Awesome
<div align="center">PolyLaneNet
</div>Description
Code for the PolyLaneNet paper, accepted to ICPR 2020, by Lucas Tabelini, Thiago M. Paixão, Rodrigo F. Berriel, Claudine Badue, Alberto F. De Souza, and Thiago Oliveira-Santos.
News: The source code for our new state-of-the-art lane detection method, LaneATT, has been released. Check it out here.
Table of Contents
<a name="installation"/>Installation
The code requires Python 3, and has been tested on Python 3.5.2, but should work on newer versions of Python too.
Install dependencies:
pip install -r requirements.txt
<a name="usage"/>
Usage
Training
Every setting for a training is set through a YAML configuration file. Thus, in order to train a model you will have to setup the configuration file. An example is shown:
# Training settings
exps_dir: 'experiments' # Path to the root for the experiments directory (not only the one you will run)
iter_log_interval: 1 # Log training iteration every N iterations
iter_time_window: 100 # Moving average iterations window for the printed loss metric
model_save_interval: 1 # Save model every N epochs
seed: 0 # Seed for randomness
backup: drive:polylanenet-experiments # The experiment directory will be automatically uploaded using rclone after the training ends. Leave empty if you do not want this.
model:
name: PolyRegression
parameters:
num_outputs: 35 # (5 lanes) * (1 conf + 2 (upper & lower) + 4 poly coeffs)
pretrained: true
backbone: 'efficientnet-b0'
pred_category: false
loss_parameters:
conf_weight: 1
lower_weight: 1
upper_weight: 1
cls_weight: 0
poly_weight: 300
batch_size: 16
epochs: 2695
optimizer:
name: Adam
parameters:
lr: 3.0e-4
lr_scheduler:
name: CosineAnnealingLR
parameters:
T_max: 385
# Testing settings
test_parameters:
conf_threshold: 0.5 # Set predictions with confidence lower than this to 0 (i.e., set as invalid for the metrics)
# Dataset settings
datasets:
train:
type: PointsDataset
parameters:
dataset: tusimple
split: train
img_size: [360, 640]
normalize: true
aug_chance: 0.9090909090909091 # 10/11
augmentations: # ImgAug augmentations
- name: Affine
parameters:
rotate: !!python/tuple [-10, 10]
- name: HorizontalFlip
parameters:
p: 0.5
- name: CropToFixedSize
parameters:
width: 1152
height: 648
root: "datasets/tusimple" # Dataset root
test: &test
type: PointsDataset
parameters:
dataset: tusimple
split: val
img_size: [360, 640]
root: "datasets/tusimple"
normalize: true
augmentations: []
# val = test
val:
<<: *test
With the config file created, run the training script:
python train.py --exp_name tusimple --cfg config.yaml
This script's options are:
--exp_name Experiment name.
--cfg Config file for the training (.yaml)
--resume Resume training. If a training session was interrupted, run it again with the same arguments and this option to resume the training from the last checkpoint.
--validate Wheter to validate during the training session. Was not in our experiments, which means it has not been thoroughly tested.
--deterministic set cudnn.deterministic = True and cudnn.benchmark = False
Testing
After training, run the test.py
script to get the metrics:
python test.py --exp_name tusimple --cfg config.yaml --epoch 2695
This script's options are:
--exp_name Experiment name.
--cfg Config file for the test (.yaml). (probably the same one used in the training)
--epoch EPOCH Epoch to test the model on
--batch_size Number of images per batch
--view Show predictions. Will draw the predictions in an image and then show it (cv.imshow)
If you have any issues with either training or testing feel free to open an issue.
<a name="reproducing"/>Reproducing the paper results
Models
All models trained for the paper can be found here.
Datasets
How to
To reproduce the results, you can either retrain a model with the same settings (which should yield results pretty close to the reported ones) or just test the model.
If you want to retrain, you only need the appropriate YAML settings file, which you can find in the cfgs
directory.
If you just want to reproduce the exact reported metrics by testing the model, you'll have to:
- Download the experiment directory. You don't need to download all model checkpoints if you want, you'll only need the last one (
model_2695.pt
, with the exception of the experiments on ELAS and LLAMAS). - Modify all path related fields (i.e., dataset paths and
exps_dir
) in theconfig.yaml
file inside the experiment directory. - Move the downloaded experiment to your
exps_dir
folder.
Then, run:
python test.py --exp_name $exp_name --cfg $exps_dir/$exp_name/config.yaml --epoch 2695
Replacing $exp_name
with the name of the directory you downloaded (the name of the experiment) and $exps_dir
with the exps_dir
value you defined inside the config.yaml
file. The script will look for a directory named $exps_dir/$exp_name/models
to load the model.