Noise cancellation system

What is claimed is: 1. A noise cancellation processor, comprising: an audio input for receiving an input audio signal; a microphone input structured to receive one or more microphone signals from a monitored environment; a parameter store structured to store a plurality of filter parameters; a mode selector structured to select one or more filter parameters from the parameter store based on a selected mode; a sound processor structured to accept the microphone input and modify the microphone input by the selected filter parameters to produce an anti-noise signal; and a mixer structured to mix the produced anti-noise signal with the input audio signal to produce a noise-compensated audio output. 2. The noise cancellation processor of claim 1 , in which the microphone signals comprise a feed-forward microphone signal, a feedback microphone signal, or both feed-forward and feedback signals. 3. The noise cancellation processor of claim 2 , in which the mode selector is structured to select one or more parameters for a feed-forward microphone signal. 4. The noise cancellation processor of claim 2 , in which the mode selector is structured to select one or more parameters for a feedback microphone signal. 5. The noise cancellation processor of claim 2 , in which the mode selector is structured to select one or more parameters for a feed-forward microphone signal and one or more parameters for a feedback microphone signal. 6. A noise cancellation system, comprising: an input for receiving an audio signal; an upsampler structured to receive the audio signal and produce an unsampled audio signal; at least one microphone input for receiving a microphone signal; an ADC to convert the received microphone signal to a microphone digital signal; a decimator structured to sample the microphone digital signal at a sample rate that matches the upsampled audio signal to produce a decimated microphone signal; and a noise cancellation processor, including: an audio input for receiving the upsampled audio signal, a parameter store structured to store a plurality of filter parameters, a microphone input structured to receive one or more decimated microphone signals, a mode selector structured to select one or more filter parameters from the parameter store based on a selected mode, a sound processor structured to accept the decimated microphone input and modify the decimated microphone input by the selected parameters to produce an anti-noise signal, and a mixer structured to mix the produced anti-noise signal with the input audio signal to produce a noise-compensated audio output. 7. The noise cancellation system of claim 6 , in which the microphone signals comprise a feed-forward microphone signal, a feedback microphone signal, or both feed-forward and feedback signals. 8. The noise cancellation system of claim 7 , in which the mode selector is structured to select one or more parameters for a feed-forward microphone signal. 9. The noise cancellation system of claim 7 , in which the mode selector is structured to select one or more parameters for a feedback microphone signal. 10. The noise cancellation system of claim 7 , in which the mode selector is structured to select one or more parameters for a feed-forward microphone signal and one or more parameters for a feedback microphone signal. 11. A method of operating a noise cancellation processor, comprising: receiving an audio signal through an audio input; receiving one or more microphone signals of a monitored environment through one or more microphone inputs; selecting one or more filter parameters from a parameter store that is structured to store a plurality of filter parameters; modifying the one or more microphone signals by a filter using the selected filter parameters to produce an anti-noise signal; and mixing the produced anti-noise signal with the audio signal to produce a noise-compensated audio output. 12. The method of operating a noise cancellation processor according to claim 11 in which the noise cancellation processor includes a processor that operates according to a set of instructions, the method further comprising: selecting one of a plurality of sets of instructions; providing the selected set of instructions to the processor; and causing the processor to operate according to the provided instructions.