3 research outputs found
DiffInfinite: Large Mask-Image Synthesis via Parallel Random Patch Diffusion in Histopathology
We present DiffInfinite, a hierarchical diffusion model that generates
arbitrarily large histological images while preserving long-range correlation
structural information. Our approach first generates synthetic segmentation
masks, subsequently used as conditions for the high-fidelity generative
diffusion process. The proposed sampling method can be scaled up to any desired
image size while only requiring small patches for fast training. Moreover, it
can be parallelized more efficiently than previous large-content generation
methods while avoiding tiling artefacts. The training leverages classifier-free
guidance to augment a small, sparsely annotated dataset with unlabelled data.
Our method alleviates unique challenges in histopathological imaging practice:
large-scale information, costly manual annotation, and protective data
handling. The biological plausibility of DiffInfinite data is validated in a
survey by ten experienced pathologists as well as a downstream segmentation
task. Furthermore, the model scores strongly on anti-copying metrics which is
beneficial for the protection of patient data
DiffInfinite: Large Mask-Image Synthesis via Parallel Random Patch Diffusion in Histopathology
We present DiffInfinite, a hierarchical diffusion model that generates arbitrarily large histological images while preserving long-range correlation structural information. Our approach first generates synthetic segmentation masks, subsequently used as conditions for the high-fidelity generative diffusion process. The proposed sampling method can be scaled up to any desired image size while only requiring small patches for fast training. Moreover, it can be parallelized more efficiently than previous large-content generation methods while avoiding tiling artefacts. The training leverages classifier-free guidance to augment a small, sparsely annotated dataset with unlabelled data. Our method alleviates unique challenges in histopathological imaging practice: large-scale information, costly manual annotation, and protective data handling. The biological plausibility of DiffInfinite data is validated in a survey by ten experienced pathologists as well as a downstream segmentation task. Furthermore, the model scores strongly on anti-copying metrics which is beneficial for the protection of patient data