Pytorch code for our work "Representation Learning of Image Composition for Aesthetic Evaluation".
Lin Zhao, Meimei Shang, Fei Gao*, et al. Representation Learning of Image Composition for Aesthetic Prediction. Computer Vision and Image Understanding (CVIU), vol. 199, 103024, Oct. 2020. [paper]
- pytorch
- torchvision
- tqdm
- requests
- It contains AVA, CPC, JAS_composition, JAS_aesthetic.
- AVA: aesthetic prediction on the AVA dataset;
- CPC: composition prediciotn on the CPC dataset;
- JAS_composition: composition prediction on the JAS dataset;
- JAS_aesthetic: aesthetic prediction on the JAS dataset;
- Pretrained models are released in
pretrain_model
e
denotesReLIC_e
u
denotesReLIC_u
ReLIC
denotesReLIC
ReLIC1
denotesReLIC+
ReLIC2
denotesReLIC++
- you can change the
'path_to_model_weight'
inoption.py
and runstart_check_model
inmain.py
- if you want to train your own models, please run
start_train
inmain.py
Feel free to ask any questions about coding.
- Meimei Shang, MeimShang@163.com
data
contains the dataset split of three datasets: AVA, JAS, CPC;- [AVA: A Large-Scale Database for Aesthetic Visual Analysis](http://refbase.cvc.uab.es/files/MMP2012a.pdf)
- CPC: [The Comparative Photo Composition (CPC) database](https://www3.cs.stonybrook.edu/~cvl/projects/wei2018goods/VPN_CVPR2018s.html)
- JAS: [JENAESTHETICS DATASET- A PUBLIC COLLECTION OF PAINTINGS FOR AESTHETICS RESEARCH](http://www.inf-cv.uni-jena.de/jenaesthetics.html)
- each of them have three files:
train.csv
,test.csv
andval.csv
@article{Zhao2020ReLIC,
title = "Representation learning of image composition for aesthetic prediction",
author = "Lin Zhao and Meimei Shang and Fei Gao and Rongsheng Li and Fei Huang and Jun Yu",
journal = "Computer Vision and Image Understanding",
volume = "199",
pages = "103024",
year = "2020",
issn = "1077-3142",
doi = "https://doi.org/10.1016/j.cviu.2020.103024",
}
- Amirshahi, S.A., Hayn-Leichsenring, G.U., Denzler, J., Redies, C., 2014a. Jenaaesthetics dataset URL: http://www.inf-cv.uni-jena.de/en/jenaesthetics.
- Amirshahi, S.A., Hayn-Leichsenring, G.U., Denzler, J., Redies, C., 2014b. Jenaesthetics subjective dataset: analyzing paintings by subjective scores, in: European Conference on Computer Vision, Springer. pp. 3–19.
- Deng, Y., Chen, C.L., Tang, X., 2017. Image aesthetic assessment: An experimental survey. IEEE Signal Processing Magazine 34, 80–106.
- Murray, N., Marchesotti, L., Perronnin, F., 2012. AVA: A large-scale database for aesthetic visual analysis, in: IEEE International Conference on Computer Vision and Pattern Recognition, pp. 2408–2415.
- Wei, Z., Zhang, J., Shen, X., Lin, Z., Mech, R., Hoai, M., Samaras, D., 2018. Good view hunting: Learning photo composition from dense view pairs, in: Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition, pp. 5437–5446.
- Ma, S., Liu, J., Wen Chen, C., 2017. A-lamp: Adaptive layout-aware multipatch deep convolutional neural network for photo aesthetic assessment , 4535–4544.
- Talebi, H., Milanfar, P., 2018. NIMA: Neural image assessment. IEEE Transactions on Image Processing 27, 3998–4011. doi:10.1109/TIP.2018.2831899.