Skip to content

Latest commit

 

History

History

dbnet

Folders and files

NameName
Last commit message
Last commit date

parent directory

..

clipper

clipper

 
 

CMakeLists.txt

CMakeLists.txt

 
 

README.md

README.md

 
 

common.hpp

common.hpp

 
 

dbnet.cpp

dbnet.cpp

 
 

logging.h

logging.h

 
 

utils.h

utils.h

 
 

README.md

DBNet

The Pytorch implementation is DBNet.

How to Run

    1. generate .wts

    Download code and model from DBNet and config your environments.

    Go to filetools/predict.py, set --save_wts as True, then run, the DBNet.wts will be generated.

    Onnx can also be exported, just need to set --onnx as True.

    1. cmake and make
    mkdir build
cd build
cmake ..
make
cp /your_wts_path/DBNet.wts .
sudo ./dbnet -s             // serialize model to plan file i.e. 'DBNet.engine'
sudo ./dbnet -d  ./test_imgs // deserialize plan file and run inference, all images in test_imgs folder will be processed.

For windows

https://github.com/BaofengZan/DBNet-TensorRT

Todo

  • 1. In common.hpp, the following two functions can be merged.

    ILayer* convBnLeaky(INetworkDefinition *network, std::map<std::string, Weights>& weightMap, ITensor& input, int outch, int ksize, int s, int g, std::string lname, bool bias = true) 
    ILayer* convBnLeaky2(INetworkDefinition *network, std::map<std::string, Weights>& weightMap, ITensor& input, int outch, int ksize, int s, int g, std::string lname, bool bias = true)

  • 2. The postprocess method here should be optimized, which is a little different from pytorch side.

  • 3. The input image here is resized to 640 x 640 directly, while the pytorch side is using letterbox method.