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A code division multiaccess (CDMA) communications system with low probability of intercept, low probability of detect (LPI/LPD) includes at least one data dictionary stored on a storage device of a sender subsystem and a recipient subsystem. The at least one data dictionary includes at least one data predetermined start time and date, at least one data predetermined end time and date based on a mission length or a predetermined wrap time and date, a CDMA chip rate, and a complex zero-mean independent and identically distributed (iid) sequence where each complex number in the complex zero-mean iid sequence represents a CDMA chip stored on the storage device of the sender subsystem and the recipient subsystem. The system includes a tangible, non-transitory, machine-readable medium comprising machine-executable instructions which, when executed by at least one processor of a machine, cause the at least one processor to: receive a message, convert the message to symbols with corresponding phasors, determine a date and time to send the message, look up a data spreading vector for each corresponding phasor by providing a mutually agreed number of chips per phasor stored on the storage device of the sender subsystem and the recipient subsystem and by matching the date and time the message is to be sent to the at least one data predetermined start time and date and the at least one data predetermined end time and date. Each data spreading vector is multiplied by its corresponding phasor to create a data spread vector for each data spreading vector. The sender subsystem is configured to sequentially transmit each chip of each data spread vector as a signal.

Titel:	Code division multiaccess (CDMA) communications system and method with low probability of intercept, low probability of detect (LPI/LPD)
Autor/in / Beteiligte Person:	Foster-Miller, Inc.
Link:	View record in USPTO Patent Grants (Volltext)
Veröffentlichung:	2020
Medientyp:	Patent
Sonstiges:	Nachgewiesen in: USPTO Patent Grants Sprachen: English Patent Number: 10756,781 Publication Date: August 25, 2020 Appl. No: 16/408696 Application Filed: May 10, 2019 Assignees: Foster-Miller, Inc. (Waltham, MA, US) Claim: 1. A code division multiple access (CDMA) communications system with low probability of intercept, low probability of detect (LPI/LPD), the system comprising: at least one data dictionary stored on a storage device of a sender subsystem and a recipient subsystem, the at least one data dictionary including at least one data predetermined start time and date, at least one data predetermined end time and date based on a mission length or a predetermined wrap time and date, a CDMA chip rate, and a complex zero-mean independent and identically distributed (iid) sequence where each complex number in the complex zero-mean iid sequence represents a CDMA chip stored on the storage device of the sender subsystem and the recipient subsystem; at least one processor configured to: receive a message, convert the message to symbols with corresponding phasors, determine a date and time to send the message, look up a data spreading vector for each corresponding phasor by providing a mutually agreed number of chips per phasor stored on the storage device of the sender subsystem and the recipient subsystem and by matching the date and time the message is to be sent to the at least one data predetermined start time and date and the at least one data predetermined end time and date, and multiply each data spreading vector by its corresponding phasor to create a data spread vector for each data spreading vector; the sender subsystem configured to sequentially transmit each chip of each data spread vector as a signal; and the recipient subsystem is configured to receive the signal from the sender subsystem and includes the mutually agreed number of chip sets per phasor and the data dictionary, the at least one processor further configured to generate an optimum multi-doppler correlation receiver. Claim: 2. The system of claim 1 in which the at least one data dictionary includes at least one Gaussian data dictionary. Claim: 3. The system of claim 2 further including a Gaussian pilot dictionary stored on the storage device of the sender subsystem and the recipient subsystem, the at least one pilot dictionary including at least one pilot predetermined start time and date and at least one pilot predetermined end time and date based on a mission length or a predetermined wrap time and date, a CDMA chip rate, and a Gaussian complex zero-mean iid sequence where each complex number in the complex zero-mean iid sequence represents a CDMA chip stored on the storage device of the sender subsystem and the recipient subsystem. Claim: 4. The system of claim 3 in which the at least one processor is further configured to look up a pilot spreading vector for each corresponding phasor by providing a mutually agreed number of chips per phasor stored on the storage device of the sender subsystem and the recipient subsystem and match the date and time the message is to be sent 5 to the at least one pilot predetermined start date and time and the at least one predetermined 6 pilot end time and date to create a pilot spread vector for each pilot spreading vector; combine each data spread data vector and each pilot spread vector; and the sender subsystem configured to transmit each chip of the combined data spread vector and the pilot spread pilot vector as a signal. Claim: 5. The system of claim 2 further including a linear time invariant invertible filter coupled to the sender subsystem configured to shape the spectrum of the transmitted signal to match the spectrum shape of a noise environment. Claim: 6. The system of claim 4 further including a linear time invariant invertible filter coupled to the sender subsystem configured to shape the spectrum of the transmitted signal to approximately match the spectrum shape of a noise environment. Claim: 7. The system of claim 4 further including a filter coupled to the recipient subsystem configured to invert the shape output by the linear time invariant invertible filter. Claim: 8. The system of claim 5 further including a filter coupled to the recipient subsystem configured to invert the shape output by the linear time invariant invertible filter. Claim: 9. The system of claim 4 in which the recipient subsystem is configured to receive the signal from the sender subsystem and includes the mutually agreed number of chip sets per phasor, the data dictionary, and the pilot dictionary, the processor further configured to generate an optimum multi-doppler correlation receiver. Claim: 10. The system of claim 7 in which the recipient subsystem is configured to receive the signal from the sender subsystem and includes the mutually agreed number of chip sets per phasor, the data dictionary, and the pilot dictionary, the processor further configured to generate an optimum multi-doppler correlation receiver. Claim: 11. The system of claim 8 in which the recipient subsystem is configured to receive the signal from the sender subsystem and includes the mutually agreed number of chip sets per phasor, the data dictionary, and the pilot dictionary, the processor further configured to generate an optimum multi-doppler correlation receiver. Claim: 12. A method for code division multiple access (CDMA) communication with low probability of intercept, low probability of detect (LPI/LPD), the method comprising: storing at least one data dictionary including at least one data predetermined start time and date and at least one data predetermined end time and date based on a mission length or a predetermined wrap time and date, a CDMA chip rate, and a complex zero-mean independent and identically distributed (iid) sequence where each complex number in the complex zero-mean iid sequence represents a CDMA chip stored on a sender subsystem and a recipient subsystem; receiving a message; converting the message to symbols with corresponding phasors; determining a date and time to send the message; looking up a data spreading vector for each corresponding phasor by providing a mutually agreed number of chips per phasor stored on the sender subsystem and the recipient subsystem and by matching the date and time of the message is to be sent to the at least one data predetermined start time and date and the at least one data predetermined end time and date; multiplying each data spreading vector by its corresponding phasor to create a data spread data vector for each data spreading vector; sequentially transmitting each chip of each data spread vector as a signal; and receiving the signal from the sender subsystem, providing the mutually agreed number of chip sets per phasor and the data dictionary, and generating an optimum multi-doppler correlation receiver. Claim: 13. The method of claim 12 in which the data dictionary includes at least one Gaussian data dictionary. Claim: 14. The method of claim 13 further including providing at least one Gaussian 2 pilot dictionary including at least one pilot predetermined start time and date and at least one pilot predetermined end time and date based on a mission length or a predetermined wrap time and date, a complex zero-mean iid sequence where each complex number and the complex zero-mean iid sequence represents a CDMA chip stored on the sender subsystem and the recipient subsystem; looking up a pilot spreading vector for each corresponding phasor by providing a mutually agreed number of chips per phasor stored on the sender subsystem and the recipient subsystem and by matching the date and time the message is to be sent to the at least one pilot predetermined start time and date and the at least one pilot predetermined end time and date; creating a pilot spread vector for each pilot spreading vector; and combining each data spread vector and each pilot spread vector; and transmitting each chip of the combined data spread vector and pilot spread vector as a signal. Claim: 15. The method of claim 12 further including providing a linear time invariant invertible filter coupled to the sender subsystem configured to shape the spectrum of the transmitted signal to match the spectrum shape of a noise environment. Claim: 16. The method of claim 14 further including providing a linear time invariant invertible filter coupled to the sender subsystem configured to shape the spectrum of the transmitted signal to match the spectrum shape of a noise environment. Claim: 17. The method of claim 15 further including inverting the shape output by the 2 linear time invariant invertible filter. Claim: 18. The method of claim 16 further including inverting the shape output by the linear time invariant invertible filter. Claim: 19. The method of claim 14 further including receiving the signal from the sender subsystem, providing the mutually agreed number of chip sets per phasor, the data dictionary, and the pilot dictionary and generating an optimum multi-doppler correlation receiver. Claim: 20. The method of claim 17 further including receiving the signal from the sender subsystem, providing the mutually agreed number of chip sets per phasor, the data dictionary, and the pilot dictionary and generating an optimum multi-doppler correlation receiver. Claim: 21. The method of claim 18 further including receiving the signal from the sender subsystem, providing the mutually agreed number of chip sets per phasor, the data dictionary, and the pilot dictionary and generating an optimum multi-doppler correlation 4 receiver. Patent References Cited: 2005/0207384 September 2005 Quick, Jr. ; 2006/0120471 June 2006 Learned ; 2019/0068240 February 2019 Michaels Assistant Examiner: Lee, Chae S Primary Examiner: Rutkowski, Jeffrey M Attorney, Agent or Firm: Iandiorio Teska & Coleman, LLP

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Code division multiaccess (CDMA) communications system and method with low probability of intercept, low probability of detect (LPI/LPD)