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A maximum signal energy level among a plurality of individual distinct path signals in a wirelessly received signal cluster is detected. An early aggregate power level associated with at least a portion of the plurality of individual distinct path signals received at time instants preceding a first

A maximum signal energy level among a plurality of individual distinct path signals in a wirelessly received signal cluster is detected. An early aggregate power level associated with at least a portion of the plurality of individual distinct path signals received at time instants preceding a first moment time, and a late aggregate power level associated with at least a portion of the plurality of individual distinct path signals received at time instants subsequent to the first moment time are computed. The first moment time, which corresponds to the detected maximum signal energy level, is adjusted based on the early aggregate power level and the late aggregate power level. At least a portion of the plurality of individual distinct path signals is received at a corresponding plurality of time instants within a duration comprising a delay spread of the wirelessly received signal cluster based on the adjusted first moment time.

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1. A method for processing radio frequency (RF) signals, the method comprising: performing by one or more processors and/or circuits:detecting a maximum signal energy level among a plurality of individual distinct path signals in a wirelessly received signal cluster;computing an early aggregate powe

1. A method for processing radio frequency (RF) signals, the method comprising: performing by one or more processors and/or circuits:detecting a maximum signal energy level among a plurality of individual distinct path signals in a wirelessly received signal cluster;computing an early aggregate power level associated with at least a portion of said plurality of individual distinct path signals received at time instants preceding a first moment time, and a late aggregate power level associated with at least a portion of said plurality of individual distinct path signals received at time instants subsequent to said first moment time, wherein said first moment time corresponds to a time said detected maximum signal energy level is detected;adjusting said first moment time based on said early aggregate power level and said late aggregate power level; andrecovering at least a portion of said plurality of individual distinct path signals at a corresponding plurality of time instants based on said adjusted first moment time wherein said at least a portion of said plurality of individual distinct path signals is received within a duration comprising a delay spread of said wirelessly received signal cluster. 2. The method according to claim 1, comprising: computing at least one timing adjustment signal based on one or more of: said at least a portion of said plurality of individual distinct path signals, a generated code, and at least one computed aggregate power level. 3. The method according to claim 2, comprising: computing a timing reference signal based on said timing adjustment signal. 4. The method according to claim 1, comprising: generating a code based on one or more of: a start time associated with said wirelessly received signal cluster, a code identification, and a timing reference signal. 5. The method according to claim 4, comprising: computing a plurality of channel estimates based on one or more of: said at least a portion of said plurality of individual distinct path signals, said timing reference signal, and at least one said generated code. 6. The method according to claim 5, comprising: computing a plurality of power levels corresponding to said plurality of channel estimates. 7. The method according to claim 6, comprising: computing said early aggregate power level based on a summation of said plurality of power levels corresponding to said at least a portion of said plurality of individual distinct path signals received at time instants preceding said first moment time. 8. The method according to claim 6, comprising: computing said late aggregate power level based on a summation of said plurality of power levels corresponding to said at least a portion of said plurality of individual distinct path signals received at time instants subsequent to said first moment time. 9. The method according to claim 6, comprising: determining relative time instants, in relation to an expected arrival time of said wirelessly received signal cluster, corresponding to said at least a portion of said plurality of individual distinct path signals received at time instants preceding said first moment time and at time instants subsequent to said first moment time, respectively. 10. The method according to claim 9, comprising: computing said early aggregate power level and said late aggregate power level utilizing said corresponding relative time instants, respectively. 11. A system for processing radio frequency (RF) signals, the system comprising: one or more circuits for use in a receiver configured to:detect a maximum signal energy level among a plurality of individual distinct path signals in a wirelessly received signal cluster;compute an early aggregate power level associated with at least a portion of said plurality of individual distinct path signals received at time instants preceding a first moment time, and a late aggregate power level associated with at least a portion of said plurality of individual distinct path signals received at time instants subsequent to said first moment time, wherein said first moment time corresponds to a time said detected maximum signal energy level is detected;adjust said first moment time based on said early aggregate power level and said late aggregate power level; andrecover at least a portion of said plurality of individual distinct path signals at a corresponding plurality of time instants based on said adjusted first moment time wherein said at least a portion of said plurality of individual distinct path signals is received within a duration comprising a delay spread of said wirelessly received signal cluster. 12. The system according to claim 11, wherein said one or more circuits are further configured to compute at least one timing adjustment signal based on one or more of: said at least a portion of said plurality of individual distinct path signals, a generated code, and at least one computed aggregate power level. 13. The system according to claim 12, wherein said one or more circuits are further configured to compute a timing reference signal based on said timing adjustment signal. 14. The system according to claim 11, wherein said one or more circuits are further configured to generate a code based on one or more of: a start time associated with said wirelessly received signal cluster, a code identification, and a timing reference signal. 15. The system according to claim 14, wherein said one or more circuits are further configured to compute a plurality of channel estimates based on one or more of: said at least a portion of said plurality of individual distinct path signals, said timing reference signal, and at least one said generated code. 16. The system according to claim 15, wherein said one or more circuits are further configured to compute a plurality of power levels corresponding to said plurality of channel estimates. 17. The system according to claim 16, wherein said one or more circuits are further configured to compute said early aggregate power level based on a summation of at least a portion of said plurality of power levels corresponding to said at least a portion of said plurality of individual distinct path signals received at time instants preceding said first moment time. 18. The system according to claim 16, wherein said one or more circuits are further configured to compute said late aggregate power level based on a summation of said plurality of power levels corresponding to said at least a portion of said plurality of individual distinct path signals received at time instants subsequent to said first moment time. 19. The system according to claim 16, wherein said one or more circuits are further configured to determine relative time instants, in relation to an expected arrival time of said wirelessly received signal cluster, corresponding to said at least a portion of said plurality of individual distinct path signals received at time instants preceding said first moment time and at time instants subsequent to said first moment time, respectively. 20. The system according to claim 16, wherein said one or more circuits are further configured to compute said early aggregate power level and said late aggregate power level utilizing said corresponding relative time instants, respectively.