Yufeng Yue scite author profile

Fusing 3-D maps generated by multiple robots in real/semi-real time distributed mapping systems are addressed in this paper. A 3-D occupancy grid-based approach for mapping is utilized to satisfy the real/semi-real time and distributed operating constraints. This paper proposes a novel hierarchical probabilistic fusion framework, which consists of uncertainty modeling, map matching, transformation evaluation, and map merging. Before the fusion of maps, the map features and their uncertainties are explicitly modeled and integrated. For map matching, a two-level probabilistic map matching (PMM) algorithm is developed to include high-level structural and low-level voxel features. In the PMM, the structural uncertainty is first used to generate a coarse matching between the maps and its result is then used to improve the voxel level map matching, resulting in a more efficient and accurate matching between maps with a larger convergence basin. The relative transformation output from PMM algorithm is then evaluated based on the Mahalanobis distance, and the relative entropy filter is used subsequently to integrate the map dissimilarities more accurately, completing the map fusion process. The proposed approach is evaluated using map data collected from both simulated and real environments, and the results validate the accuracy, efficiency, and the support for larger convergence basin of the proposed 3-D occupancy map fusion framework.

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Semantic Reinforced Attention Learning for Visual Place Recognition

Peng

Yue

Zhang

et al. 2021

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A Hierarchical Framework for Collaborative Probabilistic Semantic Mapping

Yue

Zhao

et al. 2020

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A Multilevel Fusion System for Multirobot 3-D Mapping Using Heterogeneous Sensors

Yue

Yang

Wang

et al. 2020

IEEE Systems Journal

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Yufeng Yue

Vision-Based Flexible Leader–Follower Formation Tracking of Multiple Nonholonomic Mobile Robots in Unknown Obstacle Environments

Hierarchical Probabilistic Fusion Framework for Matching and Merging of 3-D Occupancy Maps

Semantic Reinforced Attention Learning for Visual Place Recognition

A Hierarchical Framework for Collaborative Probabilistic Semantic Mapping

A Multilevel Fusion System for Multirobot 3-D Mapping Using Heterogeneous Sensors

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