Audio signal processing method and device

What is claimed is: 1. A method for processing an audio signal, the method comprising: receiving an input audio signal including at least one of a multi-channel signal and a multi-object signal; receiving type information of a filter set for binaural filtering of the input audio signal, the type of the filter set being one of a finite impulse response (FIR) filter, a parameterized filter in a frequency domain, and a parameterized filter in a time domain; receiving filter information for binaural filtering based on the type information; and performing the binaural filtering for the input audio signal by using the received filter information, wherein when the type information indicates the parameterized filter in the frequency domain, the receiving filter information step receives subband filter coefficients having a length determined for each subband of a frequency domain, and the performing the binaural filtering step filters each subband signal of the input audio signal by using the subband filter coefficients corresponding thereto. 2. The method of claim 1 , wherein the length of each subband filter coefficients is determined based on reverberation time information of the corresponding subband, which is obtained from proto-type filter coefficients, and the length of at least one subband filter coefficients obtained from the same proto-type filter coefficients is different from the length of another subband filter coefficients. 3. The method of claim 1 , further comprising: when the type information indicates the parameterized filter in the frequency domain, receiving information on the number of frequency bands to perform the binaural rendering and information on the number of frequency bands to perform convolution; receiving a parameter for performing tap-delay line filtering with respect to each subband signal of a high-frequency subband group having a frequency band to perform the convolution as a boundary; and performing the tap-delay line filtering for each subband signal of the high-frequency group by using the received parameter. 4. The method of claim 3 , wherein the number of subbands of the high-frequency subband group performing the tap-delay line filtering is determined based on a difference between the number of frequency bands to perform the binaural rendering and the number of frequency bands to perform the convolution. 5. The method of claim 3 , wherein the parameter includes delay information extracted from the subband filter coefficients corresponding to each subband signal of the high-frequency group and gain information corresponding to the delay information. 6. The method of claim 1 , wherein when the type information indicates the FIR filter, the receiving the filter information step receives the proto-type filter coefficients corresponding to each subband signal of the input audio signal. 7. An apparatus for processing an audio signal for performing binaural rendering of an input audio signal including at least one of a multi-channel signal and a multi-object signal, wherein the apparatus for processing an audio signal is configured to: receive type information of a filter set for binaural filtering of the input audio signal, the type of the filter set being one of a finite impulse response (FIR) filter, a parameterized filter in a frequency domain, and a parameterized filter in a time domain, receive filter information for binaural filtering based on the type information, and perform the binaural filtering for the input audio signal by using the received filter information, and wherein when the type information indicates the parameterized filter in the frequency domain, the apparatus for processing an audio signal receives subband filter coefficients having a length determined for each subband of a frequency domain and filters each subband signal of the input audio signal by using the subband filter coefficients corresponding thereto.