Custom Training with YOLOv7 π₯
Some Important links
- Model Inferenceπ€
- πTraining Yolov7 on Kaggle
- Weight and Biases π
- HuggingFace π€ Model Repo
Contact Information
- Name - Owais Ahmad
- Phone - +91-9515884381
- Email - [email protected]
- Portfolio - https://owaiskhan9654.github.io/
Objective
To Showcase custom Object Detection on the Given Dataset to train and Infer the Model using newly launched YoloV7.
Data Acquisition
The goal of this task is to train a model that can localize and classify each instance of Person and Car as accurately as possible.
from IPython.display import Markdown, display
display(Markdown("../input/Car-Person-v2-Roboflow/README.roboflow.txt"))
Custom Training with YOLOv7 π₯
In this Notebook, I have processed the images with RoboFlow because in COCO formatted dataset was having different dimensions of image and Also data set was not splitted into different Format. To train a custom YOLOv7 model we need to recognize the objects in the dataset. To do so I have taken the following steps:
- Export the dataset to YOLOv7
- Train YOLOv7 to recognize the objects in our dataset
- Evaluate our YOLOv7 model's performance
- Run test inference to view performance of YOLOv7 model at work
π¦ YOLOv7
Image Credit - WongKinYiu
!git clone https://github.com/WongKinYiu/yolov7 # Downloading YOLOv7 repository and installing requirements
%cd yolov7
!pip install -qr requirements.txt
!pip install -q roboflow
Downloading YOLOV7 starting checkpoint
!wget "https://github.com/WongKinYiu/yolov7/releases/download/v0.1/yolov7.pt"
import os
import glob
import wandb
import torch
from roboflow import Roboflow
from kaggle_secrets import UserSecretsClient
from IPython.display import Image, clear_output, display # to display images
print(f"Setup complete. Using torch {torch.__version__} ({torch.cuda.get_device_properties(0).name if torch.cuda.is_available() else 'CPU'})")
I will be integrating W&B for visualizations and logging artifacts and comparisons of different models!
try:
user_secrets = UserSecretsClient()
wandb_api_key = user_secrets.get_secret("wandb_api")
wandb.login(key=wandb_api_key)
anonymous = None
except:
wandb.login(anonymous='must')
print('To use your W&B account,\nGo to Add-ons -> Secrets and provide your W&B access token. Use the Label name as WANDB. \nGet your W&B access token from here: https://wandb.ai/authorize')
wandb.init(project="YOLOv7",name=f"7. YOLOv7-Car-Person-Custom-Run-7")
Step 2: Assemble Our Dataset
In order to train our custom model, we need to assemble a dataset of representative images with bounding box annotations around the objects that we want to detect. And we need our dataset to be in YOLOv7 format.
In Roboflow, We can choose between two paths:
- Convert an existing Coco dataset to YOLOv7 format. In Roboflow it supports over 30 formats object detection formats for conversion.
- Uploading only these raw images and annotate them in Roboflow with Roboflow Annotate.
Version v7 Jan 30, 2023 Looks like this.
Since paid credits are required to train the model on RoboFlow I have used Kaggle Free resources to train it here
Note you can import any other data from other sources. Just remember to keep in the Yolov7 Pytorch form accept
user_secrets = UserSecretsClient()
roboflow_api_key = user_secrets.get_secret("roboflow_api")
rf = Roboflow(api_key=roboflow_api_key)
project = rf.workspace("owais-ahmad").project("custom-yolov7-on-kaggle-on-custom-dataset-rakiq")
dataset = project.version(2).download("yolov7")
Step 3: Training Custom pretrained YOLOv7 model
Here, I am able to pass a number of arguments:
- img: define input image size
- batch: determine batch size
- epochs: define the number of training epochs. (Note: often, 3000+ are common here nut since I am using free version of colab I will be only defining it to 20!)
- data: Our dataset locaiton is saved in the
./yolov7/Custom-Yolov7-on-Kaggle-on-Custom-Dataset-2
folder. - weights: specifying a path to weights to start transfer learning from. Here I have choosen a generic COCO pretrained checkpoint.
- cache: caching images for faster training
!python train.py --batch 16 --cfg cfg/training/yolov7.yaml --epochs 30 --data {dataset.location}/data.yaml --weights 'yolov7.pt' --device 0
Run Inference With Trained Weights
Testing inference with a pretrained checkpoint on contents of ./Custom-Yolov7-on-Kaggle-on-Custom-Dataset-2/test/images
folder downloaded from Roboflow.
!python detect.py --weights runs/train/exp/weights/best.pt --img 416 --conf 0.75 --source ./Custom-Yolov7-on-Kaggle-on-Custom-Dataset-2/test/images
Display inference on ALL test images
for images in glob.glob('runs/detect/exp/*.jpg')[0:10]:
display(Image(filename=images))
model = torch.load('runs/train/exp/weights/best.pt')
Conclusion and Next Steps
Now this trained custom YOLOv7 model can be used to recognize Person and Cars form any given Images.
To improve the model's performance, I might perform more interating on the datasets coverage,propper annotations and and Image quality. From orignal authors of Yolov7 this guide has been given for model performance improvement.
To deploy our model to an application by exporting your model to deployment destinations.
Once our model is in production, I will be willing to continually iterate and improve on your dataset and model via active learning.