Patents Assigned to SR Technologies, Inc.
-
Patent number: 11570740Abstract: A method, wireless device and measuring station are disclosed that determine the best fit geo-location of a target station. According to one aspect, a method includes, using a “Pass Filter” for minimization of the summation of squared miss probabilities SSMP that improves the fitting process of the measured data over the method of minimization of the summation of the squared residuals (SSR) in the presence of spurious measurements. A “Pass Filter” approach is disclosed that reduces the corruption of the fitting process by outlier data and still yields the same result in the limit of clean data as the classic summation of the squared residuals (SSR) method.Type: GrantFiled: October 21, 2020Date of Patent: January 31, 2023Assignee: SR Technologies, Inc.Inventor: Mark Passler
-
Patent number: 11553453Abstract: A method in a wireless device (WD) is described. The method is performed for determining a geo-location of a target station using round-trip times (RTTs) of a plurality of signals transmitted by the WD to the target station and a plurality of response signals received from the target station. The method includes determining expected time domain symbols of an expected response signal, and, for each transmitted signal of the plurality of signals, determining a first time, opening a reception window for receiving a response signal, receiving the response signal within the reception window, frequency shifting the expected time domain symbols, and cross-correlating the time domain symbols with the frequency shifted expected time domain symbols. In addition, the method includes determining a peak correlation value, a second time, and the RTT for each one of the transmitted plurality of signals based at least on the first time and the second time.Type: GrantFiled: June 8, 2021Date of Patent: January 10, 2023Assignee: SR Technologies, Inc.Inventors: Graham K. Smith, Ryan Busser, Olivia Fernandez
-
Patent number: 11546735Abstract: A method and wireless devices (WDs) for geo-location of wireless devices are disclosed. According to one aspect, a method in a first WD includes: transmitting a sequence of ranging signals and receiving a plurality of ranging response signals from a second WD, the ranging response signals being responsive to the ranging signals. For each of the plurality of ranging response signals, a received sequence of bits is determined. A correlation between the received sequence of bits and an expected sequence of bits is determined. The method also includes determining a subset of the plurality of received sequences of bits deemed not to arise from noise, and determining the subset being based at least in part on the correlations. The method also includes determining a distance between the first WD and the second WD based at least in part on a plurality of received sequences in the subset.Type: GrantFiled: July 20, 2021Date of Patent: January 3, 2023Assignee: SR Technologies, Inc.Inventors: Mark Passler, Graham K. Smith, Ryan Busser, Olivia Fernandez, Steven Romanow
-
Patent number: 11460570Abstract: A method for determining a geo-location of a target station is provided. The method includes receiving a plurality of RTTs over a plurality of successive time intervals. Each successive time interval is equal to a predetermined amount of time. The plurality of RTTs is placed into a plurality of bins. Each bin has a predetermined time width and a count of RTTs placed in the bin. A bin with a highest count of RTTs (maxCb) and another bin with a next highest count of RTTs are selected and a maximum count ratio determined. The bin with maxCb to a maximum bin value is set based at least on a predetermined threshold of the maximum count ratio. During a next successive time interval, the RTTs that are placed in the bin that is set to the maximum bin value are selected to determine the geo-location of the target station.Type: GrantFiled: January 19, 2021Date of Patent: October 4, 2022Assignee: SR Technologies, Inc.Inventors: Mark Passler, Steven Romanow, Graham Smith
-
Patent number: 11346934Abstract: A method for determining reception window timing using a measuring station receiving an antenna beam width, receiving an antenna tilt angle, receiving an altitude A, determining a far projection angle ?f, determining a near projection angle ?n, and determining a far projection range corresponding to the far projection angle ?f and based at least upon the values of ?f and A. The method further includes determining a near projection range corresponding to the near projection angle ?n and based at least upon the values of ?n and A, determining an end time of a reception window based at least upon the value of the far projection range the reception window being a window of time in which a response from the target station is expected to be received, and determining a start time of the reception window based at least upon the value of the near projection range.Type: GrantFiled: May 15, 2020Date of Patent: May 31, 2022Assignee: SR Technologies, Inc.Inventors: Olivia Desiree Fernandez, Graham K Smith
-
Patent number: 11300675Abstract: A method and devices are disclosed for producing a differential RTT vector (RTV) that is based upon the relative change in an airborne measuring station velocity relative to the target wireless device based upon RTT measurements, the RTT measurements being taken at known time intervals to a ground based target station, and the velocity and heading of the airborne measuring station. In one embodiment, the target device is an access point or station conforming to the IEEE 802.11 standard and the airborne measuring station 110 may also be a device that conforms to the IEEE 802.11 standard. The disclosed method enables the quick determination of the location of a target station to an accuracy of, for example, in the order of one half degree of bearing within, for example, a period in the order of 5 seconds.Type: GrantFiled: November 21, 2019Date of Patent: April 12, 2022Assignee: SR Technologies, Inc.Inventor: Mark Passler
-
Patent number: 11275171Abstract: A method and devices are disclosed for producing a RTT vector (RTV) that is based upon the change in an airborne measuring station position and the corresponding RTT results taken at known time intervals to a ground based target station. In one embodiment, the target station is an access point or station conforming to the IEEE 802.11 standard and the airborne measuring station 110 may also be a device that conforms to the IEEE 802.11 standard. The disclosed method enables the location of a target station to an accuracy in the order of, for example, less than one half degree of bearing within, for example, a period in the order of 5 seconds.Type: GrantFiled: November 26, 2019Date of Patent: March 15, 2022Assignee: SR Technologies, Inc.Inventor: Mark Passler
-
Patent number: 11249128Abstract: A method and computer for determining a ground coverage footprint of a beam of an antenna mounted above the ground are disclosed. A method includes determining the far projection distance based at least in part on beam width and tilt angle, the far projection distance being a lesser of: a first distance from the antenna to the ground of a 3 dB far projection; two times a second distance from the antenna to the ground of a 3 dB near projection; and a third distance from the antenna to the ground of a projection of the maximum antenna gain multiplied by the square root of two. A ground footprint of the beam is determined based at least in part on the determined far projection distance. The method further includes causing the antenna to be pointed based at least in part on the determined ground footprint of the beam of the antenna.Type: GrantFiled: October 13, 2020Date of Patent: February 15, 2022Assignee: SR Technologies, Inc.Inventors: Steven M. Romanow, Mark Passler, Graham K. Smith
-
Patent number: 11128398Abstract: A method and system are disclosed for blind decoding of Bluetooth packets. According to one aspect, a method of decoding packets includes detecting a packet using blind LAP detection. The method also includes estimating a duration of a payload of the packet and decoding a payload of the packet over the estimated duration according to each of a plurality of forward error correction (FEC) coding rates to produce a packet header. For each of a plurality of de-whitening seeds, the method includes performing de-whitening, extraction and reverse decoding on the packet header to produce a plurality of candidate upper address parts (UAPs). The method includes obtaining a subset of the candidate UAPs, each candidate UAP having a corresponding CRC code, and forming an ordered list of candidate packet types based at least in part on the estimated duration. The method includes performing a CRC to select a UAP.Type: GrantFiled: October 4, 2019Date of Patent: September 21, 2021Assignee: SR Technologies, Inc.Inventors: Stephen R. Carsello, Frank Earl
-
Patent number: 11128989Abstract: A method, device and system are disclosed for geo-locating a device. In one embodiment, a first wireless transmitter/receiver pages a second wireless transmitter/receiver to establish a communication. A plurality of packets transmitted by the first wireless transmitter/receiver and transmitted by the second wireless transmitter/receiver are received by a wireless receiver. The reception time of packets transmitted by the first wireless transmitter/receiver and the second wireless transmitter/receiver is recorded. A time delay based at least in part on the recorded reception times of each packet is calculated, and a location of the second wireless device based on the calculated time delay is determined. A target location of the second wireless transmitter/receiver is determined based on a plurality of the determined locations of the second wireless transmitter/receiver.Type: GrantFiled: August 4, 2020Date of Patent: September 21, 2021Assignee: SR Technologies, Inc.Inventors: Joaquin Prendes, Alexander Vallejo, Steven Romanow, Mark Passler
-
Patent number: 11063846Abstract: A method and waveform handling apparatus for capturing and storing data waveforms and metadata for analysis. The method includes receiving waveform data and metadata, the waveform data corresponding to a demodulated data burst, creating a waveform data record from the received waveform data, associating the waveform data with corresponding metadata, and creating a metadata record from the corresponding metadata. The method allows the waveform data in the waveform data record to be stored in a first data repository and the corresponding metadata in the metadata record to be stored in a second data repository, the waveform data and the corresponding metadata accessible for analysis.Type: GrantFiled: March 30, 2020Date of Patent: July 13, 2021Assignee: SR Technologies, Inc.Inventor: John C. Sinibaldi
-
Patent number: 11012109Abstract: A method and devices are disclosed that increase the range of active geo-location from the airborne measuring station as compared with known methods by increasing the effective receive sensitivity of the airborne measuring station. In one embodiment this may be accomplished by transmitting a predetermined ranging packet and correlating the raw received bit stream of the response packet with the predetermined bit stream. In one embodiment, the disclosed method applies to the reception of IEEE 802.11 direct sequence spread spectrum DSSS ACK and DSSS CTS packets in response to DSSS data null and DSSS RTS packets respectively, in the 2.4 GHz band.Type: GrantFiled: July 9, 2020Date of Patent: May 18, 2021Assignee: SR Technologies, Inc.Inventor: Graham K. Smith
-
Patent number: 10992410Abstract: A method and receiver are disclosed for the blind detection and synchronization of data packets are disclosed. According to one aspect, a method includes generating a running histogram of received sample values for each of a plurality of frequency bins and symbol timing phases, the running histogram spanning a most recent block of symbols representing a candidate synchronization (sync) word. The method also includes, for each symbol interval: analyzing the histogram to estimate symbol timing phase, DC offset and frequency offset. The method also includes determining a first candidate sync word based at least in part on the symbol timing phase, frequency offset and corresponding DC offset the first candidate sync word representing a most recent vector of bits associated with the first candidate sync word. The method further includes discerning a lower address part (LAP) obtained from the first candidate sync word to enable detection of a packet.Type: GrantFiled: May 29, 2020Date of Patent: April 27, 2021Assignee: SR Technologies, Inc.Inventor: Stephen R. Carsello
-
Patent number: 10847866Abstract: A method and computer for pointing a beam of a directional antenna located above ground is disclosed. A method includes receiving a beam width 2?, and determining an angle ?max where ?max+? is an angle for a projection of maximum signal strength on the ground. ?max is based on the beam width 2? and tilt angle ?. The method also includes determining an effective ground beam width defined by a total relative gain of the directional antenna and the above the ground to ground range being at half the maximum signal strength on the ground at angles above and below ?max. The method further includes determining a ground footprint of the beam based at least on part on the determined effective ground beam width, and causing the antenna to be pointed based at least in part on the determined ground footprint of the beam.Type: GrantFiled: March 19, 2019Date of Patent: November 24, 2020Assignee: SR Technologies, Inc.Inventors: Mark Passler, Graham K. Smith, Steven M. Romanow
-
Patent number: 10845403Abstract: A method and computer for determining a ground coverage footprint of a beam of an antenna mounted above the ground are disclosed. A method includes determining the far projection distance based at least in part on beam width and tilt angle, the far projection distance being a lesser of: a first distance from the antenna to the ground of a 3 dB far projection; two times a second distance from the antenna to the ground of a 3 dB near projection; and a third distance from the antenna to the ground of a projection of the maximum antenna gain multiplied by the square root of two. A ground footprint of the beam is determined based at least in part on the determined far projection distance. The method further includes causing the antenna to be pointed based at least in part on the determined ground footprint of the beam of the antenna.Type: GrantFiled: March 19, 2019Date of Patent: November 24, 2020Assignee: SR Technologies, Inc.Inventors: Steven M. Romanow, Mark Passler, Graham K. Smith
-
Patent number: 10841140Abstract: A method and wireless device are disclosed that increase the range of active geo-location from the measuring station as compared with known solutions by increasing the effective receive sensitivity of the measuring station by transmitting a predetermined ranging packet and correlating the raw received bit stream of the response packet with one or more predetermined bit streams. In one embodiment, the disclosed method and system may be applied to the reception of IEEE 802.11 orthogonal frequency division multiplexed (OFDM) acknowledgments (ACK) and clear-to-send (CTS) packets in response to OFDM data null and OFDM request-to-send (RTS) packets respectively, in the 2.4 GHz and 5 GHz bands.Type: GrantFiled: December 10, 2019Date of Patent: November 17, 2020Assignee: SR Technologies, Inc.Inventors: Christopher Hunter, Patrick Murphy
-
Patent number: 10840970Abstract: A method and devices are disclosed that increase the range of active geo-location from the airborne measuring station as compared with known methods by increasing the effective receive sensitivity of the airborne measuring station. In one embodiment, this may be accomplished by transmitting a burst of predetermined ranging packets and recording the correlation values of each received bit stream of the response packets with the corresponding predetermined bit streams for each of the transmitted ranging packets within a preset reception window. A rolling maximum is then performed on the correlation values in each reception window. At the end of the burst, the rolling maximum results are summed and the time of the peak value is determined.Type: GrantFiled: August 26, 2020Date of Patent: November 17, 2020Assignee: SR Technologies, Inc.Inventors: Conrad C. Smith, Graham K. Smith
-
Patent number: 10812132Abstract: A method and devices are disclosed that increase the range of active geo-location from the airborne measuring station as compared with known methods by increasing the effective receive sensitivity of the airborne measuring station. In one embodiment, this may be accomplished by transmitting a burst of predetermined ranging packets and recording the correlation values of each received bit stream of the response packets with the corresponding predetermined bit streams for each of the transmitted ranging packets within a preset reception window. A rolling maximum is then performed on the correlation values in each reception window. At the end of the burst, the rolling maximum results are summed and the time of the peak value is determined.Type: GrantFiled: February 5, 2020Date of Patent: October 20, 2020Assignee: SR Technologies, Inc.Inventors: Conrad C. Smith, Graham K. Smith
-
Patent number: 10771927Abstract: A method, device and system are disclosed for geo-locating a device. In one embodiment, a first wireless transmitter/receiver pages a second wireless transmitter/receiver to establish a communication. A plurality of packets transmitted by the first wireless transmitter/receiver and transmitted by the second wireless transmitter/receiver are received by a wireless receiver. The reception time of packets transmitted by the first wireless transmitter/receiver and the second wireless transmitter/receiver is recorded. A time delay based at least in part on the recorded reception times of each packet is calculated, and a location of the second wireless device based on the calculated time delay is determined. A target location of the second wireless transmitter/receiver is determined based on a plurality of the determined locations of the second wireless transmitter/receiver.Type: GrantFiled: March 5, 2020Date of Patent: September 8, 2020Assignee: SR Technologies, Inc.Inventors: Joaquin Prendes, Alexander Vallejo, Steven Romanow, Mark Passler
-
Patent number: 10756775Abstract: A method and devices are disclosed that increase the range of active geo-location from the airborne measuring station as compared with known methods by increasing the effective receive sensitivity of the airborne measuring station. In one embodiment this may be accomplished by transmitting a predetermined ranging packet and correlating the raw received bit stream of the response packet with the predetermined bit stream. In one embodiment, the disclosed method applies to the reception of IEEE 802.11 direct sequence spread spectrum DSSS ACK and DSSS CTS packets in response to DSSS data null and DSSS RTS packets respectively, in the 2.4 GHz band.Type: GrantFiled: October 1, 2019Date of Patent: August 25, 2020Assignee: SR Technologies, Inc.Inventor: Graham K. Smith