This package provides some convenience methods for using TensorFlow models created using keras-retinanet. Check out the docs. You can also check out the example app.
As an example, we'll convert the ResNet50 weights to TensorFlow.js format. You must have tensorflowjs installed.
First, save a fixed input size training model to a Keras h5 file with both the weights and architecture. You must supply a fixed input shape. In experimenting with different backbones, only a few functioned correctly with undefined input shapes when loaded with TensorFlowJS.
Importantly, we do not convert to a prediction model. Rather, we do the necessary box regression in TensorFlowJS. Including them made some backbones load incorrectly in TensorFlow.js.
import urllib.request
import keras
from keras_retinanet import models
urllib.request.urlretrieve(
"https://github.com/fizyr/keras-retinanet/releases/download/0.5.1/resnet50_coco_best_v2.1.0.h5",
"resnet50_coco_best_v2.1.0.h5"
)
model = models.backbone(
backbone_name='resnet50').retinanet(
num_classes=80,
inputs=keras.layers.Input((512, 512, 3)
)
)
model.load_weights('resnet50_coco_best_v2.1.0.h5')
model.save('resnet50_coco_best_v2.1.0_full.h5')Then, at the command line, execute the following.
tensorflowjs_converter \
--input_format=keras \
--output_format=tfjs_layers_model \
resnet50_coco_best_v2.1.0_full.h5 \
resnet50_coco_best_v2.1.0The code below loads the above model and does detection. We assume that you have a reference to an HTMLImage object in imageRef and a list of the COCO class label names in COCO_CLASSES. Note that you must supply the preprocessing mode. Check the preprocess_image method on your backbone to see whether your model uses tf or caffe preprocessing.
import { load } from 'retinanetjs'
const detector = await load(
'http://www.example.com/path/to/resnet50_coco_best_v2.1.0',
COCO_CLASSES, "caffe"
)
const detections = detector.detect(imageRef)The following features are not supported at this time:
(None, None, 3))Generated using TypeDoc