Einzeltreffer — DigiBib

Techniques are disclosed for generating a featureless low-probability-of-intercept/low-probability-of-detection (LPI/LPD) waveform via a continuously variable symbol rate transmission. A continuous-phase-modulation (CPM) signal can be represented with a phase trellis. During each symbol duration, the trellis is traversed in either a positive or negative direction in a continuous fashion from the starting phase value to the end phase value. The rate at which the trellis is traversed is varied continuously as a time-varying function. The time-varying phase velocity function, or instantaneous symbol rate, is a type of spreading code or secret key shared between the transmitter and receiver. The disclosed techniques can be implemented with CPM compromising the constant-modulus property of CPM signals.

Titel:	Featureless low-probability interception/detection waveform via continuously variable symbol rate transmission
Autor/in / Beteiligte Person:	BAE Systems Information and Electronic Systems Integration Inc.
Link:	View record in USPTO Patent Grants (Volltext)
Veröffentlichung:	2021
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Grants Sprachen: English Patent Number: 11159,939 Publication Date: October 26, 2021 Appl. No: 16/669822 Application Filed: October 31, 2019 Assignees: BAE Systems Information and Electronic Systems Integration Inc. (Nashua, NH, US) Claim: 1. A method of generating featureless low-probability-of-intercept/low-probability-of-detection (LPI/LPD) waveforms, the method comprising: receiving a sequence of symbols to be wirelessly transmitted from a transmitting device to a receiving device via a carrier signal; generating a pseudorandom phase sequence number; generating a trellis code representing the sequence of symbols; continuously modulating the carrier signal by traversing the trellis code at a variable traversal rate that is based on the pseudorandom phase sequence number; and causing the transmitting device to provide the phase sequence number to the receiving device. Claim: 2. The method of claim 1 , wherein the pseudorandom phase sequence number changes between different cycles of the carrier signal thereby causing the rate at which the trellis code is traversed to vary between different cycles of the carrier signal. Claim: 3. The method of claim 1 , wherein the sequence of symbols is a first sequence of symbols, wherein the trellis code is a first trellis code, wherein the phase sequence number is a first phase sequence number, wherein the variable traversal rate is a first variable traversal rate, and wherein the method further comprises: receiving a second sequence of symbols to be wirelessly transmitted from the transmitting device to the receiving device via the carrier signal; generating a second pseudorandom phase sequence number that is different from the first pseudorandom sequence number; generating a second trellis code representing the second sequence of symbols; and continuously modulating the carrier signal by traversing the second trellis code at a second variable traversal rate determined by the second pseudorandom phase sequence number, the second traversal rate being different from the first traversal rate. Claim: 4. The method of claim 1 , wherein the trellis code is traversed within a period of time that is less than a constant symbol duration. Claim: 5. The method of claim 1 , further comprising causing the transmitting device to wirelessly broadcast the modulated carrier signal via an antenna. Claim: 6. The method of claim 5 , wherein the broadcasted signal includes an I/Q in-phase/quadrature (IQ) signal. Claim: 7. The method of claim 1 , further comprising converting input data into the sequence of symbols such that the input data is encoded into the modulated carrier signal via the trellis code. Claim: 8. A communication system, comprising: a data processor configured to receive a sequence of symbols to be wirelessly transmitted from a transmitting device to a receiving device via a carrier signal; a phase sequence generator configured to generate a pseudorandom phase sequence number; a modulator operatively coupled to the data processor and to the phase sequence generator, the modulator configured to generate a trellis code representing the sequence of symbols received by the data processor and to continuously modulate the carrier signal by traversing the trellis code at a variable traversal rate that is based on the pseudorandom phase sequence number generated by the phase sequence generator; and a transmitter configured to cause the transmitting device to wirelessly broadcast the modulated carrier signal via an antenna. Claim: 9. The system of claim 8 , wherein the phase sequence generator is configured to change the pseudorandom phase sequence number between different cycles of the carrier signal thereby causing the rate at which the trellis code is traversed to vary between different cycles of the carrier signal. Claim: 10. The system of claim 8 , wherein the sequence of symbols is a first sequence of symbols, wherein the trellis code is a first trellis code, wherein the phase sequence number is a first phase sequence number, wherein the variable traversal rate is a first variable traversal rate, and wherein: the data processor is further configured to receive a second sequence of symbols to be wirelessly transmitted from the transmitting device to the receiving device via the carrier signal; the phase sequence generator is further configured to generate a second pseudorandom phase sequence number that is different from the first pseudorandom sequence number; and the modulator is further configured to generate a second trellis code representing the second sequence of symbols and to continuously modulating the carrier signal by traversing the second trellis code at a second variable traversal rate determined by the second pseudorandom phase sequence number, the second traversal rate being different from the first traversal rate. Claim: 11. The system of claim 8 , wherein the modulator is further configured to traverse the trellis code within a period of time that is less than a constant symbol duration. Claim: 12. The system of claim 8 , wherein the phase sequence generator is further configured to causing the transmitting device to provide the phase sequence number to the receiving device. Claim: 13. A computer program product including one or more non-transitory machine-readable mediums encoded with instructions that when executed by one or more processors cause a process of generating featureless low-probability-of-intercept/low-probability-of-detection (LPI/LPD) waveforms to be carried out, the process comprising; receiving a sequence of symbols to be wirelessly transmitted from a transmitting device to a receiving device via a carrier signal; generating a pseudorandom phase sequence number; generating a trellis code representing the sequence of symbols; and continuously modulating the carrier signal by traversing the trellis code at a variable traversal rate that is based on the pseudorandom phase sequence number, wherein the trellis code is traversed within a period of time that is less than a constant symbol duration. Claim: 14. The computer program product of claim 13 , wherein the pseudorandom phase sequence number changes between different cycles of the carrier signal thereby causing the rate at which the trellis code is traversed to vary between different cycles of the carrier signal. Claim: 15. The computer program product of claim 13 , wherein the sequence of symbols is a first sequence of symbols, wherein the trellis code is a first trellis code, wherein the phase sequence number is a first phase sequence number, wherein the variable traversal rate is a first variable traversal rate, and wherein the process further comprises: receiving a second sequence of symbols to be wirelessly transmitted from the transmitting device to the receiving device via the carrier signal; generating a second pseudorandom phase sequence number that is different from the first pseudorandom sequence number; generating a second trellis code representing the second sequence of symbols; and continuously modulating the carrier signal by traversing the second trellis code at a second variable traversal rate determined by the second pseudorandom phase sequence number, the second traversal rate being different from the first traversal rate. Claim: 16. The computer program product of claim 13 , the process further comprising causing the transmitting device to wirelessly broadcast the modulated carrier signal via an antenna. Claim: 17. The computer program product of claim 13 , the process further comprising causing the transmitting device to provide the phase sequence number to the receiving device. Patent References Cited: 7280464 October 2007 Newhouse ; 7876845 January 2011 Karabinis ; 8976837 March 2015 Lomp et al. ; 2011/0002362 January 2011 Michaels ; 2014/0171030 June 2014 Karabinis ; 2017/0150348 May 2017 Kowalevicz ; 2017/0163296 June 2017 Terry ; 2146453 January 2010 ; 2146454 January 2010 ; WO-2008022241 February 2008 Other References: Ungerboeck, Gottfried, “Trellis-Coded Modulation with Redundant Signal Sets Part I: Introduction”, IEEE Communications Magazine, Feb. 1987, vol. 25, pp. 5-21. cited by applicant Primary Examiner: Patel, Jay P Attorney, Agent or Firm: Finch & Maloney PLLC ; Asmus, Scott J.

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Featureless low-probability interception/detection waveform via continuously variable symbol rate transmission