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ICP-Flow: LiDAR Scene Flow Estimation with ICP


Alapfogalmak
Developing a learning-free LiDAR scene flow estimator incorporating rigid-motion assumption and achieving top performance.
Kivonat
  1. Introduction
    • Motion is crucial for visual perception in autonomous vehicles.
    • Scene flow estimation calculates point-wise motion from two LiDAR scans.
  2. Method
    • Utilizes Iterative Closest Point (ICP) algorithm for aligning objects over time.
    • Incorporates rigid-motion assumption and histogram-based initialization to aid ICP.
  3. Experiments
    • Outperforms state-of-the-art baselines on Waymo, Argoverse-v2, and nuScenes datasets.
    • Achieves real-time inference with high-quality pseudo labels for neural network training.
  4. Limitations
    • Can fail in cases of over/under segmentation or multiple similar objects nearby.
  5. Conclusion
    • Proposes a learning-free framework for scene flow estimation in autonomous driving, showing competitive results across datasets.
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Statisztikák
We propose ICP-Flow, a learning-free flow estimator that outperforms state-of-the-art baselines on the Waymo dataset and performs competitively on Argoverse-v2 and nuScenes. Our model achieves top performance among all models capable of real-time inference.
Idézetek
"We propose ICP-Flow, a learning-free flow estimator." "Our model builds on top of the Iterative Closest Point (ICP) algorithm."

Főbb Kivonatok

by Yancong Lin,... : arxiv.org 03-22-2024

https://arxiv.org/pdf/2402.17351.pdf
ICP-Flow

Mélyebb kérdések

How can the proposed histogram-based initialization improve the performance of the ICP algorithm

The proposed histogram-based initialization can improve the performance of the ICP algorithm by providing a more accurate initial guess for the transformation matrix. In traditional ICP, finding an optimal initial alignment is crucial for achieving good results in aligning two point clouds. By using a histogram-based approach to analyze translation vectors between clusters and selecting the dominant translation shared by the majority, we are able to provide a robust starting point for the ICP algorithm. This initialization helps guide the iterative closest point matching process towards better convergence and alignment of clusters, leading to improved scene flow estimation accuracy.

What are the potential limitations of relying solely on geometric information for scene flow estimation

Relying solely on geometric information for scene flow estimation has several potential limitations. One limitation is related to over/under segmentation during ground removal and clustering processes, which can result in inaccurate cluster associations and subsequently affect scene flow estimation. Another limitation arises when there are multiple similar objects nearby in a scene, making it challenging to differentiate between them based only on geometric features. Additionally, fast-moving objects that move out of perception range may pose challenges as their motion cannot be accurately tracked using geometric information alone. Furthermore, deformable objects like bendy or articulated vehicles may not adhere strictly to rigid body assumptions, leading to inaccuracies in estimating their motion using geometric features exclusively.

How might incorporating semantic features alongside geometric features enhance the accuracy of scene flow estimation

Incorporating semantic features alongside geometric features can enhance the accuracy of scene flow estimation by providing additional context and understanding of the scene dynamics. Semantic information such as object labels or categories can help disambiguate between similar-looking objects and improve cluster association during scene flow estimation. By combining semantic knowledge with geometric data, algorithms can better handle complex scenarios where purely geometric approaches may fall short. Semantic cues can also aid in tracking specific object movements over time and enable more precise estimations of object trajectories within a dynamic environment. Integrating both semantic and geometric features allows for a more comprehensive analysis of scenes and enhances overall performance in scene flow estimation tasks.
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