SLIDER: Sparse History-Guided Aerial Robot Target Search using Sliding Local Maps
Xiaolei Hou, Zheng Pan, Hua Lan, Zhenghao Zou, Yinhong Chen, Chenxi Zhu, Yang Lyu, Jinwen Hu, Chunhui Zhao
- Year
- 2026
- Access
- Open access
Abstract
Efficient exploration and target search in large-scale unknown environments remain challenging for aerial robots due to the demands of broad spatial coverage, fine-grained perception, and real-time decision-making. This paper presents SLIDER, a lightweight and memory-efficient framework that avoids reliance on globally dense maps by combining a local sliding map with sparse global history information. A novel observation quality evaluation method is proposed, leveraging historical poses and sensor models to assess point cloud data in real-time, enabling efficient frontier detection. To support scalable and responsive planning, an incremental viewpoint clustering strategy dynamically adapts to local updates, significantly reducing the number of candidate targets and decreasing computational load. A sparse global topological map is incrementally maintained to assist global planning and cost evaluation. Extensive simulations and real-world experiments demonstrate that the proposed system outperforms state-of-the-art methods in memory usage, decision latency, and search efficiency.
Keywords
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