Bridging the Last Mile in Sim-to-Real Robot Perception via Bayesian Active Learning
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Learning from synthetic data is popular in a variety of robotic vision tasks such as object detection, because a large amount of data can be generated without annotations by humans. However, when relying only on synthetic data,we encounter the well-known problem of the simulation-to-reality (Sim-to-Real) gap, which is hard to resolve completely in practice. For such cases, real human-annotated data is necessary to bridge this gap, and in our work we focus on howto acquire this data efficiently. Therefore, we propose a Sim-to-Real pipeline that relies on deep Bayesian active learning and aims to minimize the manual annotation efforts. We devise a learning paradigm that autonomously selects the data that is considered useful for the human expert to annotate. To achieve this, a Bayesian Neural Network (BNN) object detector providing reliable uncertain estimates is adapted to infer the informativeness of the unlabeled data, in order to perform active learning. In our experiments on two object detection data sets, we show that the labeling effort required to bridge the reality gap can be reduced to a small amount. Furthermore, we demonstrate the practical effectiveness of this idea in a grasping task on an assistive robot.
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