pressure on the trigger below the trigger spring force, thereby causing the trigger arming mechanism to actuate the latch, thereby releasing the force producing mechanism to apply force to the frangible portion of the circuit board, thereby breaking the circuit board.Type: ApplicationFiled: May 15, 2015Publication date: November 26, 2015Inventors: Faranak Nekoogar, Farid Dowla, Richard Twogood, Scott Lefton
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Publication number: 20150339499Abstract: A secure optionally passive RFID tag or sensor system comprises a passive RFID tag having means for receiving radio signals from at least one base station and for transmitting radio signals to at least one base station, where the tag is capable of being powered exclusively by received radio energy, and an external power and data logging device having at least one battery and electronic circuitry including a digital memory configured for storing and recalling data.Type: ApplicationFiled: May 18, 2015Publication date: November 26, 2015Inventors: Faranak Nekoogar, Matthew Reynolds, Scott Lefton, Farid Dowla, Richard Twogood
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Publication number: 20150310715Abstract: A secure passive RFID tag system comprises at least one base station and at least one passive RFID tag. The tag includes a fiber optic cable with the cable ends sealed within the tag and the middle portion forming an external loop. The loop may be secured to at least portions of an object. The tag transmits and receives an optical signal through the fiber optic cable, and the cable is configured to be damaged or broken in response to removal or tampering attempts, wherein the optical signal is significantly altered if the cable is damaged or broken. The tag transmits the optical signal in response to receiving a radio signal from the base station and compares the transmitted optical signal to the received optical signal. If the transmitted optical signal and the received optical signal are identical, the tag transmits an affirmative radio signal to the base station.Type: ApplicationFiled: April 24, 2015Publication date: October 29, 2015Inventors: Faranak Nekoogar, Matthew Reynolds, Scott Lefton, Farid Dowla, Richard Twogood
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Publication number: 20150270923Abstract: A method for adaptive Radio Frequency (RF) jamming according to one embodiment includes dynamically monitoring a RF spectrum; detecting any undesired signals in real time from the RF spectrum; and sending a directional countermeasure signal to jam the undesired signals. A method for adaptive Radio Frequency (RF) communications according to another embodiment includes transmitting a data pulse in a RF spectrum; and transmitting a reference pulse separated by a predetermined period of time from the data pulse; wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated. A method for adaptive Radio Frequency (RF) communications according to yet another embodiment includes receiving a data pulse in a RF spectrum; and receiving a reference pulse separated in time from the data pulse, wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated; and demodulating the pulses.Type: ApplicationFiled: February 2, 2015Publication date: September 24, 2015Inventors: Farid Dowla, Faranak Nekoogar
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Patent number: 8971441Abstract: A method for adaptive Radio Frequency (RF) jamming according to one embodiment includes dynamically monitoring a RF spectrum; detecting any undesired signals in real time from the RF spectrum; and sending a directional countermeasure signal to jam the undesired signals. A method for adaptive Radio Frequency (RF) communications according to another embodiment includes transmitting a data pulse in a RF spectrum; and transmitting a reference pulse separated by a predetermined period of time from the data pulse; wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated. A method for adaptive Radio Frequency (RF) communications according to yet another embodiment includes receiving a data pulse in a RF spectrum; and receiving a reference pulse separated in time from the data pulse, wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated; and demodulating the pulses.Type: GrantFiled: June 7, 2010Date of Patent: March 3, 2015Assignee: Lawrence Livermore National Security, LLCInventors: Farid U. Dowla, Faranak Nekoogar
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Patent number: 8502729Abstract: Ultra wideband radar motion sensors strategically placed in an area of interest communicate with a wireless ad hoc network to provide remote area surveillance. Swept range impulse radar and a heart and respiration monitor combined with the motion sensor further improves discrimination.Type: GrantFiled: January 29, 2007Date of Patent: August 6, 2013Assignee: Lawrence Livermore National Security, LLCInventors: Richard R. Leach, Jr., Faranak Nekoogar, Peter C. Haugen
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Patent number: 8451164Abstract: In one embodiment, a radar communication system includes a plurality of radars having a communication range and being capable of operating at a sensing frequency and a reporting frequency, wherein the reporting frequency is different than the sensing frequency, each radar is adapted for operating at the sensing frequency until an event is detected, each radar in the plurality of radars has an identification/location frequency for reporting information different from the sensing frequency, a first radar of the radars which senses the event sends a reporting frequency corresponding to its identification/location frequency when the event is detected, and all other radars in the plurality of radars switch their reporting frequencies to match the reporting frequency of the first radar upon detecting the reporting frequency switch of a radar within the communication range. In another embodiment, a method is presented for communicating information in a radar system.Type: GrantFiled: February 9, 2011Date of Patent: May 28, 2013Assignee: Lawrence Livermore National Security, LLC.Inventors: Farid Dowla, Faranak Nekoogar
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Publication number: 20120200448Abstract: In one embodiment, a radar communication system includes a plurality of radars having a communication range and being capable of operating at a sensing frequency and a reporting frequency, wherein the reporting frequency is different than the sensing frequency, each radar is adapted for operating at the sensing frequency until an event is detected, each radar in the plurality of radars has an identification/location frequency for reporting information different from the sensing frequency, a first radar of the radars which senses the event sends a reporting frequency corresponding to its identification/location frequency when the event is detected, and all other radars in the plurality of radars switch their reporting frequencies to match the, reporting frequency of the first radar upon detecting the reporting frequency switch of a radar within the communication range. In another embodiment, a method is presented for communicating information in a radar system.Type: ApplicationFiled: February 9, 2011Publication date: August 9, 2012Applicant: Lawrence Livermore National Security, LLC.Inventors: Farid Dowla, Faranak Nekoogar
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Patent number: 8188841Abstract: A new Radio Frequency Identification (RFID), tracking, powering apparatus/system and method using coded Ultra-wideband (UWB) signaling is introduced. The proposed hardware and techniques disclosed herein utilize a plurality of passive UWB transponders in a field of an RFID-radar system. The radar system itself enables multiple passive tags to be remotely powered (activated) at about the same time frame via predetermined frequency UWB pulsed formats. Once such tags are in an activated state, an UWB radar transmits specific “interrogating codes” to put predetermined tags in an awakened status. Such predetermined tags can then communicate by a unique “response code” so as to be detected by an UWB system using radar methods.Type: GrantFiled: August 31, 2007Date of Patent: May 29, 2012Assignee: Lawrence Livermore National Security, LLCInventors: Farid U. Dowla, Faranak Nekoogar, David M. Benzel, Gregory E. Dallum, Alex Spiridon
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Patent number: 8102955Abstract: The multi-pulse frequency shifted technique uses mutually orthogonal short duration pulses o transmit and receive information in a UWB multiuser communication system. The multiuser system uses the same pulse shape with different frequencies for the reference and data for each user. Different users have a different pulse shape (mutually orthogonal to each other) and different transmit and reference frequencies. At the receiver, the reference pulse is frequency shifted to match the data pulse and a correlation scheme followed by a hard decision block detects the data.Type: GrantFiled: September 15, 2008Date of Patent: January 24, 2012Assignee: Lawrence Livermore National Security, LLCInventors: Faranak Nekoogar, Farid U. Dowla
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Patent number: 7970047Abstract: The present invention presents a simple and novel channel estimation scheme for UWB communication systems. As disclosed herein, the present invention maximizes the extraction of information by incorporating a new generation of transmitted-reference (Tr) transceivers that utilize a single reference pulse(s) or a preamble of reference pulses to provide improved channel estimation while offering higher Bit Error Rate (BER) performance and data rates without diluting the transmitter power.Type: GrantFiled: December 27, 2006Date of Patent: June 28, 2011Assignee: Lawrence Livermore National Security, LLCInventors: Faranak Nekoogar, Farid U. Dowla, Alex Spiridon, Peter C. Haugen, Dave M. Benzel
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Publication number: 20100309951Abstract: A method for adaptive Radio Frequency (RF) jamming according to one embodiment includes dynamically monitoring a RF spectrum; detecting any undesired signals in real time from the RF spectrum; and sending a directional countermeasure signal to jam the undesired signals. A method for adaptive Radio Frequency (RF) communications according to another embodiment includes transmitting a data pulse in a RF spectrum; and transmitting a reference pulse separated by a predetermined period of time from the data pulse; wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated. A method for adaptive Radio Frequency (RF) communications according to yet another embodiment includes receiving a data pulse in a RF spectrum; and receiving a reference pulse separated in time from the data pulse, wherein the data pulse is modulated with data, wherein the reference pulse is unmodulated; and demodulating the pulses.Type: ApplicationFiled: June 7, 2010Publication date: December 9, 2010Inventors: Farid U. Dowla, Faranak Nekoogar