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true Discover Meituan YOLOv6, a robust real-time object detector. Learn how to utilize pre-trained models with Ultralytics Python API for a variety of tasks. Meituan, YOLOv6, object detection, Bi-directional Concatenation (BiC), anchor-aided training (AAT), pre-trained models, high-resolution input, real-time, ultra-fast computations

Meituan YOLOv6

Overview

Meituan YOLOv6 is a cutting-edge object detector that offers remarkable balance between speed and accuracy, making it a popular choice for real-time applications. This model introduces several notable enhancements on its architecture and training scheme, including the implementation of a Bi-directional Concatenation (BiC) module, an anchor-aided training (AAT) strategy, and an improved backbone and neck design for state-of-the-art accuracy on the COCO dataset.

Meituan YOLOv6 Model example image Overview of YOLOv6. Model architecture diagram showing the redesigned network components and training strategies that have led to significant performance improvements. (a) The neck of YOLOv6 (N and S are shown). Note for M/L, RepBlocks is replaced with CSPStackRep. (b) The structure of a BiC module. (c) A SimCSPSPPF block. (source).

Key Features

  • Bi-directional Concatenation (BiC) Module: YOLOv6 introduces a BiC module in the neck of the detector, enhancing localization signals and delivering performance gains with negligible speed degradation.
  • Anchor-Aided Training (AAT) Strategy: This model proposes AAT to enjoy the benefits of both anchor-based and anchor-free paradigms without compromising inference efficiency.
  • Enhanced Backbone and Neck Design: By deepening YOLOv6 to include another stage in the backbone and neck, this model achieves state-of-the-art performance on the COCO dataset at high-resolution input.
  • Self-Distillation Strategy: A new self-distillation strategy is implemented to boost the performance of smaller models of YOLOv6, enhancing the auxiliary regression branch during training and removing it at inference to avoid a marked speed decline.

Pre-trained Models

YOLOv6 provides various pre-trained models with different scales:

  • YOLOv6-N: 37.5% AP on COCO val2017 at 1187 FPS with NVIDIA Tesla T4 GPU.
  • YOLOv6-S: 45.0% AP at 484 FPS.
  • YOLOv6-M: 50.0% AP at 226 FPS.
  • YOLOv6-L: 52.8% AP at 116 FPS.
  • YOLOv6-L6: State-of-the-art accuracy in real-time.

YOLOv6 also provides quantized models for different precisions and models optimized for mobile platforms.

Usage

Python API

from ultralytics import YOLO

model = YOLO("yolov6n.yaml")  # build new model from scratch
model.info()  # display model information
model.predict("path/to/image.jpg")  # predict

Supported Tasks

Model Type Pre-trained Weights Tasks Supported
YOLOv6-N yolov6-n.pt Object Detection
YOLOv6-S yolov6-s.pt Object Detection
YOLOv6-M yolov6-m.pt Object Detection
YOLOv6-L yolov6-l.pt Object Detection
YOLOv6-L6 yolov6-l6.pt Object Detection

Supported Modes

Mode Supported
Inference
Validation
Training

Citations and Acknowledgements

We would like to acknowledge the authors for their significant contributions in the field of real-time object detection:

@misc{li2023yolov6,
      title={YOLOv6 v3.0: A Full-Scale Reloading}, 
      author={Chuyi Li and Lulu Li and Yifei Geng and Hongliang Jiang and Meng Cheng and Bo Zhang and Zaidan Ke and Xiaoming Xu and Xiangxiang Chu},
      year={2023},
      eprint={2301.05586},
      archivePrefix={arXiv},
      primaryClass={cs.CV}
}

The original YOLOv6 paper can be found on arXiv. The authors have made their work publicly available, and the codebase can be accessed on GitHub. We appreciate their efforts in advancing the field and making their work accessible to the broader community.