3
.gitignore
vendored
@ -149,4 +149,5 @@ cython_debug/
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# be found at https://github.com/github/gitignore/blob/main/Global/JetBrains.gitignore
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# be found at https://github.com/github/gitignore/blob/main/Global/JetBrains.gitignore
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# and can be added to the global gitignore or merged into this file. For a more nuclear
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# and can be added to the global gitignore or merged into this file. For a more nuclear
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# option (not recommended) you can uncomment the following to ignore the entire idea folder.
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# option (not recommended) you can uncomment the following to ignore the entire idea folder.
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.idea/
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.idea/
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/algorithms/neural_network/data/
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Before Width: | Height: | Size: 814 B |
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{}
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@ -1 +0,0 @@
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{}
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@ -1 +0,0 @@
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{}
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@ -10,23 +10,39 @@ from common.constants import DEVICE, BATCH_SIZE, NUM_EPOCHS, LEARNING_RATE, SETU
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class NeuralNetwork(pl.LightningModule):
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class NeuralNetwork(pl.LightningModule):
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def __init__(self, numChannels=3, batch_size=BATCH_SIZE, learning_rate=LEARNING_RATE, num_classes=4):
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def __init__(self, numChannels=3, batch_size=BATCH_SIZE, learning_rate=LEARNING_RATE, num_classes=4):
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super().__init__()
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super(NeuralNetwork, self).__init__()
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self.layer = nn.Sequential(
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self.conv1 = nn.Conv2d(numChannels, 24, (3, 3), padding=1)
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nn.Linear(36*36*3, 300),
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self.relu1 = nn.ReLU()
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nn.ReLU(),
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self.maxpool1 = nn.MaxPool2d((2, 2), stride=2)
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nn.Linear(300, 4),
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self.conv2 = nn.Conv2d(24, 48, (3, 3), padding=1)
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nn.LogSoftmax(dim=-1)
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self.relu2 = nn.ReLU()
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)
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self.fc1 = nn.Linear(48*18*18, 800)
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self.relu3 = nn.ReLU()
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self.fc2 = nn.Linear(800, 400)
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self.relu4 = nn.ReLU()
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self.fc3 = nn.Linear(400, 4)
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self.logSoftmax = nn.LogSoftmax(dim=1)
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self.batch_size = batch_size
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self.batch_size = batch_size
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self.learning_rate = learning_rate
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self.learning_rate = learning_rate
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def forward(self, x):
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def forward(self, x):
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x = self.conv1(x)
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x = self.relu1(x)
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x = self.maxpool1(x)
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x = self.conv2(x)
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x = self.relu2(x)
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x = x.reshape(x.shape[0], -1)
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x = x.reshape(x.shape[0], -1)
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x = self.layer(x)
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x = self.fc1(x)
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x = self.relu3(x)
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x = self.fc2(x)
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x = self.relu4(x)
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x = self.fc3(x)
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x = self.logSoftmax(x)
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return x
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return x
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def configure_optimizers(self):
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def configure_optimizers(self):
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optimizer = SGD(self.parameters(), lr=self.learning_rate)
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optimizer = Adam(self.parameters(), lr=self.learning_rate)
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return optimizer
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return optimizer
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def training_step(self, batch, batch_idx):
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def training_step(self, batch, batch_idx):
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@ -10,44 +10,8 @@ from torch.optim import Adam
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import matplotlib.pyplot as plt
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import matplotlib.pyplot as plt
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import pytorch_lightning as pl
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import pytorch_lightning as pl
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from pytorch_lightning.callbacks import EarlyStopping
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from pytorch_lightning.callbacks import EarlyStopping
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import torchvision.transforms.functional as F
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from PIL import Image
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def train(model):
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model = model.to(DEVICE)
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model.train()
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trainset = WaterSandTreeGrass('./data/train_csv_file.csv', transform=SETUP_PHOTOS)
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testset = WaterSandTreeGrass('./data/test_csv_file.csv', transform=SETUP_PHOTOS)
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train_loader = DataLoader(trainset, batch_size=BATCH_SIZE, shuffle=True)
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test_loader = DataLoader(testset, batch_size=BATCH_SIZE, shuffle=True)
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criterion = nn.CrossEntropyLoss()
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optimizer = Adam(model.parameters(), lr=LEARNING_RATE)
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for epoch in range(NUM_EPOCHS):
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for batch_idx, (data, targets) in enumerate(train_loader):
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data = data.to(device=DEVICE)
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targets = targets.to(device=DEVICE)
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scores = model(data)
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loss = criterion(scores, targets)
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optimizer.zero_grad()
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loss.backward()
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optimizer.step()
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if batch_idx % 4 == 0:
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print("epoch: %d loss: %.4f" % (epoch, loss.item()))
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print("FINISHED TRAINING!")
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torch.save(model.state_dict(), "./learnednetwork.pth")
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print("Checking accuracy for the train set.")
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check_accuracy(train_loader)
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print("Checking accuracy for the test set.")
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check_accuracy(test_loader)
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print("Checking accuracy for the tiles.")
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check_accuracy_tiles()
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def check_accuracy_tiles():
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def check_accuracy_tiles():
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@ -95,12 +59,13 @@ def check_accuracy_tiles():
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def what_is_it(img_path, show_img=False):
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def what_is_it(img_path, show_img=False):
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image = read_image(img_path, mode=ImageReadMode.RGB)
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image = Image.open(img_path).convert('RGB')
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if show_img:
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if show_img:
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plt.imshow(plt.imread(img_path))
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plt.imshow(image)
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plt.show()
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plt.show()
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image = SETUP_PHOTOS(image).unsqueeze(0)
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image = SETUP_PHOTOS(image).unsqueeze(0)
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model = NeuralNetwork.load_from_checkpoint('./lightning_logs/version_3/checkpoints/epoch=8-step=810.ckpt')
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model = NeuralNetwork.load_from_checkpoint('./lightning_logs/version_20/checkpoints/epoch=3-step=324.ckpt')
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with torch.no_grad():
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with torch.no_grad():
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model.eval()
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model.eval()
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@ -108,18 +73,53 @@ def what_is_it(img_path, show_img=False):
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return ID_TO_CLASS[idx]
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return ID_TO_CLASS[idx]
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CNN = NeuralNetwork()
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def check_accuracy(tset):
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model = NeuralNetwork.load_from_checkpoint('./lightning_logs/version_23/checkpoints/epoch=3-step=324.ckpt')
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num_correct = 0
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num_samples = 0
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model = model.to(DEVICE)
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model.eval()
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with torch.no_grad():
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for photo, label in tset:
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photo = photo.to(DEVICE)
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label = label.to(DEVICE)
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scores = model(photo)
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predictions = scores.argmax(dim=1)
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num_correct += (predictions == label).sum()
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num_samples += predictions.size(0)
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print(f'Got {num_correct} / {num_samples} with accuracy {float(num_correct)/float(num_samples)*100:.2f}%')
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trainer = pl.Trainer(accelerator='gpu', devices=1, auto_scale_batch_size=True, callbacks=[EarlyStopping('val_loss')], max_epochs=NUM_EPOCHS)
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def check_accuracy_data():
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trainset = WaterSandTreeGrass('./data/train_csv_file.csv', transform=SETUP_PHOTOS)
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testset = WaterSandTreeGrass('./data/test_csv_file.csv', transform=SETUP_PHOTOS)
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train_loader = DataLoader(trainset, batch_size=BATCH_SIZE, shuffle=True)
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test_loader = DataLoader(testset, batch_size=BATCH_SIZE)
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print("Accuracy of train_set:")
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check_accuracy(train_loader)
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print("Accuracy of test_set:")
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check_accuracy(test_loader)
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#CNN = NeuralNetwork()
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#common.helpers.createCSV()
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#trainer = pl.Trainer(accelerator='gpu', callbacks=EarlyStopping('val_loss'), devices=1, max_epochs=NUM_EPOCHS)
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#trainer = pl.Trainer(accelerator='gpu', devices=1, auto_lr_find=True, max_epochs=NUM_EPOCHS)
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#trainer = pl.Trainer(accelerator='gpu', devices=1, auto_lr_find=True, max_epochs=NUM_EPOCHS)
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trainset = WaterSandTreeGrass('./data/train_csv_file.csv', transform=SETUP_PHOTOS)
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#trainset = WaterSandTreeGrass('./data/train_csv_file.csv', transform=SETUP_PHOTOS)
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testset = WaterSandTreeGrass('./data/test_csv_file.csv', transform=SETUP_PHOTOS)
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#testset = WaterSandTreeGrass('./data/test_csv_file.csv', transform=SETUP_PHOTOS)
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train_loader = DataLoader(trainset, batch_size=BATCH_SIZE, shuffle=True)
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#train_loader = DataLoader(trainset, batch_size=BATCH_SIZE, shuffle=True)
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test_loader = DataLoader(testset, batch_size=BATCH_SIZE)
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#test_loader = DataLoader(testset, batch_size=BATCH_SIZE)
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#trainer.fit(CNN, train_loader, test_loader)
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#trainer.fit(CNN, train_loader, test_loader)
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#trainer.tune(CNN, train_loader, test_loader)
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#trainer.tune(CNN, train_loader, test_loader)
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check_accuracy_tiles()
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print(what_is_it('../../resources/textures/sand.png', True))
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|
#print(what_is_it('../../resources/textures/grass2.png', True))
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|
#check_accuracy_data()
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|
#check_accuracy_tiles()
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|
@ -3,6 +3,7 @@ from torch.utils.data import Dataset
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import pandas as pd
|
import pandas as pd
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from torchvision.io import read_image, ImageReadMode
|
from torchvision.io import read_image, ImageReadMode
|
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from common.helpers import createCSV
|
from common.helpers import createCSV
|
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|
from PIL import Image
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|
|
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|
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class WaterSandTreeGrass(Dataset):
|
class WaterSandTreeGrass(Dataset):
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@ -15,7 +16,8 @@ class WaterSandTreeGrass(Dataset):
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return len(self.img_labels)
|
return len(self.img_labels)
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|
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def __getitem__(self, idx):
|
def __getitem__(self, idx):
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image = read_image(self.img_labels.iloc[idx, 0], mode=ImageReadMode.RGB)
|
image = Image.open(self.img_labels.iloc[idx, 0]).convert('RGB')
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|
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label = torch.tensor(int(self.img_labels.iloc[idx, 1]))
|
label = torch.tensor(int(self.img_labels.iloc[idx, 1]))
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|
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if self.transform:
|
if self.transform:
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|
@ -77,19 +77,17 @@ BAR_HEIGHT_MULTIPLIER = 0.1
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|
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|
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#NEURAL_NETWORK
|
#NEURAL_NETWORK
|
||||||
LEARNING_RATE = 0.13182567385564073
|
LEARNING_RATE = 0.000630957344480193
|
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BATCH_SIZE = 64
|
BATCH_SIZE = 64
|
||||||
NUM_EPOCHS = 50
|
NUM_EPOCHS = 9
|
||||||
|
|
||||||
DEVICE = torch.device('cuda') if torch.cuda.is_available() else torch.device('cpu')
|
DEVICE = torch.device('cuda') if torch.cuda.is_available() else torch.device('cpu')
|
||||||
print("Using ", DEVICE)
|
print("Using ", DEVICE)
|
||||||
CLASSES = ['grass', 'sand', 'tree', 'water']
|
CLASSES = ['grass', 'sand', 'tree', 'water']
|
||||||
|
|
||||||
SETUP_PHOTOS = transforms.Compose([
|
SETUP_PHOTOS = transforms.Compose([
|
||||||
transforms.Resize(36),
|
|
||||||
transforms.CenterCrop(36),
|
|
||||||
transforms.ToPILImage(),
|
|
||||||
transforms.ToTensor(),
|
transforms.ToTensor(),
|
||||||
|
transforms.Resize((36, 36)),
|
||||||
transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])
|
transforms.Normalize([0.5, 0.5, 0.5], [0.5, 0.5, 0.5])
|
||||||
])
|
])
|
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|
|
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|