open3d.ml.tf.pipelines.SemanticSegmentation¶
-
class
open3d.ml.tf.pipelines.
SemanticSegmentation
(model, dataset=None, name='SemanticSegmentation', batch_size=4, val_batch_size=4, test_batch_size=3, max_epoch=100, learning_rate=0.01, lr_decays=0.95, save_ckpt_freq=20, adam_lr=0.01, scheduler_gamma=0.95, momentum=0.98, main_log_dir='./logs/', device='gpu', split='train', train_sum_dir='train_log', **kwargs)¶ This class allows you to perform semantic segmentation for both training and inference using the TensorFlow framework. This pipeline has multiple stages: Pre-processing, loading dataset, testing, and inference or training.
- Example:
This example loads the Semantic Segmentation and performs a training using the SemanticKITTI dataset.
import tensorflow as tf
from .base_pipeline import BasePipeline
Mydataset = TFDataloader(dataset=tf.dataset.get_split(‘training’) MyModel = SemanticSegmentation(self,model,dataset=Mydataset, name=’SemanticSegmentation’, name=’SemanticSegmentation’, batch_size=4, val_batch_size=4, test_batch_size=3, max_epoch=100, learning_rate=1e-2, lr_decays=0.95, save_ckpt_freq=20, adam_lr=1e-2, scheduler_gamma=0.95, momentum=0.98, main_log_dir=’./logs/’, device=’gpu’, split=’train’, train_sum_dir=’train_log’)
- Args:
dataset: The 3D ML dataset class. You can use the base dataset, sample datasets , or a custom dataset. model: The model to be used for building the pipeline. name: The name of the current training. batch_size: The batch size to be used for training. val_batch_size: The batch size to be used for validation. test_batch_size: The batch size to be used for testing. max_epoch: The maximum size of the epoch to be used for training. leanring_rate: The hyperparameter that controls the weights during training. Also, known as step size. lr_decays: The learning rate decay for the training. save_ckpt_freq: The frequency in which the checkpoint should be saved. adam_lr: The leanring rate to be applied for Adam optimization. scheduler_gamma: The decaying factor associated with the scheduler. momentum: The momentum that accelerates the training rate schedule. main_log_dir: The directory where logs are stored. device: The device to be used for training. split: The dataset split to be used. In this example, we have used “train”. train_sum_dir: The directory where the trainig summary is stored.
- Returns:
class: The corresponding class.
-
__init__
(model, dataset=None, name='SemanticSegmentation', batch_size=4, val_batch_size=4, test_batch_size=3, max_epoch=100, learning_rate=0.01, lr_decays=0.95, save_ckpt_freq=20, adam_lr=0.01, scheduler_gamma=0.95, momentum=0.98, main_log_dir='./logs/', device='gpu', split='train', train_sum_dir='train_log', **kwargs)¶ Initialize
- Parameters
model – network
dataset – dataset, or None for inference model
devce – ‘gpu’ or ‘cpu’
kwargs –
- Returns
The corresponding class.
- Return type
class
-
load_ckpt
(ckpt_path=None, is_resume=True)¶
-
run_inference
(data)¶ Run inference on a given data.
- Parameters
data – A raw data.
- Returns
Returns the inference results.
-
run_test
()¶ Run testing on test sets.
-
run_train
()¶ Run training on train sets
-
save_ckpt
(epoch)¶
-
save_config
(writer)¶
-
save_logs
(writer, epoch)¶