J'ai récemment commencé à travailler sur 100 coups de traitement d'image , donc quelques exemples d'implémentation. Cette fois, j'en ai ramassé du T1-10.
La formule de traitement est la suivante
val = \left\{
\begin{array}{ll}
32 & (0 \leq x < 64) \\
96 & (64 \leq x < 128) \\
96 & (128 \leq x < 192) \\
96 & (192 \leq x < 256) \\
\end{array}
\right.
python
def reduce(pix):
if 0 <= pix < 64:
return 32
elif 64 <= pix < 128:
return 96
elif 128 <= pix <192:
return 160
else:
return 224
def reduce_color(img):
return np.vectorize(reduce)(img)
Q7 Average Pooling
python
def average_pool(img, f=8):
height, width, channel = img.shape
n = int(width/f)
out = np.empty(shape=(n, n, channel))
print(out.shape)
for h in range(n):
for w in range(n):
for c in range(channel):
vert_start = h * f
vert_end = vert_start + f
horiz_start = w * f
horiz_end = horiz_start + f
val = np.sum(img[vert_start:vert_end, horiz_start:horiz_end, c]) / f**2
out[h, w, c] = val
return out.astype(np.int32)
Q8: Max Pooling
python
def max_pool(img, f=8):
height, width, channel = img.shape
n = int(width/f)
out = np.empty(shape=(n, n, channel))
print(out.shape)
for h in range(n):
for w in range(n):
for c in range(channel):
vert_start = h * f
vert_end = vert_start + f
horiz_start = w * f
horiz_end = horiz_start + f
val = np.max(img[vert_start:vert_end, horiz_start:horiz_end, c])
out[h, w, c] = val
return out.astype(np.int32)
J'ai pensé que c'était simple à faire, mais de façon inattendue, j'ai eu du mal à cause d'une erreur d'indice. .. .. L'implémentation du noyau était basée sur l'exemple de solution.
python
def gaussian_filter(img, size=3, sigma=1.3):
height, width, channel = img.shape
# padding
pad = size//2
img_pad = img.copy()
img_pad = np.pad(img_pad, [(pad, pad), (pad, pad), (0, 0)], 'constant', constant_values=(0,0))
# PREPARE KERNEL
K = np.zeros(shape=(size, size), dtype=np.float32)
for x in range(-pad, -pad+size):
for y in range(-pad, -pad+size):
K[y+pad, x+pad] = (1/((2 * np.pi * sigma * sigma)) * np.exp(-(x**2+y**2) / (2*(sigma**2))))
K /= K.sum()
tmp = img_pad.copy()
for h in range(height):
for w in range(width):
for c in range(channel):
tmp[h+pad, w+pad, c] = np.sum(K*img_pad[h:h+size, w:w+size, c])
tmp = tmp[pad:pad+height, pad:pad+width, :].astype(np.int32)
return tmp
python
def median_filter(img, size=3):
height, width, channel = img.shape
out = img.copy()
# padding
pad = size//2
out = img.copy()
out = np.pad(out, [(pad, pad), (pad, pad), (0, 0)], 'constant', constant_values=(0,0))
assert out.shape == (img.shape[0]+2*pad, img.shape[1]+2*pad, img.shape[2])
# Apply filter
tmp = out.copy()
for h in range(height):
for w in range(width):
for c in range(channel):
out[h+pad, w+pad, c] = np.median(tmp[h:h+size, w:w+size, c])
out = out[pad:H, pad:W, :].astype(np.uint8)
return out
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