초록 ▼

Receivers and reception methods conduct spread spectrum reception using the energy of multiple bits, preferably a substantial number of bits, in a packet for correct alignment of the spreading code at the receiver. Code acquisition, as well as packet detection and acquisition are provided by embodim

Receivers and reception methods conduct spread spectrum reception using the energy of multiple bits, preferably a substantial number of bits, in a packet for correct alignment of the spreading code at the receiver. Code acquisition, as well as packet detection and acquisition are provided by embodiments of the invention. Preferred embodiment receivers and reception methods provide packet detection at low SINR looking at energy of multiple bits of the packet, frame synchronization using short preamble, timing recovery at low SINR looking at energy of multiple bits of the packet, quick code acquisition using parallel search for all possible code phases, code acquisition at low SINR, and tracking of acquired timing and code phase. Preferred embodiment receivers and reception methods use the energy of multiple bits for making decisions.

대표청구항 ▼

1. A method for reception of a spread spectrum signal, the method comprising steps of: receiving a transmitted signal with an unknown phase;detecting an energy of the transmitted signal and producing observations of bits from the energy of the transmitted signal;determining a probability of signal d

1. A method for reception of a spread spectrum signal, the method comprising steps of: receiving a transmitted signal with an unknown phase;detecting an energy of the transmitted signal and producing observations of bits from the energy of the transmitted signal;determining a probability of signal detection in the step of detecting given a probability of false alarm and a signal to interference and noise ratio; andconducting post-detection integration over multiple observations of bits in the transmitted signal to adjust the probability of signal detection and to acquire a code of the transmitted signal, wherein said step of detecting comprises defining a variable Dquad(t) that can be used as a test statistic for quadratic detection where Dquad⁡(t)=∑i=0L-1⁢Z⁡(iT)L is a number of the observations of bits, Z is the energy of the transmitted signal, i is an integer value, T is a time period for a data symbol and is equal to m*Tc where m is a spreading ratio and Tc is a chip period, such that energy of multiple bits in a packet are used to provide the observations of bits. 2. The method of claim 1, wherein said step of detecting comprises passing in phase and quadrature signals through a de-spreading correlator and adding squares of the in phase and quadrature signals to produce the observations of bits in the signal. 3. The method of claim 1, wherein said step of conducting post-detection integration is conducted over multiple bits in a packet up to all of the bits in the packet. 4. The method of claim 3, wherein the multiple bits comprises an optimal number of bits that is dependent upon the total drift between a clock used in said step of receiving and clock used to transmit the transmitted signal. 5. The method of claim 1, wherein said detecting, determining, and conducting post-detection integration are independent of a sequence of transmitted data bits in the transmitted signal. 6. The method of claim 1, wherein said step of detecting comprises: de-spreading the transmitted signal to produce a de-spread signal;summing values of the de-spread signal to detect energy using multiple bits and acquire the code of the transmitted signal. 7. The method of claim 6, wherein said step of summing sums the absolute values of the de-spread signal. 8. The method of claim 6, wherein said steps of receiving, de-spreading, and summing are conducted after a further step of recovering the carrier of the transmitted signal. 9. The method of claim 1, wherein said detecting comprises: using the energy of multiple bits in the signal stream, conducting quick code acquisition using parallel search for all possible code phases. 10. The method of claim 9, wherein said step of conducting quick code acquisition comprises: during every sampling period, determining a log likelihood ratio of a conditional probability density function of decision variables formed for the signal stream;comparing the log likelihood ratio to a threshold;deciding whether the code is acquired based upon the step of comparing;when the code is acquired according to said step of deciding, finding a peak of the log likelihood ratio over a time period and declaring code acquisition when the log likelihood ratio is maximized over the time period. 11. The method of claim 9, wherein said step of conducting quick code acquisition further comprises tracking of acquired timing and code phases. 12. The method of claim 1, wherein said step of detecting comprises: using the energy of multiple bits in the signal stream, conducting packet detection. 13. The method of claim 12, wherein said step of conducting packet detection comprises: during every sampling period, determining a log likelihood ratio of a conditional probability density function of decision variables formed for the signal stream;comparing the log likelihood ratio to a threshold;deciding whether a packet is present based upon the step of comparing;when a packet is present according to said step of deciding, finding a peak of the log likelihood ratio over a time period and declaring a packet present when the log likelihood ratio is maximized over the time period. 14. The method of claim 13, further comprising: determining a start of the packet based on the peak of the log likelihood ratio. 15. The method of claim 12, further comprising a step of using corresponding decision variables as data bits after a packet is declared present. 16. The method of claim 12, further comprising a step of using corresponding decision variables as input to a soft decision decoder after a packet is declared present. 17. A method for reception of a spread spectrum signal, the method comprising steps of: receiving a transmitted signal with an unknown phase;detecting an energy of the transmitted signal, de-spreading the transmitted signal and producing observations of bits from the energy of the transmitted signal;determining a probability of signal detection in the step of detecting given a probability of false alarm and a signal to interference and noise ratio; andconducting post-detection integration over multiple observations of bits in the transmitted signal to adjust the probability of signal detection and to acquire a code of the transmitted signal, wherein said step of detecting comprises defining a variable Dabs(t) that can be used as a test statistic for quadratic detection where Dabs⁡(t)=∑L-1i=0⁢xbb(I)(i⁡(T) xbbl(t) is a de-spread version of the transmitted signal, L is a number of the observations of bits, i is an integer value, T is a time period for a data symbol and is equal to m * Tc where in is a spreading ratio and Tc is a chip period, such that energy of multiple bits in a packet are used to provide the observations of bits.