Loudness control with noise detection and loudness drop detection

What is claimed is: 1. A system configured to detect noise in an input signal, the system comprising: a filter bank component configured to generate a frequency domain signal based on the input signal; a spectral flux measurement component configured to calculate a spectral flux value of the frequency domain signal; a peakiness measurement component configured to generate a peakiness value by estimating tonal characteristics of the frequency domain signal; a signal-to-noise (SNR) estimator component configured to estimate a noise power spectrum based on the spectral flux value and the peakiness value, and generate a signal-to-noise (SNR) ratio; a hysteresis component configured to generate a content-versus-noise classification value for the input signal based on the signal-to-noise ratio (SNR); and a temporal smoothing component configured to adjust gain correction speeds based on the content-versus-noise classification value. 2. The system of claim 1 further comprising: a decibel converter configured to generate a power spectrum based on the frequency domain signal and convert the power spectrum to the decibel (dB) domain; wherein the temporal smoothing component is also configured to generate a time-smoothed power spectrum by estimating temporal averages of energy and of each frequency band of the power spectrum; wherein the spectral flux measurement component is configured to calculate the spectral flux value by calculating a mean difference of the power spectrum and the time-smoothed power spectrum; wherein the peakiness measurement component is configured to generate a peakiness value by estimating tonal characteristics of each sub-band of the power spectrum by measuring a relative energy of a sub-band compared to its neighbors. 3. The system of claim 1 wherein the signal-to-noise ratio estimator component is configured to calculate a wide-band noise level and a signal level. 4. The system of claim 1 further comprising: wherein the temporal smoothing component is also configured to generate a smoothed SNR based on the SNR. 5. The system of claim 4 wherein, the SNR estimator component is configured to estimate the noise power spectrum of the signal by removing any temporal dynamics or tonal components from an original spectrum of the signal that are assumed to be components of desired content. 6. A loudness control system configured to detect noise in an input signal, the system comprising: a filter bank component configured to generate a frequency domain signal based on the input signal; a spectral flux measurement component configured to calculate a spectral flux value of the frequency domain signal; a peakiness measurement component configured to generate a peakiness value by estimating tonal characteristics of the frequency domain signal; a signal-to-noise (SNR) estimator component configured to estimate a noise power spectrum based on the spectral flux value and the peakiness value, and generate a signal-to-noise (SNR) ratio; a hysteresis component configured to generate a content-versus-noise classification value for the input signal based on the SNR; and a temporal smoothing component configured to generate a smoothed SNR based on the SNR and configured to adjust gain correction speeds based on the content-versus-noise classification value.