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Multimodal Fusion and Dynamic Resource Optimization for Robust Cooperative Localization of Low-Cost UAVs

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Gepubliceerd in:Drones vol. 9, no. 12 (2025), p. 820-847
Hoofdauteur: Liu Hongfu
Andere auteurs: Fu Yajing, Ma Yangyang, Zhang Wanpeng
Gepubliceerd in:
MDPI AG
Onderwerpen:
Linear programming
Accuracy
Collaboration
Adaptability
Integer programming
Communication
Bandwidths
Evacuations & rescues
Optimization
Task complexity
Efficiency
Adaptation
Recovery
Attention
Unmanned aerial vehicles
Overloading
Data integration
Localization
Scheduling
Low cost
Real-time programming
Sensors
Resource scheduling
Design
Algorithms
Drones
Weather
Robustness (mathematics)
Resource utilization
Lidar
Kalman filters
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Samenvatting:<sec sec-type="highlights"> What are the main findings? <list list-type="bullet"> <list-item> </list-item>Proposes a novel collaborative localization algorithm integrating a cross-modal attention mechanism to fuse vision, radar, and lidar data, significantly enhancing robustness in occluded and adverse weather conditions. <list-item> Proposes a dynamic resource optimization framework using integer linear programming, enabling real-time allocation of computational and communication resources to prevent node overload and improve system efficiency. </list-item> What are the implications of the main findings? <list list-type="bullet"> <list-item> </list-item>Demonstrates superior performance in realistic simulations, significant improvements in positioning accuracy, resource efficiency, and fault recovery, demonstrating strong potential for applications in complex tasks. <list-item> Provides a practical, low-cost system solution validated in complex scenarios, establishing a viable pathway for the engineering deployment of robust UAV swarms. </list-item> To overcome the challenges of low positioning accuracy and inefficient resource utilization in cooperative target localization by unmanned aerial vehicles (UAVs) in complex environments, this paper presents a cooperative localization algorithm that integrates multimodal data fusion with dynamic resource optimization. By leveraging a cross-modal attention mechanism, the algorithm effectively combines complementary information from visual, radar, and lidar sensors, thereby enhancing localization robustness under occlusions, poor illumination, and adverse weather conditions. Furthermore, a real-time resource scheduling model based on integer linear programming is introduced to dynamically allocate computational and communication resources, which mitigates node overload and minimizes resource waste. Experimental evaluations in scenarios including maritime search and rescue, urban occlusions, and dynamic resource fluctuations show that the proposed algorithm achieves significant improvements in positioning accuracy, resource efficiency, and fault recovery, demonstrating strong potential for applications in complex tasks, demonstrating its potential as a viable solution for low-cost UAV swarm applications in complex environments.
ISSN:2504-446X
DOI:10.3390/drones9120820
Bron:Advanced Technologies & Aerospace Database