示例#1
0
def main():
    dataset = TFDataset()
    train_data, train_count = dataset.generate_datatset()

    model = SSD()
    print_model_summary(model)

    if load_weights_from_epoch >= 0:
        model.load_weights(filepath=save_model_dir +
                           "epoch-{}".format(load_weights_from_epoch))
        print("成功从epoch-{}加载模型权重!".format(load_weights_from_epoch))

    loss_fn = MultiBoxLoss(num_classes=NUM_CLASSES,
                           overlap_thresh=0.5,
                           neg_pos=3)

    # optimizer
    lr_schedule = tf.keras.optimizers.schedules.ExponentialDecay(
        initial_learning_rate=1e-3, decay_steps=20000, decay_rate=0.96)
    optimizer = tf.optimizers.Adam(learning_rate=lr_schedule)

    loss_metric = tf.metrics.Mean()
    cls_loss_metric = tf.metrics.Mean()
    reg_loss_metric = tf.metrics.Mean()

    for epoch in range(load_weights_from_epoch + 1, EPOCHS):
        start_time = time.time()
        for step, batch_data in enumerate(train_data):
            images, labels = ReadDataset().read(batch_data)

            with tf.GradientTape() as tape:
                predictions = model(images, training=True)
                loss_l, loss_c = loss_fn(y_true=labels, y_pred=predictions)
                total_loss = loss_l + loss_c
            gradients = tape.gradient(total_loss, model.trainable_variables)
            optimizer.apply_gradients(
                grads_and_vars=zip(gradients, model.trainable_variables))
            loss_metric.update_state(values=total_loss)
            cls_loss_metric.update_state(values=loss_c)
            reg_loss_metric.update_state(values=loss_l)

            time_per_step = (time.time() - start_time) / (step + 1)
            print(
                "Epoch: {}/{}, step: {}/{}, speed: {:.2f}s/step, loss: {:.10f}, "
                "cls loss: {:.10f}, reg loss: {:.10f}".format(
                    epoch, EPOCHS, step,
                    tf.math.ceil(train_count / BATCH_SIZE), time_per_step,
                    loss_metric.result(), cls_loss_metric.result(),
                    reg_loss_metric.result()))
        loss_metric.reset_states()
        cls_loss_metric.reset_states()
        reg_loss_metric.reset_states()

        if epoch % save_frequency == 0:
            model.save_weights(filepath=save_model_dir +
                               "epoch-{}".format(epoch),
                               save_format="tf")

        if test_images_during_training:
            visualize_training_results(pictures=test_images_dir_list,
                                       model=model,
                                       epoch=epoch)

    model.save_weights(filepath=save_model_dir + "epoch-{}".format(EPOCHS),
                       save_format="tf")
示例#2
0
    print("train step start\n")
    for epoch in range(load_weights_from_epoch + 1, EPOCHS):
        start_time = time.time()
        for step, batch_data in enumerate(train_data):
            #print(tf.size(batch_data),"\n")
            images, labels = ReadDataset().read(batch_data)#images是一个[batch_size, 300,300,3],lable是[batch_size,20,5]的tensor
            #print(tf.shape(labels))
            train_step(batch_images=images, batch_labels=labels)
            time_per_step = (time.time() - start_time) / (step + 1)
            print("Epoch: {}/{}, step: {}/{}, {:.2f}s/step, loss: {:.5f}, "
                  "cls loss: {:.5f}, reg loss: {:.5f}".format(epoch,
                                                              EPOCHS,
                                                              step,
                                                              tf.math.ceil(train_count / BATCH_SIZE),
                                                              time_per_step,
                                                              loss_metric.result(),
                                                              cls_loss_metric.result(),
                                                              reg_loss_metric.result()))
        loss_metric.reset_states()
        cls_loss_metric.reset_states()
        reg_loss_metric.reset_states()

        if epoch % save_frequency == 0:
            ssd.save_weights(filepath=save_model_dir+"epoch-{}".format(epoch), save_format="tf")

        if test_images_during_training:
            visualize_training_results(pictures=test_images_dir_list, model=ssd, epoch=epoch)

    ssd.save_weights(filepath=save_model_dir+"saved_model", save_format="tf")
示例#3
0
    for epoch in range(load_weights_from_epoch + 1, EPOCHS):
        start_time = time.time()
        for step, batch_data in enumerate(train_data):
            images, labels, _ = ReadDataset().read(batch_data)
            train_step(batch_images=images, batch_labels=labels)
            time_per_step = (time.time() - start_time) / (step + 1)
            print("Epoch: {}/{}, step: {}/{}, {:.2f}s/step, loss: {:.5f}, "
                  "cls loss: {:.5f}, reg loss: {:.5f}".format(
                      epoch, EPOCHS, step,
                      tf.math.ceil(train_count / BATCH_SIZE), time_per_step,
                      loss_metric.result(), cls_loss_metric.result(),
                      reg_loss_metric.result()))
        loss_metric.reset_states()
        cls_loss_metric.reset_states()
        reg_loss_metric.reset_states()

        if epoch % save_frequency == 0:
            ssd.save_weights(filepath=save_model_dir +
                             "mobilenet_v2-epoch-{}".format(epoch),
                             save_format="h5")

        if test_images_during_training:
            visualize_training_results(pictures=test_images_dir_list,
                                       model=ssd,
                                       epoch=epoch)

    ssd.save_weights(filepath=save_model_dir +
                     "mobilenet_v2_new-epoch-{}.h5".format(epoch),
                     save_format="h5")
    print(save_model_dir + "mobilenet_v2_new-epoch-{}.h5".format(epoch))