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dlr CHANGE: Add optional log(cosh(dice_loss))
Ref https://doi.org/10.1109/cibcb48159.2020.9277638
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3 changed files with 14 additions and 6 deletions
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@ -37,6 +37,7 @@ show_help() {
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echo -e " NO_REMOVE_ISOLATED_PIXELS Set to any value to avoid the engine from removing isolated pixels - that is, water pixels with no other surrounding pixels, either side to side to diagonally." >&2;
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echo -e " EPOCHS The number of epochs to train for." >&2;
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echo -e " LOSS The loss function to use. Default: cross-entropy (possible values: cross-entropy, cross-entropy-dice)." >&2;
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echo -e " DICE_LOG_COSH When in cross-entropy-dice mode, in addition do loss = cel + log(cosh(dice_loss)) instead of just loss = cel + dice_loss." >&2;
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echo -e " PATH_CHECKPOINT The path to a checkcpoint to load. If specified, a model will be loaded instead of being trained." >&2;
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echo -e " LEARNING_RATE The learning rate to use. Default: 0.001." >&2;
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echo -e " PREDICT_COUNT The number of items from the (SCRAMBLED) dataset to make a prediction for." >&2;
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@ -69,7 +70,7 @@ echo -e ">>> DIR_OUTPUT: ${DIR_OUTPUT}";
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echo -e ">>> Additional args: ${ARGS}";
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export PATH=$HOME/software/bin:$PATH;
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export IMAGE_SIZE BATCH_SIZE DIR_RAINFALLWATER PATH_HEIGHTMAP PATH_COLOURMAP STEPS_PER_EPOCH DIR_OUTPUT PATH_CHECKPOINT EPOCHS PREDICT_COUNT NO_REMOVE_ISOLATED_PIXELS LOSS LEARNING_RATE;
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export IMAGE_SIZE BATCH_SIZE DIR_RAINFALLWATER PATH_HEIGHTMAP PATH_COLOURMAP STEPS_PER_EPOCH DIR_OUTPUT PATH_CHECKPOINT EPOCHS PREDICT_COUNT NO_REMOVE_ISOLATED_PIXELS LOSS LEARNING_RATE DICE_LOG_COSH;
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echo ">>> Installing requirements";
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conda run -n py38 pip install -q -r requirements.txt;
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@ -47,6 +47,7 @@ STEPS_PER_EPOCH = int(os.environ["STEPS_PER_EPOCH"]) if "STEPS_PER_EPOCH" in os.
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REMOVE_ISOLATED_PIXELS = False if "NO_REMOVE_ISOLATED_PIXELS" in os.environ else True
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EPOCHS = int(os.environ["EPOCHS"]) if "EPOCHS" in os.environ else 50
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LOSS = os.environ["LOSS"] if "LOSS" in os.environ else "cross-entropy-dice"
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DICE_LOG_COSH = True if "DICE_LOG_COSH" in os.environ else False
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LEARNING_RATE = float(os.environ["LEARNING_RATE"]) if "LEARNING_RATE" in os.environ else 0.001
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DIR_OUTPUT=os.environ["DIR_OUTPUT"] if "DIR_OUTPUT" in os.environ else f"output/{datetime.utcnow().date().isoformat()}_deeplabv3plus_rainfall_TEST"
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@ -184,7 +185,7 @@ else:
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if PATH_CHECKPOINT is None:
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loss_fn = None
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if LOSS == "cross-entropy-dice":
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loss_fn = LossCrossEntropyDice()
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loss_fn = LossCrossEntropyDice(log_cosh=DICE_LOG_COSH)
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elif LOSS == "cross-entropy":
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loss_fn = tf.keras.losses.SparseCategoricalCrossentropy(from_logits=True)
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else:
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@ -16,7 +16,6 @@ def dice_loss(y_true, y_pred):
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y_pred = tf.math.sigmoid(y_pred)
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numerator = 2 * tf.reduce_sum(y_true * y_pred)
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denominator = tf.reduce_sum(y_true + y_pred)
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return 1 - numerator / denominator
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class LossCrossEntropyDice(tf.keras.losses.Loss):
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@ -24,20 +23,27 @@ class LossCrossEntropyDice(tf.keras.losses.Loss):
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Combines the two with mean.
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The ground truth labels should sparse, NOT one-hot. The predictions should be one-hot, NOT sparse.
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@source https://lars76.github.io/2018/09/27/loss-functions-for-segmentation.html#9
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log_cosh (bool): Whether to do log(cosh(dice_loss)) instead of just dice_loss on its own. Ref https://doi.org/10.1109/cibcb48159.2020.9277638
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"""
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def __init__(self, **kwargs):
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def __init__(self, log_cosh=True, **kwargs):
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super(LossCrossEntropyDice, self).__init__(**kwargs)
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self.param_log_cosh = log_cosh
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def call(self, y_true, y_pred):
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y_true = tf.cast(y_true, tf.float32)
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y_true = tf.one_hot(tf.cast(y_true, dtype=tf.int32), 2) # Input is sparse
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o = tf.nn.sigmoid_cross_entropy_with_logits(y_true, y_pred) + dice_loss(y_true, y_pred)
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cel = tf.nn.sigmoid_cross_entropy_with_logits(y_true, y_pred)
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dice = dice_loss(y_true, y_pred)
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o = cel + dice
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return tf.reduce_mean(o)
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def get_config(self):
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config = super(LossCrossEntropyDice, self).get_config()
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config.update({
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"log_cosh": self.param_log_cosh
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})
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return config
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