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# binoc.moo
#
mod_type binoc_filter # Binocular energy filter
sscale 0.1 # degr/pix
tscale 0.002 # sec/frame
xn 32 # filter x size
yn 32 # filter y size
tn 128 # filter t size
phase_shift 0 (deg) # Phase shift of right eye RF
phase_1 -45 (deg) # Phase of cosine for first left filter
phase_shift_opp 0 # Use negative RF phase shift for 2nd pathway
quad_shift_opp 0 # Use opposite (-90.0 deg) quadrature shift
binoc_nonlin halfsq # Type of nonlinearity
right_sign ++++ # Sign of right eye signal (Eqn 18 Read,Parker,Cumming 2002)
# Any 4-character combination of + and -, e.g., ++-- [++++]
simp_rect 1 # 1-rectify simple cells, 0-do not rectify [0]
simp_thresh 0.0 # Subtracted from all simple monoc responses
# before rect. (Fraction of mean filter area) [0.0]
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# Oriented linear filter
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type Gabor # type of filter
direction 0 (deg) # preferred direction
sf 0.8 (cyc/deg) # Spatial frequency
sd_orth 0.16
sd_par 0.4
tf 0.0 (cyc/s) # Temporal frequency
tsd 0.015 (s) # SD time
tilt_type none # ["none"] "rotate", "shift"
tilt_frac 0.0 # Amount of rotation, 0.0-none, 1.0-vel.
write_filter 0 # 0-none, 1,2,3,4 or 5=all
opponent no # ["yes"] "no"
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# Spike Generation
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type poisson # Spike generation algorithm, dflt "poisson"; "ifc"
offset0 0.0 # Add to filter output, BEFORE scaling (0.0)
scale 0.001 # Multiply filter output (1.0)
offset -0.02 # Add to filter output, AFTER scaling (0.0)
toffset 0.060 (s) # Time delay added to spike times
spike_dump 0 # Dump firing probability to 'zz.dump.pl' if 1