def main():
# Gets currect directory path
cdir = os.getcwd()
# Parameters
epochs = 100
batch_size = 1
depth = 3
loss_label = 'GDL'
loss_func = generalized_dice_loss
learning_rate = 1e-4
df = pd.DataFrame(columns=['dataset', 'size', 'time elapsed during training',
'epochs', 'val_loss', 'test_loss', 'test_acc', 'test_precision', 'test_recall'])
datasets = ["ds0", "ds1", "ds2", "ds3"]
datasets_label = ["EvaLady", "AosugiruHaru",
"JijiBabaFight", "MariaSamaNihaNaisyo"]
for d, ds in enumerate(datasets):
# Gets all files .jpg
inputs_train = glob.glob(
str(cdir)+"/../../datasets/D1_"+ds+"/input/*.jpg")
# Gets all files .png
targets_train = glob.glob(
str(cdir)+"/../../datasets/D1_"+ds+"/target/*.png")
inputs_val = glob.glob(
str(cdir)+"/../../datasets/TT_"+ds+"/input/*.jpg")
# Gets all files .png
targets_val = glob.glob(
str(cdir)+"/../../datasets/TT_"+ds+"/target/*.png")
# Sort paths
inputs_train.sort()
targets_train.sort()
inputs_val.sort()
targets_val.sort()
opt = Adam(lr=learning_rate)
# Fixes a initial seed for randomness
np.random.seed(RANDOM_SEED)
set_random_seed(RANDOM_SEED)
X_train = []
Y_train = []
X_val = []
Y_val = []
# Iterates through files and extract the patches for training, validation and testing
for i, _ in enumerate(inputs_train):
x = plt.imread(inputs_train[i])
if len(x.shape) == 3:
x = x[:, :, 0]
X_train.append(fix_size(x, depth))
Y_train.append(fix_size(plt.imread(targets_train[i]), depth))
for i, _ in enumerate(inputs_val):
x = plt.imread(inputs_val[i])
if len(x.shape) == 3:
x = x[:, :, 0]
X_val.append(fix_size(x, depth))
Y_val.append(fix_size(plt.imread(targets_val[i]), depth))
X_train = img_to_normal(np.array(X_train)[..., np.newaxis])
Y_train = img_to_ohe(np.array(Y_train))
X_val = img_to_normal(np.array(X_val)[..., np.newaxis])
Y_val = img_to_ohe(np.array(Y_val))
# Shuffles both the inputs and targets set
indexes = list(range(0, len(inputs_val)))
np.random.shuffle(indexes)
X_val = X_val[indexes]
Y_val = Y_val[indexes]
X_val1 = X_val[:5]
Y_val1 = Y_val[:5]
X_val2 = X_val[5:10]
Y_val2 = Y_val[5:10]
fig, ax = plt.subplots(1, 1, figsize=(15, 10))
plt.subplots_adjust(hspace=0.4)
for s in range(1, 11):
mc = ModelCheckpoint(
"unet_{0}_{1}.hdf5".format(ds, s), monitor='val_loss', verbose=1, save_best_only=True, mode='min')
#es = EarlyStopping(monitor='val_loss', mode='min', verbose=1, patience=5)
# Initializes model
model = UNet(depth)
model.compile(loss=loss_func, optimizer=opt)
# Trains model
start = time.time()
history = model.fit(X_train[:s], Y_train[:s], validation_data=(
X_val1, Y_val1), epochs=epochs, batch_size=batch_size, verbose=2, callbacks=[mc])
end = time.time()
# Plots some performance graphs
loss = history.history['loss']
val_loss = history.history['val_loss']
np.save('history_{0}_{1}.npy'.format(ds, s), history.history)
epochs_range = list(range(0, len(loss)))
'''
Loss
'''
ax.plot(epochs_range[1:], val_loss[1:],
label='Validation loss with {0} examples'.format(s))
ax.xaxis.set_ticks(np.arange(0, 101, 10))
ax.yaxis.set_ticks(np.arange(0, 1, 0.1))
ax.set_xlabel('Epochs')
ax.set_ylabel('Loss')
ax.set_title('Learning curve - {0}'.format(datasets_label[d]))
ax.legend()
fig.savefig('learning_curve_{0}.png'.format(ds))
model = UNet(depth)
model.load_weights("unet_{0}_{1}.hdf5".format(ds, s))
Y_pred = model.predict(X_val2)
test_loss = loss_func(K.constant(
Y_val2), K.constant(Y_pred)).numpy()
Y_pred = ohe_to_img(Y_pred)
Y_val2 = ohe_to_img(Y_val2)
metrics = calc_metrics(Y_val2, Y_pred)
Y_val2 = img_to_ohe(Y_val2)
df2 = pd.DataFrame(data={'dataset': [datasets_label[d]], 'size': [s],
'time elapsed during training': [end-start], 'epochs': [len(loss)],
'val_loss': [np.amin(val_loss)],
'test_loss': [test_loss], 'test_acc': [metrics['accuracy']],
'test_precision': [metrics['precision']],
'test_recall': [metrics['recall']]})
df = df.append(df2)
df.to_csv('results.csv', index=False)
def main():
# Gets currect directory path
cdir = os.getcwd()
# Gets all files .jpg
inputs_train = glob.glob(
str(cdir) + "../../subconjuntos/D1_ds0/inputs/*.jpg")
# Gets all files .png
targets_train = glob.glob(
str(cdir) + "../../subconjuntos/D1_ds0/target/*.png")
inputs_val = glob.glob(str(cdir) + "../../subconjuntos/TT_ds0/input/*.jpg")
# Gets all files .png
targets_val = glob.glob(
str(cdir) + "../../subconjuntos/TT_ds0/target/*.png")
# Sort paths
inputs_train.sort()
targets_train.sort()
inputs_val.sort()
targets_val.sort()
# Parameters
epochs = 100
batch_size = 1
depths = [1, 2, 3, 4, 5]
loss_func = CategoricalCrossentropy()
learning_rate = 1e-4
opt = Adam(lr=learning_rate)
df = pd.DataFrame(columns=[
'depth', 'loss_func', 'time elapsed during training', 'epochs', 'loss',
'val_loss', 'test_loss', 'test acc', 'test precision', 'test_recall'
])
fig, ax = plt.subplots(2, 1, figsize=(15, 15))
for depth in depths:
opt = Adam(lr=learning_rate)
# Fixes a initial seed for randomness
np.random.seed(RANDOM_SEED)
set_random_seed(RANDOM_SEED)
X_train = []
Y_train = []
X_val = []
Y_val = []
# Iterates through files and extract the patches for training, validation and testing
for i, _ in enumerate(inputs_train):
x = plt.imread(inputs_train[i])
if len(x.shape) == 3:
x = x[:, :, 0]
X_train.append(fix_size(x, depth))
Y_train.append(fix_size(plt.imread(targets_train[i]), depth))
for i, _ in enumerate(inputs_val):
x = plt.imread(inputs_val[i])
if len(x.shape) == 3:
x = x[:, :, 0]
X_val.append(fix_size(x, depth))
Y_val.append(fix_size(plt.imread(targets_val[i]), depth))
X_train = img_to_normal(np.array(X_train)[..., np.newaxis])
Y_train = img_to_ohe(np.array(Y_train))
X_val = img_to_normal(np.array(X_val)[..., np.newaxis])
Y_val = img_to_ohe(np.array(Y_val))
# Shuffles both the inputs and targets set
indexes = list(range(0, len(inputs_val)))
np.random.shuffle(indexes)
X_val = X_val[indexes]
Y_val = Y_val[indexes]
X_val1 = X_val[:5]
Y_val1 = Y_val[:5]
X_val2 = X_val[5:10]
Y_val2 = Y_val[5:10]
mc = ModelCheckpoint("unet_{0}.hdf5".format(depth),
monitor='val_loss',
verbose=1,
save_best_only=True,
mode='min')
# Initializes model
model = UNet(depth)
model.compile(loss=loss_func, optimizer=opt)
# Trains models
start = time.time()
history = model.fit(X_train,
Y_train,
validation_data=(X_val1, Y_val1),
epochs=epochs,
batch_size=batch_size,
verbose=2,
callbacks=[mc])
end = time.time()
# Plots some performance graphs
loss = history.history['loss']
val_loss = history.history['val_loss']
np.save('history_{0}.npy'.format(depth), history.history)
clear_session()
epochs_range = list(range(0, len(loss)))
ax[0].plot(epochs_range[1:], loss[1:], label='Depth {0}'.format(depth))
ax[0].xaxis.set_ticks(np.arange(0, 101, 5))
ax[0].yaxis.set_ticks(np.arange(0, 1, 0.1))
ax[0].set_title('Training loss - UNet')
ax[0].set_xlabel('Epochs')
ax[0].set_ylabel('Loss')
ax[0].legend()
ax[1].plot(epochs_range[1:],
val_loss[1:],
label='Depth {0}'.format(depth))
ax[1].xaxis.set_ticks(np.arange(0, 101, 5))
ax[1].yaxis.set_ticks(np.arange(0, 1, 0.1))
ax[1].set_title('Validation loss - UNet')
ax[1].set_xlabel('Epochs')
ax[1].set_ylabel('Loss')
ax[1].legend()
fig.savefig('learning_curve.png')
model = UNet(depth)
model.load_weights("unet_{0}.hdf5".format(depth))
Y_pred = model.predict(X_val2)
Y_pred = ohe_to_img(Y_pred)
Y_val2 = ohe_to_img(Y_val2)
metrics = calc_metrics(Y_val2, Y_pred)
test_loss = loss_func(K.constant(Y_val2), K.constant(Y_pred)).numpy()
df2 = pd.DataFrame(
data={
'depth': [depth],
'loss_func': ["CE"],
'time elapsed during training': [end - start],
'epochs': [len(loss)],
'loss': [np.amin(loss)],
'val_loss': [np.amin(val_loss)],
'test_loss': [test_loss],
'test acc': [metrics['accuracy']],
'test precision': [metrics['precision']],
'test_recall': [metrics['recall']]
})
df = df.append(df2)
df.to_csv('results.csv', index=False)
tkImage = ImageTk.PhotoImage(image=img)
canvas3.configure(image=tkImage)
canvas3.image = tkImage
################ CHOOSE UNET MODEL FOR PREDICTIONS
model = UNet()
model.compile(optimizer='adam',
loss=['bce'],
metrics=[
'bce', 'accuracy',
tf.keras.metrics.Precision(),
tf.keras.metrics.Recall(),
F1Score()
])
model.load_weights('bce_e1500_b32model.ckpt')
##################################################
############### INITIATE THE GUI
window = tk.Tk()
window.title('ReDust')
window.geometry('450x300')
canvas1 = tk.Label(window)
canvas1.place(x=55, y=100)
canvas2 = tk.Label(window)
canvas2.place(x=175, y=100)
canvas3 = tk.Label(window)
canvas3.place(x=295, y=100)
app = App(master=window)
def main():
# Gets currect directory path
cdir = os.getcwd()
# Parameters
epochs = 100
batch_size = 1
depth = 3
loss_label = 'GDL'
loss_func = generalized_dice_loss
learning_rate = 1e-4
datasets = ["ds0", "ds1", "ds2", "ds3"]
datasets_label = [
"EvaLady", "AosugiruHaru", "JijiBabaFight", "MariaSamaNihaNaisyo"
]
df = pd.DataFrame(columns=[
'Trained on', 'Tested on', 'Loss', 'Accuracy', 'Precision', 'Recall'
])
for m, ml in enumerate(datasets):
model = UNet(depth)
model.load_weights("unet_{0}.hdf5".format(ml))
for d, ds in enumerate(datasets):
if ds == m:
pass
# Gets all files .jpg
inputs_train = glob.glob(
str(cdir) + "/../../datasets/D1_" + ds + "/input/*.jpg")
# Gets all files .png
targets_train = glob.glob(
str(cdir) + "/../../datasets/D1_" + ds + "/target/*.png")
inputs_val = glob.glob(
str(cdir) + "/../../datasets/TT_" + ds + "/input/*.jpg")
# Gets all files .png
targets_val = glob.glob(
str(cdir) + "/../../datasets/TT_" + ds + "/target/*.png")
# Sort paths
inputs_train.sort()
targets_train.sort()
inputs_val.sort()
targets_val.sort()
opt = Adam(lr=learning_rate)
# Fixes a initial seed for randomness
np.random.seed(RANDOM_SEED)
set_random_seed(RANDOM_SEED)
X_train = []
Y_train = []
X_val = []
Y_val = []
# Iterates through files and extract the patches for training, validation and testing
for i, _ in enumerate(inputs_val):
x = plt.imread(inputs_val[i])
if len(x.shape) == 3:
x = x[:, :, 0]
X_val.append(fix_size(x, depth))
Y_val.append(fix_size(plt.imread(targets_val[i]), depth))
X_val = img_to_normal(np.array(X_val)[..., np.newaxis])
Y_val = img_to_ohe(np.array(Y_val))
# Shuffles both the inputs and targets set
indexes = list(range(0, len(inputs_val)))
np.random.shuffle(indexes)
X_val = X_val[indexes]
Y_val = Y_val[indexes]
inputs_val = np.array(inputs_val)[indexes]
X_val2 = X_val[5:]
Y_val2 = Y_val[5:]
Y_pred = model.predict(X_val2)
test_loss = loss_func(K.constant(Y_val2),
K.constant(Y_pred)).numpy()
Y_pred = ohe_to_img(Y_pred)
Y_val2 = ohe_to_img(Y_val2)
metrics = calc_metrics(Y_val2, Y_pred)
df = df.append(
pd.DataFrame(
data={
'Trained on': [datasets_label[m]],
'Tested on': [datasets_label[d]],
'Loss': [test_loss],
'Accuracy': [metrics['accuracy']],
'Precision': [metrics['precision']],
'Recall': [metrics['recall']]
}))
df.to_csv('results.csv', index=False)
clear_session()
