JDet is an object detection benchmark based on Jittor, and mainly focus on aerial image object detection (oriented object detection).
JDet environment requirements:
- System: Linux(e.g. Ubuntu/CentOS/Arch), macOS, or Windows Subsystem of Linux (WSL)
- Python version >= 3.7
- CPU compiler (require at least one of the following)
- g++ (>=5.4.0)
- clang (>=8.0)
- GPU compiler (optional)
- nvcc (>=10.0 for g++ or >=10.2 for clang)
- GPU library: cudnn-dev (recommend tar file installation, reference link)
Step 1: Install the requirements
git clone https://github.com/Jittor/JDet
cd JDet
python -m pip install -r requirements.txt
If you have any installation problems for Jittor, please refer to Jittor
Step 2: Install JDet
cd JDet
# suggest this
python setup.py develop
# or
python setup.py install
If you don't have permission for install,please add --user
.
Or use PYTHONPATH
:
You can add export PYTHONPATH=$PYTHONPATH:{you_own_path}/JDet/python
into .bashrc
, and run
source .bashrc
The following datasets are supported in JDet, please check the corresponding document before use.
DOTA1.0/DOTA1.5/DOTA2.0 Dataset: dota.md.
FAIR Dataset: fair.md
SSDD/SSDD+: ssdd.md
You can also build your own dataset by convert your datas to DOTA format.
JDet defines the used model, dataset and training/testing method by config-file
, please check the config.md to learn how it works.
python tools/run_net.py --config-file=configs/s2anet_r50_fpn_1x_dota.py --task=train
If you want to test the downloaded trained models, please set resume_path={you_checkpointspath}
in the last line of the config file.
python tools/run_net.py --config-file=configs/s2anet_r50_fpn_1x_dota.py --task=test
You can test and visualize results on your own image sets by:
python tools/run_net.py --config-file=configs/s2anet_r50_fpn_1x_dota.py --task=vis_test
You can choose the visualization style you prefer, for more details about visualization, please refer to visualization.md.
In this section, we will introduce how to build a new project(model) with JDet. We need to install JDet first, and build a new project by:
mkdir $PROJECT_PATH$
cd $PROJECT_PATH$
cp $JDet_PATH$/tools/run_net.py ./
mkdir configs
Then we can build and edit configs/base.py
like $JDet_PATH$/configs/retinanet.py
.
If we need to use a new layer, we can define this layer at $PROJECT_PATH$/layers.py
and import layers.py
in $PROJECT_PATH$/run_net.py
, then we can use this layer in config files.
Then we can train/test this model by:
python run_net.py --config-file=configs/base.py --task=train
python run_net.py --config-file=configs/base.py --task=test
Models | Dataset | Sub_Image_Size/Overlap | Train Aug | Test Aug | Optim | Lr schd | mAP | Paper | Config | Download |
---|---|---|---|---|---|---|---|---|---|---|
S2ANet-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 74.11 | arxiv | config | model |
S2ANet-R50-FPN | DOTA1.0 | 1024/200 | flip+ra90+bc | - | SGD | 1x | 76.40 | arxiv | config | model |
S2ANet-R50-FPN | DOTA1.0 | 1024/200 | flip+ra90+bc+ms | ms | SGD | 1x | 79.72 | arxiv | config | model |
S2ANet-R101-FPN | DOTA1.0 | 1024/200 | Flip | - | SGD | 1x | 74.28 | arxiv | config | model |
Gliding-R50-FPN | DOTA1.0 | 1024/200 | Flip | - | SGD | 1x | 72.93 | arxiv | config | model |
Gliding-R50-FPN | DOTA1.0 | 1024/200 | Flip+ra90+bc | - | SGD | 1x | 74.93 | arxiv | config | model |
H2RBox-R50-FPN | DOTA1.0 | 1024/200 | flip | - | AdamW | 1x | 67.62 | arxiv | config | model |
RetinaNet-hbb-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 68.02 | arxiv | config | model |
RetinaNet-obb-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 68.07 | arxiv | config | model |
GWD-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 68.88 | arxiv | config | model |
KLD-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 69.10 | arxiv | config | model |
KFIoU-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 69.36 | arxiv | config | model |
FasterRCNN-R50-FPN | DOTA1.0 | 1024/200 | Flip | - | SGD | 1x | 69.631 | arxiv | config | model |
RoITransformer-R50-FPN | DOTA1.0 | 1024/200 | Flip | - | SGD | 1x | 73.842 | arxiv | config | model |
FCOS-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 70.40 | ICCV19 | config | model |
OrientedRCNN-R50-FPN | DOTA1.0 | 1024/200 | Flip | - | SGD | 1x | 75.62 | ICCV21 | config | model |
ReDet-R50-FPN | DOTA1.0 | 1024/200 | Flip | - | SGD | 1x | 76.23 | arxiv | config | model pretrained |
CSL-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 67.99 | arxiv | config | model |
RSDet-R50-FPN | DOTA1.0 | 1024/200 | Flip | - | SGD | 1x | 68.41 | arxiv | config | model |
ATSS-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 72.44 | arxiv | config | model |
Reppoints-R50-FPN | DOTA1.0 | 1024/200 | flip | - | SGD | 1x | 56.34 | arxiv | config | model |
Notice:
- ms: multiscale
- flip: random flip
- ra: rotate aug
- ra90: rotate aug with angle 90,180,270
- 1x : 12 epochs
- bc: balance category
- mAP: mean Average Precision on DOTA1.0 test set
✔️Supported 🕒Doing ➕TODO
- ✔️ S2ANet
- ✔️ Gliding
- ✔️ RetinaNet
- ✔️ Rotated RetinaNet
- ✔️ Faster R-CNN
- ✔️ SSD
- ✔️ ROI Transformer
- ✔️ FCOS
- ✔️ Oriented R-CNN
- ✔️ YOLOv5
- ✔️ GWD
- ✔️ KLD
- ✔️ H2RBox
- ✔️ KFIoU
- ✔️ Localization Distillation
- ✔️ ReDet
- ✔️ CSL
- ✔️ Reppoints
- ✔️ RSDet
- ✔️ ATSS
- 🕒 R3Det
- 🕒 Cascade R-CNN
- 🕒 Oriented Reppoints
- ➕ DCL
- ➕ Double Head OBB
- ➕ Guided Anchoring
- ➕ Sampling Equivariant Self-attention Networks
- ➕ ...
✔️Supported 🕒Doing ➕TODO
- ✔️ DOTA1.0
- ✔️ DOTA1.5
- ✔️ DOTA2.0
- ✔️ SSDD
- ✔️ SSDD+
- ✔️ FAIR
- ✔️ COCO
- ➕ LS-SSDD
- ➕ DIOR-R
- ➕ HRSC2016
- ➕ ICDAR2015
- ➕ ICDAR2017 MLT
- ➕ UCAS-AOD
- ➕ FDDB
- ➕ OHD-SJTU
- ➕ MSRA-TD500
- ➕ Total-Text
- ➕ ...
Website: http://cg.cs.tsinghua.edu.cn/jittor/
Email: [email protected]
File an issue: https://github.com/Jittor/jittor/issues
QQ Group: 761222083
JDet is currently maintained by the Tsinghua CSCG Group. If you are also interested in JDet and want to improve it, Please join us!
@article{hu2020jittor,
title={Jittor: a novel deep learning framework with meta-operators and unified graph execution},
author={Hu, Shi-Min and Liang, Dun and Yang, Guo-Ye and Yang, Guo-Wei and Zhou, Wen-Yang},
journal={Science China Information Sciences},
volume={63},
number={222103},
pages={1--21},
year={2020}
}