8 research outputs found
Temporally Coherent General Dynamic Scene Reconstruction
Existing techniques for dynamic scene reconstruction from multiple
wide-baseline cameras primarily focus on reconstruction in controlled
environments, with fixed calibrated cameras and strong prior constraints. This
paper introduces a general approach to obtain a 4D representation of complex
dynamic scenes from multi-view wide-baseline static or moving cameras without
prior knowledge of the scene structure, appearance, or illumination.
Contributions of the work are: An automatic method for initial coarse
reconstruction to initialize joint estimation; Sparse-to-dense temporal
correspondence integrated with joint multi-view segmentation and reconstruction
to introduce temporal coherence; and a general robust approach for joint
segmentation refinement and dense reconstruction of dynamic scenes by
introducing shape constraint. Comparison with state-of-the-art approaches on a
variety of complex indoor and outdoor scenes, demonstrates improved accuracy in
both multi-view segmentation and dense reconstruction. This paper demonstrates
unsupervised reconstruction of complete temporally coherent 4D scene models
with improved non-rigid object segmentation and shape reconstruction and its
application to free-viewpoint rendering and virtual reality.Comment: Submitted to IJCV 2019. arXiv admin note: substantial text overlap
with arXiv:1603.0338