System and method for cancelling strong signals from combined weak and strong signals in communications systems

What is claimed is: 1. A receiver for cancelling strong signals from combined weak and strong signals comprising: an input circuit for receiving an input signal including a weak and a strong signal; a parametric cancellation circuit for producing a cancellation signal from the input signal; a first circuitry electrically coupled to the parametric cancellation circuit for producing a modulated signal from the cancellation signal; a demodulator electronically coupled to the first circuitry for demodulating the modulated signal to produce a demodulated signal with data contained in the weak signal, and an error signal; and an adaptation logic circuit for adaptively generating parameters for the parametric cancellation circuit to produce the cancellation signal, wherein the adaptation logic circuit inputs a representation of the strong signal, the demodulated signal, and the error signal to generate the parameters, and wherein the parametric cancellation circuit inputs the input signal, the representation of the strong signal and the error signal to produce the cancellation signal. 2. The receiver of claim 1 , wherein the receiver is an acoustic, optical or radio frequency (RF) receiver. 3. The receiver of claim 1 , wherein the input circuit comprises one or more of an antenna, a hydrophone, a light fiber, a low noise amplifier (LNA), heterodyne shifters, and baseband digitization for processing the weak and strong signal. 4. The receiver of claim 1 , wherein the input circuit is a short circuit to pass through the weak and strong signal. 5. The receiver of claim 1 , wherein the first circuitry comprises one or more of a modulator, heterodyne down-converter and an equalizer. 6. The receiver of claim 1 , wherein the parametric cancellation circuit includes a finite impulse response (FIR) filter. 7. The receiver of claim 1 , wherein the adaptation logic circuit utilizes least-mean-squares (LMS), recursive least squares (RLS), gradient descent, simplex optimization, Kalman filter, or neural network to adaptively produce parameters for the parametric cancellation circuit. 8. The receiver of claim 1 , wherein the parametric cancellation circuit operates on both linear and nonlinear portions of the strong signal representation. 9. The receiver of claim 8 , wherein the parametric cancellation circuit comprises of: a modulator to modulate the strong signal representation to produce a complex baseband signal; a first adaptive filter electrically coupled to the modulator and controlled by first adaptive parameters to adaptively filter the complex baseband signal to produce a first filtered output; a nonlinear parametric cancellation circuit electrically coupled to the modulator and controlled by third adaptive parameters to approximate signal distortions; a second adaptive filter electrically coupled to the nonlinear parametric cancellation circuit and controlled by second adaptive parameters to adaptively filter the signal distortions and produce a second filtered output; a first summer electrically coupled to the first adaptive filter and the second adaptive filter to mix the first filtered output and the second filtered output; and a second summer electrically coupled to the first summer and the weak and strong signal to mix an output of the first summer and the weak and strong signal to produce the cancellation signal. 10. The receiver of claim 9 , wherein the parametric cancellation circuit further includes an upconverted to upconvert the output of the first summer, when the weak signal is a baseband radio frequency (RF) signal. 11. The receiver of claim 1 , wherein the demodulator comprises of: a first summer for inputting the modulated output of the second circuitry to add a +1 to the modulated output; a second summer for inputting the modulated output of the second circuitry to add a −1 to the modulated output; a comparator coupled to the first and second summers to compare an output of the first summer to an output of the second summer; and a switch controlled by an output of the comparator to demodulate the modulated output of the second circuitry to 1 or 0 by selecting a path with a smaller error to produce the error signal. 12. A for cancelling strong signals from combined weak and strong signals comprising: an input circuit for receiving an input signal including a weak and a strong signal; a parametric cancellation circuit for producing a cancellation signal from the input signal; a first circuitry electrically coupled to the parametric cancellation circuit for producing a modulated signal from the cancellation signal; a demodulator electronically coupled to the first circuitry for demodulating the modulated signal to produce a demodulated signal with data contained in the weak signal, and an error signal; and an adaptation logic circuit for adaptively generating parameters for the parametric cancellation circuit to produce the cancellation signal, wherein the adaptation logic circuit comprises of: a modulator for modulating the strong signal representation to produce a modulated strong signal representation; and a parameter adaptation circuit for inputting the error signal, the modulated strong signal representation and the error signal to adaptively produce the parameters for the parametric cancellation circuit. 13. The receiver of claim 12 , wherein the adaptation logic circuit utilizes least-mean-squares (LMS), recursive least squares (RLS), Extended Kalman Filter or Unscented Kalman Filter to produce the parameters for the parametric cancellation circuit. 14. The receiver of claim 12 , wherein the parametric cancellation circuit further includes an upconverted to upconvert the output of the first summer, when the weak signal is a baseband radio frequency (RF) signal. 15. The receiver of claim 12 , wherein the adaptation logic circuit utilizes least-mean-squares (LMS), recursive least squares (RLS), gradient descent, simplex optimization, Kalman filter, or neural network to adaptively produce parameters for the parametric cancellation circuit. 16. A method for cancelling strong signals from combined weak and strong signals, the method comprising: receiving an input signal including a weak and strong signal; producing a cancellation signal based on the weak and strong signal, a representation of the strong signal and an error signal; modulating the cancellation signal to produce a modulated cancellation signal; demodulating the modulated cancellation signal to produce a demodulated signal with data contained in the weak signal and the error signal; and adaptively producing parameters for the parametric cancellation circuit based on the representation of the strong signal, the demodulated signal and the error signal. 17. The method of claim 16 , wherein the weak signal is an acoustic, optical or radio frequency (RF) signal. 18. The method of claim 16 , wherein producing a cancellation signal responsive utilizes a finite impulse response (FIR) filter. 19. The method of claim 16 , wherein adaptively producing parameters utilizes least-mean-squares (LMS), recursive least squares (RLS), gradient descent, simplex optimization, Kalman filter, or neural network to adaptively produce parameters for the parametric cancellation circuit. 20. The method of claim 16 , wherein the parametric cancellation circuit operates on both linear and nonlinear portions of the strong signal representation.