Towards End-to-End Neuromorphic Voxel-based 3D Object Reconstruction Without Physical Priors

• URL: http://arxiv.org/abs/2501.00741v1
• Date: Wed, 01 Jan 2025 06:07:03 GMT
• Title: Towards End-to-End Neuromorphic Voxel-based 3D Object Reconstruction Without Physical Priors
• Authors: Chuanzhi Xu, Langyi Chen, Vincent Qu, Haodong Chen, Vera Chung,
• Abstract summary: We propose an end-to-end method for dense voxel 3D reconstruction using neuromorphic cameras. Our method achieves a 54.6% improvement in reconstruction accuracy compared to the baseline method.
• Score: 0.0
• License:
• Abstract: Neuromorphic cameras, also known as event cameras, are asynchronous brightness-change sensors that can capture extremely fast motion without suffering from motion blur, making them particularly promising for 3D reconstruction in extreme environments. However, existing research on 3D reconstruction using monocular neuromorphic cameras is limited, and most of the methods rely on estimating physical priors and employ complex multi-step pipelines. In this work, we propose an end-to-end method for dense voxel 3D reconstruction using neuromorphic cameras that eliminates the need to estimate physical priors. Our method incorporates a novel event representation to enhance edge features, enabling the proposed feature-enhancement model to learn more effectively. Additionally, we introduced Optimal Binarization Threshold Selection Principle as a guideline for future related work, using the optimal reconstruction results achieved with threshold optimization as the benchmark. Our method achieves a 54.6% improvement in reconstruction accuracy compared to the baseline method.

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