This page is a walkthrough for training an object detector using the Tensorflow Object Detection API. In this tutorial, we'll be training on the Oxford-IIIT Pets dataset to build a system to detect various breeds of cats and dogs. The output of the detector will look like the following:
To accelerate the process, we'll run training and evaluation on Google Cloud ML Engine to leverage multiple GPUs. To begin, you will have to set up Google Cloud via the following steps (if you have already done this, feel free to skip to the next section):
- Create a GCP project.
- Install the Google Cloud SDK on your workstation or laptop. This will provide the tools you need to upload files to Google Cloud Storage and start ML training jobs.
- Enable the ML Engine APIs. By default, a new GCP project does not enable APIs to start ML Engine training jobs. Use the above link to explicitly enable them.
- Set up a Google Cloud Storage (GCS) bucket. ML Engine training jobs can only access files on a Google Cloud Storage bucket. In this tutorial, we'll be required to upload our dataset and configuration to GCS.
Please remember the name of your GCS bucket, as we will reference it multiple
times in this document. Substitute ${YOUR_GCS_BUCKET}
with the name of
your bucket in this document. For your convenience, you should define the
environment variable below:
export YOUR_GCS_BUCKET=${YOUR_GCS_BUCKET}
Please run through the installation instructions to install
Tensorflow and all it dependencies. Ensure the Protobuf libraries are
compiled and the library directories are added to PYTHONPATH
.
In order to train a detector, we require a dataset of images, bounding boxes and
classifications. For this demo, we'll use the Oxford-IIIT Pets dataset. The raw
dataset for Oxford-IIIT Pets lives
here. You will need to download
both the image dataset images.tar.gz
and the groundtruth data annotations.tar.gz
to the tensorflow/models directory. This may take some time. After downloading
the tarballs, your object_detection directory should appear as follows:
+ object_detection/
+ data/
- images.tar.gz
- annotations.tar.gz
- create_pet_tf_record.py
... other files and directories
The Tensorflow Object Detection API expects data to be in the TFRecord format, so we'll now run the create_pet_tf_record script to convert from the raw Oxford-IIIT Pet dataset into TFRecords. Run the following commands from the object_detection directory:
# From tensorflow/models/
wget http://www.robots.ox.ac.uk/~vgg/data/pets/data/images.tar.gz
wget http://www.robots.ox.ac.uk/~vgg/data/pets/data/annotations.tar.gz
tar -xvf annotations.tar.gz
tar -xvf images.tar.gz
python object_detection/create_pet_tf_record.py \
--label_map_path=object_detection/data/pet_label_map.pbtxt \
--data_dir=`pwd` \
--output_dir=`pwd`
Note: It is normal to see some warnings when running this script. You may ignore them.
Two TFRecord files named pet_train.record and pet_val.record should be generated in the object_detection/ directory.
Now that the data has been generated, we'll need to upload it to Google Cloud Storage so the data can be accessed by ML Engine. Run the following command to copy the files into your GCS bucket (substituting ${YOUR_GCS_BUCKET}):
# From tensorflow/models/
gsutil cp pet_train.record gs://${YOUR_GCS_BUCKET}/data/pet_train.record
gsutil cp pet_val.record gs://${YOUR_GCS_BUCKET}/data/pet_val.record
gsutil cp object_detection/data/pet_label_map.pbtxt gs://${YOUR_GCS_BUCKET}/data/pet_label_map.pbtxt
Please remember the path where you upload the data to, as we will need this information when configuring the pipeline in a following step.
Training a state of the art object detector from scratch can take days, even when using multiple GPUs! In order to speed up training, we'll take an object detector trained on a different dataset (COCO), and reuse some of it's parameters to initialize our new model.
Download our COCO-pretrained Faster R-CNN with Resnet-101 model. Unzip the contents of the folder and copy the model.ckpt* files into your GCS Bucket.
wget http://storage.googleapis.com/download.tensorflow.org/models/object_detection/faster_rcnn_resnet101_coco_11_06_2017.tar.gz
tar -xvf faster_rcnn_resnet101_coco_11_06_2017.tar.gz
gsutil cp faster_rcnn_resnet101_coco_11_06_2017/model.ckpt.* gs://${YOUR_GCS_BUCKET}/data/
Remember the path where you uploaded the model checkpoint to, as we will need it in the following step.
In the Tensorflow Object Detection API, the model parameters, training
parameters and eval parameters are all defined by a config file. More details
can be found here. For this tutorial, we will use some
predefined templates provided with the source code. In the
object_detection/samples/configs folder, there are skeleton object_detection
configuration files. We will use faster_rcnn_resnet101_pets.config
as a
starting point for configuring the pipeline. Open the file with your favourite
text editor.
We'll need to configure some paths in order for the template to work. Search the
file for instances of PATH_TO_BE_CONFIGURED
and replace them with the
appropriate value (typically "gs://${YOUR_GCS_BUCKET}/data/"). Afterwards
upload your edited file onto GCS, making note of the path it was uploaded to
(we'll need it when starting the training/eval jobs).
# From tensorflow/models/
# Edit the faster_rcnn_resnet101_pets.config template. Please note that there
# are multiple places where PATH_TO_BE_CONFIGURED needs to be set.
sed -i "s|PATH_TO_BE_CONFIGURED|"gs://${YOUR_GCS_BUCKET}"/data|g" \
object_detection/samples/configs/faster_rcnn_resnet101_pets.config
# Copy editted template to cloud.
gsutil cp object_detection/samples/configs/faster_rcnn_resnet101_pets.config \
gs://${YOUR_GCS_BUCKET}/data/faster_rcnn_resnet101_pets.config
At this point in the tutorial, you should have uploaded the training/validation datasets (including label map), our COCO trained FasterRCNN finetune checkpoint and your job configuration to your Google Cloud Storage Bucket. Your bucket should look like the following:
+ ${YOUR_GCS_BUCKET}/
+ data/
- faster_rcnn_resnet101_pets.config
- model.ckpt.index
- model.ckpt.meta
- model.ckpt.data-00000-of-00001
- pet_label_map.pbtxt
- pet_train.record
- pet_val.record
You can inspect your bucket using the Google Cloud Storage browser.
Before we can start a job on Google Cloud ML Engine, we must:
- Package the Tensorflow Object Detection code.
- Write a cluster configuration for our Google Cloud ML job.
To package the Tensorflow Object Detection code, run the following commands from the tensorflow/models/ directory:
# From tensorflow/models/
python setup.py sdist
(cd slim && python setup.py sdist)
You should see two tar.gz files created at dist/object_detection-0.1.tar.gz
and slim/dist/slim-0.1.tar.gz
.
For running the training Cloud ML job, we'll configure the cluster to use 10 training jobs (1 master + 9 workers) and three parameters servers. The configuration file can be found at object_detection/samples/cloud/cloud.yml.
To start training, execute the following command from the tensorflow/models/ directory:
# From tensorflow/models/
gcloud ml-engine jobs submit training `whoami`_object_detection_`date +%s` \
--job-dir=gs://${YOUR_GCS_BUCKET}/train \
--packages dist/object_detection-0.1.tar.gz,slim/dist/slim-0.1.tar.gz \
--module-name object_detection.train \
--region us-central1 \
--config object_detection/samples/cloud/cloud.yml \
-- \
--train_dir=gs://${YOUR_GCS_BUCKET}/train \
--pipeline_config_path=gs://${YOUR_GCS_BUCKET}/data/faster_rcnn_resnet101_pets.config
Once training has started, we can run an evaluation concurrently:
# From tensorflow/models/
gcloud ml-engine jobs submit training `whoami`_object_detection_eval_`date +%s` \
--job-dir=gs://${YOUR_GCS_BUCKET}/train \
--packages dist/object_detection-0.1.tar.gz,slim/dist/slim-0.1.tar.gz \
--module-name object_detection.eval \
--region us-central1 \
--scale-tier BASIC_GPU \
-- \
--checkpoint_dir=gs://${YOUR_GCS_BUCKET}/train \
--eval_dir=gs://${YOUR_GCS_BUCKET}/eval \
--pipeline_config_path=gs://${YOUR_GCS_BUCKET}/data/faster_rcnn_resnet101_pets.config
Note: Even though we're running an evaluation job, the gcloud ml-engine jobs submit training
command is correct. ML Engine does not distinguish between
training and evaluation jobs.
Users can monitor and stop training and evaluation jobs on the ML Engine Dasboard.
You can monitor progress of the training and eval jobs by running Tensorboard on your local machine:
# This command needs to be run once to allow your local machine to access your
# GCS bucket.
gcloud auth application-default login
tensorboard --logdir=gs://${YOUR_GCS_BUCKET}
Once Tensorboard is running, navigate to localhost:6006
from your favourite
web browser. You should something similar see the following:
You will also want to click on the images tab to see example detections made by the model while it trains. After about an hour and a half of training, you can expect to see something like this:
Note: It takes roughly 10 minutes for a job to get started on ML Engine, and roughly an hour for the system to evaluate the validation dataset. It may take some time to populate the dashboards. If you do not see any entries after half an hour, check the logs from the ML Engine Dasboard.
After your model has been trained, you should export it to a Tensorflow graph proto. First, you need to identify a candidate checkpoint to export. You can search your bucket using the Google Cloud Storage Browser. The file should be stored under ${YOUR_GCS_BUCKET}/train. The checkpoint will typically consist of three files:
- model.ckpt-${CHECKPOINT_NUMBER}.data-00000-of-00001,
- model.ckpt-${CHECKPOINT_NUMBER}.index
- model.ckpt-${CHECKPOINT_NUMBER}.meta
After you've identified a candidate checkpoint to export, run the following command from tensorflow/models/object_detection:
# From tensorflow/models
gsutil cp gs://${YOUR_GCS_BUCKET}/train/model.ckpt-${CHECKPOINT_NUMBER}.* .
python object_detection/export_inference_graph \
--input_type image_tensor \
--pipeline_config_path object_detection/samples/configs/faster_rcnn_resnet101_pets.config \
--checkpoint_path model.ckpt-${CHECKPOINT_NUMBER} \
--inference_graph_path output_inference_graph.pb
Afterwards, you should see a graph named output_inference_graph.pb.
Congratulations, you have now trained an object detector for various cats and dogs! There different things you can do now:
- Test your exported model using the provided Jupyter notebook.
- Experiment with different model configurations.
- Train an object detector using your own data.