Rocky Duan scite author profile

Fig. 1. An overview of our approach. Since creating large numbers of realistic object models is challenging, we train our deep autoregressive model architecture on millions of unrealistic procedurally generated objects (indicated in blue above) and billions of unique grasp attempts. At test time, our model generalizes to realistic objects from the YCB dataset (indicated in green above) [4] with 92% success rate.Abstract-Deep learning-based robotic grasping has made significant progress thanks to algorithmic improvements and increased data availability. However, state-of-the-art models are often trained on as few as hundreds or thousands of unique object instances, and as a result generalization can be a challenge.In this work, we explore a novel data generation pipeline for training a deep neural network to perform grasp planning that applies the idea of domain randomization to object synthesis. We generate millions of unique, unrealistic procedurally generated objects, and train a deep neural network to perform grasp planning on these objects.Since the distribution of successful grasps for a given object can be highly multimodal, we propose an autoregressive grasp planning model that maps sensor inputs of a scene to a probability distribution over possible grasps. This model allows us to sample grasps efficiently at test time (or avoid sampling entirely). We evaluate our model architecture and data generation pipeline in simulation and the real world. We find we can achieve a >90% success rate on previously unseen realistic objects at test time in simulation despite having only been trained on random objects. We also demonstrate an 80% success rate on real-world grasp attempts despite having only been trained on random simulated objects.

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Domain Randomization and Generative Models for Robotic Grasping

Tobin¹,

Biewald²,

Duan³

et al. 2017

Preprint

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Rocky Duan

Domain Randomization and Generative Models for Robotic Grasping

Domain Randomization and Generative Models for Robotic Grasping

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