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A real-time spectrum analysis engine (SAGE) that comprises a spectrum analyzer component, a signal detector component, a universal signal synchronizer component and a snapshot buffer component. The spectrum analyzer component generates data representing a real-time spectrogram of a bandwidth of radi

A real-time spectrum analysis engine (SAGE) that comprises a spectrum analyzer component, a signal detector component, a universal signal synchronizer component and a snapshot buffer component. The spectrum analyzer component generates data representing a real-time spectrogram of a bandwidth of radio frequency (RF) spectrum. The signal detector detects signal pulses in the frequency band and outputs pulse event information entries output, which include the start time, duration, power, center frequency and bandwidth of each detected pulse. The signal detector also provides pulse trigger outputs which may be used to enable/disable the collection of information by the spectrum analyzer and the snapshot buffer components. The snapshot buffer collects a set of raw digital signal samples useful for signal classification and other purposes. The universal signal synchronizer synchronizes to periodic signal sources, useful for instituting schemes to avoid interference with those signals.

대표청구항 ▼

What is claimed is: 1. A method for generating information pertaining to activity occurring in a radio frequency band, comprising: a. receiving energy in the radio frequency band in which activity associated with a plurality of signal types may occur; b. generating power values at a plurality of fr

What is claimed is: 1. A method for generating information pertaining to activity occurring in a radio frequency band, comprising: a. receiving energy in the radio frequency band in which activity associated with a plurality of signal types may occur; b. generating power values at a plurality of frequency bins from a digital signal representing radio frequency energy received in the radio frequency band during a time interval; c. adding the power at each frequency bin for a current time interval with the power at the corresponding frequency bin for a previous time interval to obtain an average power at each frequency bin; d. comparing the power at each frequency bin with a power threshold to obtain a duty count of the number of times that the power at each frequency bin exceeds the power threshold over time intervals. 2. The method of claim 1, and further comprising comparing the power at each frequency bin for a current time interval with the power at the corresponding frequency bin for a previous time interval to track the maximum power in each frequency bin over time intervals. 3. The method of claim 2, and further comprising storing in a memory one or more of: the average power at each frequency bin, the duty count for each frequency bin and the maximum power for each frequency bin over time intervals. 4. The method of claim 2, and further comprising comparing the power at each frequency bin with a peak threshold over multiple update cycles each of which comprises a plurality time intervals, thereby tracking the number of update cycles during which a certain number of peaks are detected. 5. The method of claim 4, and further comprising storing the number of update cycles during which the certain number of peaks are detected. 6. The method of claim 4, and further comprising displaying the duty count and number of peaks detected. 7. A method for generating information pertaining to activity occurring in a radio frequency band, comprising: a. receiving energy in the radio frequency band in which activity associated with a plurality of signal types may occur; b. generating power spectral information from the radio frequency energy received in the radio frequency band; and c. verifying authenticity of a device operating in the radio frequency band based on the power spectral information obtained when the device emits a signal in the radio frequency band. 8. The method of claim 7, wherein verifying comprises comparing signal pulse characteristics obtained when the device emits a signal with stored signal pulse characteristics that are associated with devices authorized to operate in the radio frequency band. 9. The method of claim 8, wherein verifying comprises comparing signal pulse characteristics associated with the emitted signal with signal pulse characteristics associated with an identifier that matches an identifier contained in the emitted signal and determining that the device is not authorized when the captured signal pulse characteristics do not match the stored signal pulse characteristics for that identifier. 10. A device for generating information pertaining to activity occurring in a radio freciuency band, comprising: a. a spectrum analyzer that computes power values for radio frequency energy received in at least part of the radio frequency band for a time interval; and b. a signal detector coupled to the spectrum analyzer that detects signal pulses of radio frequency energy that meet one or more characteristics, wherein the signal detector comprises a peak detector circuit that detects one or more peaks from the power values for a time interval, wherein a peak corresponds to power values above a threshold at a predetermined number of contiguous frequencies; and at least one pulse detector circuit coupled to the peak detector circuit that detects signal pulses that meet one or more characteristics based on one or more peaks detected the peak detector, wherein the pulse detector circuit outputs a trigger signal in response to detecting a signal pulse that meets the configurable characteristics. 11. The device of claim 10, and further comprising a memory responsive to the trigger signal that stores digital signals representing samples of radio frequency energy received in the radio frequency band. 12. The device of claim 10, wherein the memory further stores a timestamp signal identifying a time associated with an occurrence of the trigger signal. 13. The device of claim 10, wherein the memory is a first-in-first-out buffer. 14. A device for generating information pertaining to activity occurring in a radio frequency band, comprising: a. a spectrum analyzer that computes power values for radio frequency energy received in at least part of the radio frequency band for a time interval, wherein the spectrum analyzer receives as input a digital signal representing activity in at least a portion of the frequency band and comprises a power calculation circuit that computes power values for a plurality of frequency bins for a time interval, and wherein the spectrum analyzer further computes from the power values for the plurality of frequencies, one or more data selected from the group consisting of: average power at each frequency bin over time intervals; a duty count comprising a running sum at each time interval of the number of times the power at each frequency bin exceeds the power threshold; a maximum power for each frequency bin for a current and prior time intervals; and a running count of the number of time intervals in which a certain number of peaks have been detected; b. a signal detector coupled to the spectrum analyzer that detects signal pulses of radio frequency energy that meet one or more characteristics; c. a memory for storing the one or more data; and d. a memory controller coupled to the memory, wherein the signal detector circuit outputs a trigger signal in response to detecting a certain type of pulse, and wherein the trigger signal is coupled to the memory controller to write to the memory the output of the power calculation circuit for one or more time intervals. 15. A device for generating information pertaining to activity occurring in a radio frequency band, comprising: a. a radio receiver capable of receiving radio frequency energy in the radio frequency band in which activity associated with a plurality of signal types may occur, wherein the radio receiver downconverts signals in a portion of the radio frequency band, and is tunable to different portions of the radio frequency band; b. a spectrum analyzer that computes power values for radio frequency energy received in at least part of the radio frequency band for a time interval; and c. a signal detector coupled to the spectrum analyzer that detects signal pulses of radio frequency energy that meet one or more characteristics. 16. In combination, a device for generating information pertaining to activity occurring in a radio frequency band, comprising a radio receiver capable of receiving radio frequency energy in the radio frequency band in which activity associated with a plurality of signal types may occur, a spectrum analyzer that computes power values for radio frequency energy received in at least part of the radio frequency band for a time interval, and a signal detector coupled to the spectrum analyzer that detects signal pulses of radio frequency energy that meet one or more characteristics, wherein the radio receiver, spectrum analyzer and signal detector reside on a card device having an interface, and a host device coupled to the card device via the interface, wherein the host device comprises a host processor and memory that stores programs that are used to process the output of the spectrum analyzer and signal detector. 17. The method of claim 7, and further comprising storing for each of a plurality of authorized devices an identifier for the device and corresponding spectral characteristics for the device, and wherein verifying comprises recovering an identifier from signal emitted by the device and comparing the power spectral information for the signal emitted by the device with the stored spectral characteristics associated with that identifier to determine whether the device is an authorized device. 18. The method of claim 17, wherein the identifier is a MAC address or IP address. 19. The method of claim 17, and further comprising detecting that the device is masquerading as an authorized device when the power spectral information does not match the stored spectral characteristics associated with the identifier recovered from the signal transmitted by the device.