aspcol.soundfieldestimation.krr_stationary_mics_regularized_with_l2_norm

aspcol.soundfieldestimation.krr_stationary_mics_regularized_with_l2_norm(ir_mic, pos_mic, pos_eval, samplerate, c, reg_param1, reg_param2, kernel_func, kernel_r_func, kernel_r2_func, kernel_r3_func, kernel_args, kernel_r_args, verbose=False, max_cond=10000000000.0)

Estimates the impulse responses at the evaluation points using kernel ridge regression.

Uses a regularization defined by a linear operator, as well as the standard l2 norm.

Parameters:

• ir_mic (np.ndarray of shape (num_mics, ir_len)) – The impulse responses measure at the microphones.

• pos_mic (np.ndarray of shape (num_mics, 3)) – The position of the microphones.

• pos_eval (np.ndarray of shape (num_eval, 3)) – The position of the evaluation points.

• c (float) – The speed of sound.

• reg_param1 (float) – The regularization parameter, scaling factor for the regularization term defined by kernel_r_func

• reg_param2 (float) – The regularization parameter, scaling factor for the l2 norm regularization term

• kernel_func (function) – The kernel function defined by the function space and the regularization specifically (R* R) Gamma(r, r’) The function should have the signature kernel_func(pos1, pos2, wave_num, *args) and return a kernel matrix which is a np.ndarray of shape (num_points1, num_points2, num_real_freqs, num_real_freqs). See documentation in kernel.py for more information.

• kernel_args (list) – Additional arguments to the kernel function.

• verbose (bool) – If True, returns additional metadata and intermediate results.

Returns:

ir_eval – The estimated impulse responses at the evaluation points.

Return type:

np.ndarray of shape (num_eval, ir_len)