Intelligent Computational imaging Lab (ICL)
Prof. 전세영
Research Intelligent Computational imaging
TEL 880-1811
WEBSITE https://icl.snu.ac.kr
Doc ICL_Intro.pdf
Doc ICL_Intro.pdf
About the Laboratory & Research Area
Computation plays an important role in modern imaging including medical imaging: Modern imaging systems pose interesting, but challenging problems under non-ideal circumstances. By solving them with the aid of computations, one can see something farther away, something deeper inside, and something much smaller. Signal processing and machine learning are important & powerful tools to tackle them effectively.
Intelligent Computational imaging Lab (ICL) is investigating modern signal processing and machine learning for computation imaging, especially for medical imaging. ICL generalizes the problems posed by computational & medical imaging and solves them so that our solutions can be applied not only to computation imaging itself, but also to low-level computer vision or other areas. ICL is publishing its works in major medical imaging & signal processing journals as well as in major machine learning & computer vision conferences.
Intelligent Computational imaging Lab (ICL) is investigating modern signal processing and machine learning for computation imaging, especially for medical imaging. ICL generalizes the problems posed by computational & medical imaging and solves them so that our solutions can be applied not only to computation imaging itself, but also to low-level computer vision or other areas. ICL is publishing its works in major medical imaging & signal processing journals as well as in major machine learning & computer vision conferences.
Research Interests & Projects
Computational & medical imaging;
Signal processing;
Machine learning
Signal processing;
Machine learning
Journals & Patents
- G H Kim, S Y Chun, "DATID-3D: Diversity-Preserved Domain Adaptation Using Text-to-Image Diffusion for 3D Generative Model," CVPR, 2023
- D W Park, B H Lee, S Y Chun, "All-in-one Image Restoration for Unknown Degradations Using Adaptive Discriminative Filters for Specific Degradations," CVPR, 2023.
- S M Hong, S Y Chun, "Neural Diffeomorphic Non-Uniform B-Spline Flows," AAAI, Feb 2023.
- H V Kim, T Q Phan, W J Hong, S Y Chun, “Physiology-Based Augmented Deep Neural Network Frameworks For ECG Biometrics With Short ECG Pulses Considering Varying Heart Rates,” Pattern Recognition Letters 156:1-6, Apr 2022.
- Y J Kim, H Jang, K Lee et al., "PAIP 2019: Liver cancer segmentation challenge," Medical Image Analysis 67,101854, Jan 2021.
- Y S Jo, S Y Chun, J H Choi, "Rethinking Deep Image Prior for Denoising," ICCV 5087-5096, Oct 2021.
- K Y Kim, D W Park, K I Kim, S Y Chun, "Task-Aware Variational Adversarial Active Learning," CVPR 8166-8175, Jun 2021.
- K Y Kim, S Soltanayev, S Y Chun, "Unsupervised Training Of Deep Low-Dose CT Reconstruction Without Full-Dose CT Images," IEEE Journal of Selected Topics in Signal Processing 14(6):1112-1125, Oct 2020.
- S Y Chun, M P Nguyen, T Q Phan, H V Kim, J A Fessler, Y K Dewaraja, "Algorithms and Analyses for Joint Spectral Image Reconstruction in Y-90 Bremsstrahlung SPECT," IEEE Transactions on Medical Imaging 39(5):1369-79, May 2020.
- D W Park*, D U Kang*, J S Kim, S Y Chun, "Multi-Temporal Recurrent Neural Networks For Progressive Non-Uniform Single Image Deblurring With Incremental Temporal Training," ECCV 327-343, Aug 2020.
- M Zhussip, S Soltanayev, S Y Chun, "Extending Stein’s unbiased risk estimator to train deep denoisers with correlated pairs of noisy images,” NeurIPS, Dec 2019.
- M Zhussip, S Soltanayev, S Y Chun, "Training deep learning based image denoisers from undersampled measurements without ground truth and without image prior," CVPR 10247-56, Jun 2019.
- S Soltanayev, S Y Chun, "Training Deep Learning based Denoisers without Ground Truth Data," NeurIPS 3261-3271, Dec 2018.
- D W Park, B H Lee, S Y Chun, "All-in-one Image Restoration for Unknown Degradations Using Adaptive Discriminative Filters for Specific Degradations," CVPR, 2023.
- S M Hong, S Y Chun, "Neural Diffeomorphic Non-Uniform B-Spline Flows," AAAI, Feb 2023.
- H V Kim, T Q Phan, W J Hong, S Y Chun, “Physiology-Based Augmented Deep Neural Network Frameworks For ECG Biometrics With Short ECG Pulses Considering Varying Heart Rates,” Pattern Recognition Letters 156:1-6, Apr 2022.
- Y J Kim, H Jang, K Lee et al., "PAIP 2019: Liver cancer segmentation challenge," Medical Image Analysis 67,101854, Jan 2021.
- Y S Jo, S Y Chun, J H Choi, "Rethinking Deep Image Prior for Denoising," ICCV 5087-5096, Oct 2021.
- K Y Kim, D W Park, K I Kim, S Y Chun, "Task-Aware Variational Adversarial Active Learning," CVPR 8166-8175, Jun 2021.
- K Y Kim, S Soltanayev, S Y Chun, "Unsupervised Training Of Deep Low-Dose CT Reconstruction Without Full-Dose CT Images," IEEE Journal of Selected Topics in Signal Processing 14(6):1112-1125, Oct 2020.
- S Y Chun, M P Nguyen, T Q Phan, H V Kim, J A Fessler, Y K Dewaraja, "Algorithms and Analyses for Joint Spectral Image Reconstruction in Y-90 Bremsstrahlung SPECT," IEEE Transactions on Medical Imaging 39(5):1369-79, May 2020.
- D W Park*, D U Kang*, J S Kim, S Y Chun, "Multi-Temporal Recurrent Neural Networks For Progressive Non-Uniform Single Image Deblurring With Incremental Temporal Training," ECCV 327-343, Aug 2020.
- M Zhussip, S Soltanayev, S Y Chun, "Extending Stein’s unbiased risk estimator to train deep denoisers with correlated pairs of noisy images,” NeurIPS, Dec 2019.
- M Zhussip, S Soltanayev, S Y Chun, "Training deep learning based image denoisers from undersampled measurements without ground truth and without image prior," CVPR 10247-56, Jun 2019.
- S Soltanayev, S Y Chun, "Training Deep Learning based Denoisers without Ground Truth Data," NeurIPS 3261-3271, Dec 2018.
