A DDDAMS-based planning and control framework for surveillance and crowd control via UAVs and UGVs

•An effective and efficient control framework for UAV/UGV coordination is proposed.•Agent-based simulation is used for planning as well as real-time control purposes.•Filtering is used for UGV and UAV for tracking individuals and crowd, respectively.•Motions of UAV/UGV are determined based on minima...

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Bibliographic Details
Published in:Expert systems with applications 2013-12, Vol.40 (18), p.7168-7183
Main Authors: Khaleghi, Amirreza M., Xu, Dong, Wang, Zhenrui, Li, Mingyang, Lobos, Alfonso, Liu, Jian, Son, Young-Jun
Format: Article
Language:English
Subjects:
Agent-based simulation
Algorithmics. Computability. Computer arithmetics
Algorithms
Applied sciences
Building technical equipments
Buildings
Buildings. Public works
Commands
Computer science
control theory
systems
Computer simulation
Control system synthesis
Control systems
Control theory. Systems
DDDAMS
Detection. Firefighting. Smoke control. Evacuation
Dynamical systems
Dynamics
Exact sciences and technology
Fidelity
Fire protection
Robotics
Surveillance
Theoretical computing
Tracking
UAV
UGV
Unmanned aerial vehicles
Unmanned air vehicles
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Summary:•An effective and efficient control framework for UAV/UGV coordination is proposed.•Agent-based simulation is used for planning as well as real-time control purposes.•Filtering is used for UGV and UAV for tracking individuals and crowd, respectively.•Motions of UAV/UGV are determined based on minimal distance and energy consumption.•The framework is demonstrated for a hardware-in-the-loop simulation environment. A dynamic data driven adaptive multi-scale simulation (DDDAMS) based planning and control framework is proposed for effective and efficient surveillance and crowd control via UAVs and UGVs. The framework is mainly composed of integrated planner, integrated controller, and decision module for DDDAMS. The integrated planner, which is designed in an agent-based simulation (ABS) environment, devises best control strategies for each function of (1) crowd detection (vision algorithm), (2) crowd tracking (filtering), and (3) UAV/UGV motion planning (graph search algorithm). The integrated controller then controls real UAVs/UGVs for surveillance tasks via (1) sensory data collection and processing, (2) control command generation based on strategies provided by the decision planner for crowd detection, tracking, and motion planning, and (3) control command transmission via radio to the real system. The decision module for DDDAMS enhances computational efficiency of the proposed framework via dynamic switching of fidelity of simulation and information gathering based on the proposed fidelity selection and assignment algorithms. In the experiment, the proposed framework (involving fast-running simulation as well as real-time simulation) is illustrated and demonstrated for a real system represented by hardware-in-the-loop (HIL) real-time simulation integrating real UAVs, simulated UGVs and crowd, and simulated environment (e.g. terrain). Finally, the preliminary results successfully demonstrate the benefit of the proposed dynamic fidelity switching concerning the crowd coverage percentage and computational resource usage (i.e. CPU usage) under cases with two different simulation fidelities.
ISSN:0957-4174
1873-6793
DOI:10.1016/j.eswa.2013.07.039