preprintJul 1, 2017Closed access
Shape Completion Using 3D-Encoder-Predictor CNNs and Shape Synthesis
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Abstract
We introduce a data-driven approach to complete partial 3D shapes through a combination of volumetric deep neural networks and 3D shape synthesis. From a partially-scanned input shape, our method first infers a low-resolution – but complete – output. To this end, we introduce a 3D-Encoder-Predictor Network (3D-EPN) which is composed of 3D convolutional layers. The network is trained to predict and fill in missing data, and operates on an implicit surface representation that encodes both known and unknown space. This allows us to predict global structure in unknown areas at high accuracy. We then correlate these intermediary results with 3D geometry from a shape database at test time. In a final pass, we…
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3Topics & keywords
Topics
Keywords
- Computer science
- Convolutional neural network
- Benchmark (surveying)
- Encoder
- Artificial intelligence
- Algorithm
- Representation (politics)
- Synthetic data
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