Attention-driven Active Vision for Efficient Reconstruction of Plants and Targeted Plant Parts
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Visual reconstruction of tomato plants by a robot is extremely challenging due to the high levels of variation and occlusion in greenhouse environments. The paradigm of active-vision helps overcome these challenges by reasoning about previously acquired information and systematically planning camera viewpoints to gather novel information about the plant. However, existing active-vision algorithms cannot perform well on targeted perception objectives, such as the 3D reconstruction of leaf nodes, because they do not distinguish between the plant-parts that need to be reconstructed and the rest of the plant. In this paper, we propose an attention-driven active-vision algorithm that considers only the relevant plant-parts according to the task-at-hand. The proposed approach was evaluated in a simulated environment on the task of 3D reconstruction of tomato plants at varying levels of attention, namely the whole plant, the main stem and the leaf nodes. Compared to pre-defined and random approaches, our approach improves the accuracy of 3D reconstruction by 9.7 and 17.3 compared to pre-defined and random approaches, our approach reconstructs 80 the whole plant and the main stem in 1 less viewpoint and 80 in 3 less viewpoints. We also demonstrated that the attention-driven NBV planner works effectively despite changes to the plant models, the amount of occlusion, the number of candidate viewpoints and the resolutions of reconstruction. By adding an attention mechanism to active-vision, it is possible to efficiently reconstruct the whole plant and targeted plant parts. We conclude that an attention mechanism for active-vision is necessary to significantly improve the quality of perception in complex agro-food environments.
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