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https://github.com/sbrl/research-rainfallradar
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dlr: Add support for stripping isolated water pixels
That is, water pixels that have no other water pixels immediately adjacent thereto (diagonals count).
This commit is contained in:
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ce1467461d
commit
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4 changed files with 28 additions and 6 deletions
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@ -32,6 +32,7 @@ show_help() {
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echo -e " PATH_COLOURMAP The path to the colourmap for predictive purposes." >&2;
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echo -e " PATH_COLOURMAP The path to the colourmap for predictive purposes." >&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 " 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 " STEPS_PER_EPOCH The number of steps to consider an epoch. Defaults to None, which means use the entire dataset." >&2;
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echo -e " STEPS_PER_EPOCH The number of steps to consider an epoch. Defaults to None, which means use the entire dataset." >&2;
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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 " EPOCHS The number of epochs to train for." >&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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echo -e " PREDICT_COUNT The number of items from the (SCRAMBLED) dataset to make a prediction for." >&2;
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echo -e " POSTFIX Postfix to append to the output dir (auto calculated)." >&2;
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echo -e " POSTFIX Postfix to append to the output dir (auto calculated)." >&2;
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@ -59,7 +60,7 @@ DIR_OUTPUT="output/$(date -u --rfc-3339=date)_${CODE}";
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echo -e ">>> Additional args: ${ARGS}";
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echo -e ">>> Additional args: ${ARGS}";
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export PATH=$HOME/software/bin:$PATH;
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export PATH=$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;
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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;
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echo ">>> Installing requirements";
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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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conda run -n py38 pip install -q -r requirements.txt;
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@ -25,6 +25,7 @@ DIR_RAINFALLWATER = os.environ["DIR_RAINFALLWATER"]
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PATH_HEIGHTMAP = os.environ["PATH_HEIGHTMAP"]
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PATH_HEIGHTMAP = os.environ["PATH_HEIGHTMAP"]
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PATH_COLOURMAP = os.environ["PATH_COLOURMAP"]
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PATH_COLOURMAP = os.environ["PATH_COLOURMAP"]
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STEPS_PER_EPOCH = int(os.environ["STEPS_PER_EPOCH"]) if "STEPS_PER_EPOCH" in os.environ else None
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STEPS_PER_EPOCH = int(os.environ["STEPS_PER_EPOCH"]) if "STEPS_PER_EPOCH" in os.environ else None
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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 25
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EPOCHS = int(os.environ["EPOCHS"]) if "EPOCHS" in os.environ else 25
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PREDICT_COUNT = int(os.environ["PREDICT_COUNT"]) if "PREDICT_COUNT" in os.environ else 4
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PREDICT_COUNT = int(os.environ["PREDICT_COUNT"]) if "PREDICT_COUNT" in os.environ else 4
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@ -42,6 +43,7 @@ logger.info(f"> DIR_RAINFALLWATER {DIR_RAINFALLWATER}")
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logger.info(f"> PATH_HEIGHTMAP {PATH_HEIGHTMAP}")
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logger.info(f"> PATH_HEIGHTMAP {PATH_HEIGHTMAP}")
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logger.info(f"> PATH_COLOURMAP {PATH_COLOURMAP}")
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logger.info(f"> PATH_COLOURMAP {PATH_COLOURMAP}")
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logger.info(f"> STEPS_PER_EPOCH {STEPS_PER_EPOCH}")
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logger.info(f"> STEPS_PER_EPOCH {STEPS_PER_EPOCH}")
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logger.info(f"> REMOVE_ISOLATED_PIXELS {REMOVE_ISOLATED_PIXELS} [NO_REMOVE_ISOLATED_PIXELS]")
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logger.info(f"> EPOCHS {EPOCHS}")
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logger.info(f"> EPOCHS {EPOCHS}")
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logger.info(f"> DIR_OUTPUT {DIR_OUTPUT}")
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logger.info(f"> DIR_OUTPUT {DIR_OUTPUT}")
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logger.info(f"> PATH_CHECKPOINT {PATH_CHECKPOINT}")
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logger.info(f"> PATH_CHECKPOINT {PATH_CHECKPOINT}")
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@ -56,6 +58,7 @@ dataset_train, dataset_validate = dataset_mono(
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output_size=IMAGE_SIZE,
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output_size=IMAGE_SIZE,
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input_size="same",
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input_size="same",
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filepath_heightmap=PATH_HEIGHTMAP,
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filepath_heightmap=PATH_HEIGHTMAP,
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remove_isolated_pixels=REMOVE_ISOLATED_PIXELS
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)
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)
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logger.info("Train Dataset:", dataset_train)
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logger.info("Train Dataset:", dataset_train)
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@ -9,13 +9,13 @@ import tensorflow as tf
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from lib.dataset.read_metadata import read_metadata
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from lib.dataset.read_metadata import read_metadata
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from ..io.readfile import readfile
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from ..io.readfile import readfile
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from .shuffle import shuffle
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from .parse_heightmap import parse_heightmap
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from .parse_heightmap import parse_heightmap
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from .primitives.shuffle import shuffle
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from .primitives.remove_isolated_pixels import remove_isolated_pixels
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# TO PARSE:
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# TO PARSE:
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def parse_item(metadata, output_size=100, input_size="same", water_threshold=0.1, water_bins=2, heightmap=None, rainfall_scale_up=1):
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def parse_item(metadata, output_size=100, input_size="same", water_threshold=0.1, water_bins=2, heightmap=None, rainfall_scale_up=1, remove_isolated_pixels=True):
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if input_size == "same":
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if input_size == "same":
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input_size = output_size # This is almost always the case with e.g. the DeepLabV3+ model
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input_size = output_size # This is almost always the case with e.g. the DeepLabV3+ model
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@ -91,11 +91,13 @@ def parse_item(metadata, output_size=100, input_size="same", water_threshold=0.1
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print("DEBUG:dataset BEFORE_SQUEEZE water", water.shape)
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print("DEBUG:dataset BEFORE_SQUEEZE water", water.shape)
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water = tf.squeeze(water)
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water = tf.squeeze(water)
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print("DEBUG:dataset AFTER_SQUEEZE water", water.shape)
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print("DEBUG:dataset AFTER_SQUEEZE water", water.shape)
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# LOSS cross entropy
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# ONE-HOT [LOSS cross entropy]
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# water = tf.cast(tf.math.greater_equal(water, water_threshold), dtype=tf.int32)
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# water = tf.cast(tf.math.greater_equal(water, water_threshold), dtype=tf.int32)
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# water = tf.one_hot(water, water_bins, axis=-1, dtype=tf.int32)
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# water = tf.one_hot(water, water_bins, axis=-1, dtype=tf.int32)
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# LOSS dice
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# SPARSE [LOSS dice]
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water = tf.cast(tf.math.greater_equal(water, water_threshold), dtype=tf.float32)
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water = tf.cast(tf.math.greater_equal(water, water_threshold), dtype=tf.float32)
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if remove_isolated_pixels:
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water = remove_isolated_pixels(water)
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print("DEBUG DATASET_OUT:rainfall shape", rainfall.shape)
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print("DEBUG DATASET_OUT:rainfall shape", rainfall.shape)
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print("DEBUG DATASET_OUT:water shape", water.shape)
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print("DEBUG DATASET_OUT:water shape", water.shape)
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16
aimodel/src/lib/dataset/primitives/remove_isolated_pixels.py
Normal file
16
aimodel/src/lib/dataset/primitives/remove_isolated_pixels.py
Normal file
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@ -0,0 +1,16 @@
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import tensorflow as tf
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def remove_isolated_pixels(binarised_water_labels):
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# we expect the data in the form [ height, width ], where each value is either 1 or 0 (i.e. BEFORE any one-hot)
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data = tf.expand_dims(tf.expand_dims(binarised_water_labels, axis=0), axis=-1)
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conv = tf.squeeze(tf.nn.conv2d(data, tf.ones([3,3,1,1]), 1, "SAME"))
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data_map_remove = tf.cast(tf.math.equal(tf.math.multiply(
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binarised_water_labels,
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conv
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), 1), tf.float32)
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return tf.math.subtract(binarised_water_labels, data_map_remove)
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