Claims
- 1. A method of initial synchronization, or acquisition, of a radio frequency (RF) burst transmission comprising the steps of:
generating at a transmitter a transmitted-reference preamble; transmitting by the transmitter a transmitted-reference, delay-hopped (TR/DH) burst to a receiver; detecting at the receiver the TR/DH burst to generate a time mark; following the transmission of the TR/DH burst, waiting by the transmitter a fixed period of time, the duration of which is known to the receiver; after the expiration of the fixed period of time, transmitting by the transmitter a burst of modulated RF bearing transmitted message data; and using by the receiver the generated time mark to begin reception of the burst of the RF burst transmission from the transmitter.
- 2. The method of initial synchronization, or acquisition, of an RF burst transmission recited in claim 1, wherein the RF burst transmission is a burst of time modulated ultra-wideband (UWB) communications transmission.
- 3. The method of initial synchronization, or acquisition, of an RF burst transmission recited in claim 2, wherein the burst of time modulated UWB is a pulse position modulated, time-hopped (PPM/TH) data packet.
- 4. The method of initial synchronization, or acquisition, of an RF burst transmission recited in claim 1, wherein the step of detecting at the receiver the TR/DH burst to generate a time mark is performed by a polyphase filter and decision logic.
- 5. The method of initial synchronization, or acquisition, of an RF burst transmission recited in claim 1, wherein the TR/DH burst comprises a code word consisting of Nc chips, transmitted sequentially, having a fixed duration, Tc, each chip being composed of Np pulse pairs.
- 6. The method of initial synchronization, or acquisition, of an RF burst transmission recited in claim 5, wherein the step of detecting at the receiver the TR/DH burst is performed by estimating a time-of-arrival (TOA) of a burst of RF composed of a TR/DH code word using a model.
- 7. The method of initial synchronization, or acquisition, of an RF burst transmission recited in claim 6, wherein the step of estimating the TOA is performed by fitting the model by a method of least squares fitting.
- 8. The method of initial synchronization, or acquisition, of an RF burst transmission recited in claim 6, wherein the step of estimating the TOA is performed using a polyphase approach making use of a model with a number of different phases.
- 9. In a radio frequency (RF) burst communications system comprising a transmitter and a receiver, apparatus for initial synchronization comprising:
a preamble generator at the transmitter for generating at a transmitter a transmitted-reference preamble, the transmitter transmitting a transmitted-reference, delay-hopped (TR/DH) burst to the receiver; a detector at the receiver for detecting the TR/DH burst to generate a time mark; a time delay means at the transmitter for measuring a fixed period of time, the duration of which is known to the receiver, following the transmission of the TR/DH burst, the transmitter at the expiration of the fixed period of time transmitting an RF burst transmission; and a correlation receiver in the receiver and responsive to the time mark for beginning reception of the RF burst transmission from the transmitter and outputting demodulated bits.
- 10. The apparatus for initial synchronization recited in claim 9, wherein the RF burst transmission is a burst of time modulated ulra-wideband (UWB) burst transmission.
- 11. The apparatus for initial synchronization recited in claim 10, wherein the burst of time modulated UWB burst transmission from the transmitter is a pulse position modulated, time-hopped (PM/TH) data packet.
- 12. The apparatus for initial synchronization recited in claim 9, wherein the detector at the receiver for detecting the TR/DH burst to generate a time mark comprises a polyphase filter and threshold logic.
- 13. The apparatus for initial synchronization recited in claim 9, wherein the TR/DH burst comprises a codeword consisting of Nc chips, transmitted sequentially, having a fixed duration, Tc, each chip being composed of Np pulse pairs, the detector at the receiver further comprising:
a bank of pulse pair correlators receiving the TR/DH burst and generating outputs; a bank of analog-to-digital converters (ADCs) digitizing the outputs of the bank of pulse pair correlators; a DH code word correlator receiving the digitized outputs from the bank of ADCs and generating a correlation output; and time estimation logic receiving the correlation output of the DH code word correlator and generating timing information for generating the time mark.
- 14. The apparatus for initial synchronization recited in claim 13, wherein the DH code word correlator is implemented as an application specific integrated circuit (ASIC).
- 15. The apparatus for initial synchronization recited in claim 13, wherein the DH code word correlator is implemented as a programmable logic device (PLD).
- 16. The apparatus for initial synchronization recited in claim 13, wherein time estimation logic detects the TR/DH burst by estimating a time-of-arrival (TOA) of a burst of RF composed of a TR/DH code word using a model.
- 17. The apparatus for initial synchronization recited in claim 16, wherein the time estimation logic estimates the TOA by fitting the model by a method of least squares fitting.
- 18. The apparatus for initial synchronization recited in claim 16, wherein the time estimation logic estimates the TOA by using a polyphase approach making use of a model with a number of different phases.
- 19. The apparatus for initial synchronization recited in claim 16, wherein the time estimation logic is implemented using an application specific integrated circuit (ASIC).
- 20. The apparatus for initial synchronization recited in claim 16, wherein the time estimation logic is implemented using programmable logic device (PDL).
- 21. The apparatus for initial synchronization recited in claim 13, wherein the time estimation logic includes a programmable digital signal processor (DSP) to convert a numerical TOA estimate to a clock edge for starting reception of the RF burst transmission.
- 22. A receiver for a radio frequency (RF) burst communications system including apparatus for initial synchronization comprising:
a detector for detecting the a transmitted-reference, delay-hopped (TR/DH) burst to generate a time mark transmitted by a transmitter; and a correlation receiver responsive to the time mark for beginning reception of a burst of time modulated UWB from the transmitter and outputting demodulated bits.
- 23. The receiver for an RF burst communications system recited in claim 22, wherein the RF burst is a burst of time modulated ultra-wideband (UWB).
- 24. The receiver for an RF burst communications system recited in claim 23, wherein the burst of time modulated UWB from the transmitter is a pulse position modulated, time-hopped (PPM/TH) data packet.
- 25. The receiver for an RF burst communications system recited in claim 22, wherein the detector at the receiver for detecting the TR/DH burst to generate a time mark comprises a polyphase filter and threshold logic.
- 26. The apparatus for initial synchronization recited in claim 22, wherein the TR/DH burst comprises a code word consisting of Nc chips, transmitted sequentially, having a fixed duration, Tc, each chip being composed of Np pulse pairs, the detector at the receiver further comprising:
a bank of pulse pair correlators receiving the TR/DH burst and generating outputs; a bank of analog-to-digital converters (ADCs) digitizing the outputs of the bank of pulse pair correlators; a DH code word correlator receiving the digitized outputs from the bank of ADCs and generating a correlation output; and time estimation logic receiving the correlation output of the DH code word correlator and generating timing information for generating the time mark.
- 27. The apparatus for initial synchronization recited in claim 26, wherein the DH code word correlator is implemented as an application specific integrated circuit (ASIC).
- 28. The apparatus for initial synchronization recited in claim 26, wherein the DH code word correlator is implemented as a programmable logic device (PLD).
- 29. The apparatus for initial synchronization recited in claim 22, wherein time estimation logic detects the TR/DH burst by estimating a time-of-arrival (TOA) of a burst of RF composed of a TR/DH code word using a model.
- 30. The apparatus for initial synchronization recited in claim 29, wherein the time estimation logic estimates the TOA by fitting the model by a method of least squares fitting.
- 31. The apparatus for initial synchronization recited in claim 29, wherein the time estimation logic estimates the TOA by using a polyphase approach making use of a model with a number of different phases.
- 32. The apparatus for initial synchronization recited in claim 29, wherein the time estimation logic is implemented using an application specific integrated circuit (ASIC).
- 33. The apparatus for initial synchronization recited in claim 29, wherein the time estimation logic is implemented using programmable logic device (PLD).
- 34. The apparatus for initial synchronization recited in claim 22, wherein the time estimation logic includes a programmable digital signal processor (DSP) to convert a numerical TOA estimate to a clock edge for starting reception of the RF burst transmission.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] The subject matter of this application is related to copending patent application Ser. No. 09/753,443 filed Jan. 3, 2001, by H. W. Tomlinson, Jr., J. E. Hershey, R. T. Hoctor, and K. B. Welles, II, for “Ultra-Wideband Communication System” (GE Docket RD-27,754), copending patent application Ser. No. 09/974,032 filed Oct. 10, 2001, by R. T. Hoctor, D. M. Davenport, A. M. Dentinger, N. A. Van Stralen, H. W. Tomlinson, Jr., K. B. Welles, II, and J. E. Hershey for “Ultra-Wideband Communication System and Method Using a Delay-Hopped, Continuous Noise Transmitted Reference” (GE Docket RD-28,759), and copending patent application Ser. No. 09/973,140 filed Oct. 9, 2001, by R. T. Hoctor, J. E. Hershey and H. W. Tomlinson, Jr., for “Transmitter Location for Ultra-Wideband, Transmitted-Reference, CDMA Communication System” (GE Docket RD-27,855), all of which are assigned to the assignee of this application. The disclosures of applications Ser. No. 09/753,443, Ser. No. 09/974,032 and Ser. No. 09/973,140 are incorporated herein by reference.