exp_laback2023('fig5') exp_laback2023('fig5','i_cond',X)
exp_laback2023('fig5') predicts the effect of various types of precursors on ILD-based perceived lateralization. It is based on AN model by Smalt et al. (2014), which is a binaural version of the AN model by Zilany et al. (2014), that involves ipsi- and contralateral cochlear compression control via efferent feedback.
exp_laback2023('fig5','i_cond',X); displays predictions for the specific condition, with X being:
1 : Condition 'noP'
2 : Condition 'Central'
3 : Condition 'Ipsi'
4 : Condition 'Contra'
To display Fig.5, which shows the predictions for all four models use :
exp_laback2023('fig5'); |
Note: The last row of the AMT's Fig. 5 shows results drastically different than those in Laback's Fig. 5. The results in other rows also are not fully compliant. This is a bug and the AMT Team is working on that (see Issue #247). The model status is thus "untrusted" for the moment.
B. Laback. Contextual lateralization based on interaural level differences is preshaped by the auditory periphery and predominantly immune against sequential segregation. Trends in Hearing, 27:23312165231171988, 2023. PMID: 37161352. [ DOI | arXiv | www: ]
C. J. Smalt, M. G. Heinz, and E. A. Strickland. Modeling the Time-Varying and Level-Dependent Effects of the Medial Olivocochlear Reflex in Auditory Nerve Responses. Journal of the Association for Research in Otolaryngology, 15(2):159--173, Apr. 2014. [ DOI | http ]
M. S. A. Zilany, I. C. Bruce, and L. H. Carney. Updated parameters and expanded simulation options for a model of the auditory periphery. The Journal of the Acoustical Society of America, 135(1):283--286, Jan. 2014. [ DOI ]