Instantiates the EfficientNetB1 architecture.
Source:R/applications.R
application_efficientnet_b1.Rd
Instantiates the EfficientNetB1 architecture.
Usage
application_efficientnet_b1(
include_top = TRUE,
weights = "imagenet",
input_tensor = NULL,
input_shape = NULL,
pooling = NULL,
classes = 1000L,
classifier_activation = "softmax",
name = "efficientnetb1",
...
)
Arguments
- include_top
Whether to include the fully-connected layer at the top of the network. Defaults to
TRUE
.- weights
One of
NULL
(random initialization),"imagenet"
(pre-training on ImageNet), or the path to the weights file to be loaded. Defaults to"imagenet"
.- input_tensor
Optional Keras tensor (i.e. output of
keras_input()
) to use as image input for the model.- input_shape
Optional shape tuple, only to be specified if
include_top
isFALSE
. It should have exactly 3 inputs channels.- pooling
Optional pooling mode for feature extraction when
include_top
isFALSE
. Defaults toNULL
.NULL
means that the output of the model will be the 4D tensor output of the last convolutional layer.avg
means that global average pooling will be applied to the output of the last convolutional layer, and thus the output of the model will be a 2D tensor.max
means that global max pooling will be applied.
- classes
Optional number of classes to classify images into, only to be specified if
include_top
is TRUE, and if noweights
argument is specified. 1000 is how many ImageNet classes there are. Defaults to1000
.- classifier_activation
A
str
or callable. The activation function to use on the "top" layer. Ignored unlessinclude_top=TRUE
. Setclassifier_activation=NULL
to return the logits of the "top" layer. Defaults to'softmax'
. When loading pretrained weights,classifier_activation
can only beNULL
or"softmax"
.- name
The name of the model (string).
- ...
For forward/backward compatability.
Reference
This function returns a Keras image classification model, optionally loaded with weights pre-trained on ImageNet.
For image classification use cases, see this page for detailed examples.
For transfer learning use cases, make sure to read the guide to transfer learning & fine-tuning.
Note
Each Keras Application expects a specific kind of input preprocessing.
For EfficientNet, input preprocessing is included as part of the model
(as a Rescaling
layer), and thus
application_preprocess_inputs()
is actually a
pass-through function. EfficientNet models expect their inputs to be float
tensors of pixels with values in the [0-255]
range.