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Taddeüs Kroes
uva
Commits
4b7f8708
Commit
4b7f8708
authored
Oct 21, 2011
by
Taddeüs Kroes
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improc ass4: Used linear independency of Gauss function in gD.
parent
86da37b2
Changes
2
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Showing
2 changed files
with
29 additions
and
32 deletions
+29
-32
improc/ass4/canny.py
improc/ass4/canny.py
+2
-2
improc/ass4/gauss.py
improc/ass4/gauss.py
+27
-30
No files found.
improc/ass4/canny.py
View file @
4b7f8708
...
@@ -19,10 +19,10 @@ def canny(F, s, Tl=None, Th=None):
...
@@ -19,10 +19,10 @@ def canny(F, s, Tl=None, Th=None):
image F. Optionally specify a low and high threshold (Tl and Th) for
image F. Optionally specify a low and high threshold (Tl and Th) for
hysteresis thresholding."""
hysteresis thresholding."""
# Noise reduction by a Gaussian filter
# Noise reduction by a Gaussian filter
F
=
gD
(
F
,
s
,
0
,
0
)
[
1
]
F
=
gD
(
F
,
s
,
0
,
0
)
# Find intensity gradient
# Find intensity gradient
mask
=
Gauss1
(
1
,
1
)
mask
=
Gauss1
(
1
.4
,
1
)
Gx
=
convolve1d
(
F
,
mask
,
axis
=
1
,
mode
=
'nearest'
)
Gx
=
convolve1d
(
F
,
mask
,
axis
=
1
,
mode
=
'nearest'
)
Gy
=
convolve1d
(
F
,
mask
,
axis
=
0
,
mode
=
'nearest'
)
Gy
=
convolve1d
(
F
,
mask
,
axis
=
0
,
mode
=
'nearest'
)
G
=
zeros
(
F
.
shape
)
G
=
zeros
(
F
.
shape
)
...
...
improc/ass4/gauss.py
View file @
4b7f8708
#!/usr/bin/env python
#!/usr/bin/env python
from
numpy
import
zeros
,
arange
,
pi
,
e
,
ceil
,
meshgrid
,
array
from
numpy
import
zeros
,
arange
,
pi
,
e
,
ceil
,
meshgrid
,
array
,
dot
from
matplotlib.pyplot
import
imread
,
imshow
,
plot
,
xlabel
,
ylabel
,
show
,
\
from
matplotlib.pyplot
import
imread
,
imshow
,
plot
,
xlabel
,
ylabel
,
show
,
\
subplot
,
xlim
,
savefig
subplot
,
xlim
,
savefig
from
mpl_toolkits.mplot3d
import
Axes3D
from
mpl_toolkits.mplot3d
import
Axes3D
...
@@ -29,32 +29,35 @@ def Gauss(s):
...
@@ -29,32 +29,35 @@ def Gauss(s):
# Make sure that the sum of all kernel values is equal to one
# Make sure that the sum of all kernel values is equal to one
return
W
/
W
.
sum
()
return
W
/
W
.
sum
()
def
gauss
(
x
,
s
):
def
f_
gauss
(
x
,
s
):
return
e
**
-
(
x
**
2
/
(
2
*
s
**
2
))
/
(
2
*
pi
*
s
**
2
)
return
e
**
-
(
x
**
2
/
(
2
*
s
**
2
))
/
(
2
*
pi
*
s
**
2
)
def
gauss_der_1
(
x
,
s
):
def
f_
gauss_der_1
(
x
,
s
):
return
-
x
*
e
**
-
(
x
**
2
/
(
2
*
s
**
2
))
/
(
2
*
pi
*
s
**
4
)
return
-
x
*
e
**
-
(
x
**
2
/
(
2
*
s
**
2
))
/
(
2
*
pi
*
s
**
4
)
def
gauss_der_2
(
x
,
s
):
def
f_
gauss_der_2
(
x
,
s
):
return
(
x
**
2
-
s
**
2
)
*
e
**
-
(
x
**
2
/
(
2
*
s
**
2
))
\
return
(
x
**
2
-
s
**
2
)
*
e
**
-
(
x
**
2
/
(
2
*
s
**
2
))
\
/
(
2
*
pi
*
s
**
6
)
/
(
2
*
pi
*
s
**
6
)
def
Gauss1
(
s
,
order
=
0
):
def
Gauss1
(
s
,
order
=
0
):
"""Sample a one-dimensional Gaussian function of scale s."""
"""Sample a one-dimensional Gaussian function of scale s."""
f
=
[
gauss
,
gauss_der_1
,
gauss_der_2
][
order
]
f
=
[
f_gauss
,
f_gauss_der_1
,
f_
gauss_der_2
][
order
]
s
=
float
(
s
)
s
=
float
(
s
)
size
=
int
(
ceil
(
3
*
s
))
r
=
int
(
ceil
(
3
*
s
))
r
=
2
*
size
+
1
size
=
2
*
r
+
1
W
=
zeros
(
r
)
W
=
zeros
(
size
)
#t = float(s) ** 2
#t = float(s) ** 2
#a = 1 / (2 * pi * t)
#a = 1 / (2 * pi * t)
# Sample the Gaussian function
# Sample the Gaussian function
#W = array([a * e ** -((x - size) ** 2 / (2 * t)) for x in xrange(r)])
#W = array([a * e ** -((x - size) ** 2 / (2 * t)) for x in xrange(r)])
W
=
array
([
f
(
x
-
size
,
s
)
for
x
in
xrange
(
r
)])
W
=
array
([
f
(
x
-
r
,
s
)
for
x
in
xrange
(
size
)])
# Make sure that the sum of all kernel values is equal to one
# Make sure that the sum of all kernel values is equal to one
return
W
/
W
.
sum
()
if
not
order
:
W
/=
W
.
sum
()
return
W
def
plot_mask
(
W
,
ax
):
def
plot_mask
(
W
,
ax
):
""""""
""""""
...
@@ -64,30 +67,17 @@ def plot_mask(W, ax):
...
@@ -64,30 +67,17 @@ def plot_mask(W, ax):
#ax.plot_surface(X, Y, W, rstride=stride, cstride=stride, cmap='jet')
#ax.plot_surface(X, Y, W, rstride=stride, cstride=stride, cmap='jet')
ax
.
plot_surface
(
X
,
Y
,
W
,
rstride
=
1
,
cstride
=
1
,
linewidth
=
0
,
\
ax
.
plot_surface
(
X
,
Y
,
W
,
rstride
=
1
,
cstride
=
1
,
linewidth
=
0
,
\
antialiased
=
True
,
cmap
=
'jet'
)
antialiased
=
True
,
cmap
=
'jet'
)
ax
.
set_xlabel
(
'
x
'
)
ax
.
set_xlabel
(
'
y
'
)
ax
.
set_ylabel
(
'
y
'
)
ax
.
set_ylabel
(
'
x
'
)
ax
.
set_zlabel
(
'g(x, y)'
)
ax
.
set_zlabel
(
'g(x, y)'
)
def
gD
(
F
,
s
,
iorder
,
jorder
):
def
gD
(
F
,
s
,
iorder
,
jorder
):
"""Create the Gaussian derivative convolution of image F."""
"""Create the Gaussian derivative convolution of image F."""
funcs
=
[
gauss
,
gauss_der_1
,
gauss_der_2
]
Fy
=
Gauss1
(
s
,
iorder
)
#funcs = [lambda x: e ** -(x ** 2 / (2 * s ** 2)) / (2 * pi * s ** 2), \
Fx
=
Fy
if
jorder
==
iorder
else
Gauss1
(
s
,
jorder
)
# lambda x: -x * e ** -(x ** 2 / (2 * s ** 2)) \
W
=
dot
(
array
([
Fy
]).
T
,
array
([
Fx
]))
# / (2 * pi * s ** 4), \
# lambda x: (x ** 2 - s ** 2) * e ** -(x ** 2 / (2 * s ** 2)) \
# / (2 * pi * s ** 6)]
size
=
int
(
ceil
(
3
*
s
))
r
=
2
*
size
+
1
iterator
=
map
(
float
,
range
(
r
))
W
=
zeros
((
r
,
r
))
Fx
=
funcs
[
iorder
]
Fy
=
funcs
[
jorder
]
for
x
in
iterator
:
for
y
in
iterator
:
W
[
x
,
y
]
=
Fx
(
x
-
size
,
s
)
*
Fy
(
y
-
size
,
s
)
return
W
,
convolve
(
F
,
W
,
mode
=
'nearest'
)
return
convolve
(
F
,
W
,
mode
=
'nearest'
)
if
__name__
==
'__main__'
:
if
__name__
==
'__main__'
:
if
len
(
argv
)
<
2
:
if
len
(
argv
)
<
2
:
...
@@ -100,7 +90,14 @@ if __name__ == '__main__':
...
@@ -100,7 +90,14 @@ if __name__ == '__main__':
exit_with_usage
()
exit_with_usage
()
s
=
float
(
argv
[
2
])
s
=
float
(
argv
[
2
])
W
,
G
=
gD
(
F
,
s
,
int
(
argv
[
3
]),
int
(
argv
[
4
]))
iorder
=
int
(
argv
[
3
])
jorder
=
int
(
argv
[
4
])
Fy
=
Gauss1
(
s
,
iorder
)
Fx
=
Fy
if
jorder
==
iorder
else
Gauss1
(
s
,
jorder
)
W
=
dot
(
array
([
Fy
]).
T
,
array
([
Fx
]))
G
=
gD
(
F
,
s
,
iorder
,
jorder
)
subplot
(
131
)
subplot
(
131
)
imshow
(
F
,
cmap
=
'gray'
)
imshow
(
F
,
cmap
=
'gray'
)
plot_mask
(
W
,
subplot
(
132
,
projection
=
'3d'
))
plot_mask
(
W
,
subplot
(
132
,
projection
=
'3d'
))
...
...
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