Software for the analysis of birdsong and for neural models of the HVC
The computer programs below are listed according to the articles in which they appear.

1. Ross, Flores, Bertram, Johnson, Wu, Hyson "Experience-Dependent Intrinsic Plasticity During Auditory Learning", Journal of Neuroscience, 39:1206-1221, 2019. JNS_19


2. Galvis, Wu, Hyson, Johnson, Bertram "Interhemispheric Dominance Switching in a Neural Network Model for Birdsong", Journal of Neurophysiology, 120:1186-1197, 2018. JNP_18


3. Ross, Flores, Bertram, Johnson, Hyson "Neuronal Intrinsic Physiology Changes During Development of a Learned Behavior", eNeuro, 4(5):e0297-17.2017, 2017. eNeuro_17


4. Galvis, Wu, Hyson, Johnson, Bertram "A Distributed Neural Network Model for the Distinct Roles of Medial and Lateral HVC in Zebra Finch Song Production", Journal of Neurophysiology, 118:677-692, 2017. JNP_17


5. Daou, Ross, Johnson, Hyson, Bertram "Electrophysiological Characterization and Computational Models of HVC Neurons in the Zebra Finch", Journal of Neurophysiology, 110:1227-1245, 2013. JNP_13


6. Daou, Johnson, Wu, Bertram, "A Computational Tool for Automated Large-Scale Analysis and Measurement of Bird-Song Syntax, Journal of Neuroscience Methods, 210:147-160, 2012. JNM_12


7. Wu, Thompson, Bertram, Johnson, "A Statistical Method for Quantifying Songbird Phonology and Syntax", Journal of Neuroscience Methods, 174:147-154, 2008. JN-JNM_08