GENERATION FOR UNSUPERVISED DOMAIN ADAPTATION: A GAN-BASED APPROACH FOR OBJECT CLASSIFICATION WITH 3D POINT CLOUD DATA
Junxuan Huang, Junsong Yuan, Chunming Qiao
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Recent deep networks have achieved good performance on a variety of 3d points classification tasks. However, these models often face challenges in ?wild tasks? where there are considerable differences between the labeled training/source data collected by one Lidar and unseen test/target data collected by a different Lidar. Unsupervised domain adaptation (UDA) seeks to overcome such a problem without target domain labels. Instead of aligning features between source data and target data, we propose a method that uses a Generative Adversarial Network (GAN) to generate synthetic data from the source domain so that the output is close to the target domain. Experiments show that our approach performs better than state-of-the-art UDA methods in three popular 3D object/ scene datasets (i.e., ModelNet, ShapeNet and ScanNet) for cross-domain 3D object classification.