Particle-based Instance-aware Semantic Occupancy Mapping in Dynamic Environments

Gang Chen, Zhaoying Wang, Wei Dong, Javier Alonso-Mora
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Abstract

Representing the 3D environment with instance-aware semantic and geometric information is crucial for interaction-aware robots in dynamic environments. Nonetheless, creating such a representation poses challenges due to sensor noise, instance segmentation and tracking errors, and the objects' dynamic motion. This paper introduces a novel particle-based instance-aware semantic occupancy map to tackle these challenges. Particles with an augmented instance state are used to estimate the Probability Hypothesis Density (PHD) of the objects and implicitly model the environment. Utilizing a State-augmented Sequential Monte Carlo PHD (S$^2$MC-PHD) filter, these particles are updated to jointly estimate occupancy status, semantic, and instance IDs, mitigating noise. Additionally, a memory module is adopted to enhance the map's responsiveness to previously observed objects. Experimental results on the Virtual KITTI 2 dataset demonstrate that the proposed approach surpasses state-of-the-art methods across multiple metrics under different noise conditions. Subsequent tests using real-world data further validate the effectiveness of the proposed approach.
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动态环境中基于粒子的实例感知语义占用映射
然而,由于传感器噪声、实例分割和跟踪误差以及物体的动态运动,创建这种表示方法面临着挑战。本文介绍了一种新颖的基于粒子的实例感知语义占位图来应对这些挑战。具有增强实例状态的粒子被用来估计物体的概率假设密度(PHD),并对环境进行隐式建模。利用状态增强序列蒙特卡洛 PHD(S$^2$MC-PHD)滤波器,对这些粒子进行更新,以联合估计占用状态、语义和实例 ID,从而降低噪声。此外,还采用了记忆模块来增强地图对先前观察到的对象的反应能力。在虚拟 KITTI 2 数据集上的实验结果表明,在不同的噪声条件下,所提出的方法在多个指标上都超过了目前最先进的方法。随后使用真实世界数据进行的测试进一步验证了所提方法的有效性。
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