A Design Approach for Simultaneous Cooperative Interception Based on Area Coverage Optimization

In this paper, a design approach for simultaneous cooperative interception is presented for a scenario where the successful handover cannot be guaranteed by a single interceptor due to the target maneuver and movement information errors at the handover moment. Firstly, the concepts of the reachable...

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Published inDrones (Basel) Vol. 6; no. 7; p. 156
Main Authors Wang, Long, Liu, Kai, Yao, Yu, He, Fenghua
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.07.2022
Subjects
Algorithms
area coverage optimization
cooperative interception
Design
Design optimization
Drone aircraft
Interception
Interceptors
Mathematical optimization
multiple interceptors
Optimization algorithms
Performance indices
Spatial distribution
Velocity
China
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Abstract In this paper, a design approach for simultaneous cooperative interception is presented for a scenario where the successful handover cannot be guaranteed by a single interceptor due to the target maneuver and movement information errors at the handover moment. Firstly, the concepts of the reachable interception area and predicted interception area are introduced, a performance index function is constructed, and the probability of a successful handover is described by considering the coverage of the predicted interception area. Taking the probability of successful handover as a constraint, the simultaneous cooperative interception design problem is formulated based on area coverage. Then, an area coverage optimization algorithm is presented to design the spatial distributions of the interceptors. In order to enhance the handover probability, a simultaneous cooperative interception design approach is proposed to obtain the number of interceptors and the corresponding spatial distributions. Finally, simulation experiments are carried out to validate the effectiveness of the proposed approach.
AbstractList In this paper, a design approach for simultaneous cooperative interception is presented for a scenario where the successful handover cannot be guaranteed by a single interceptor due to the target maneuver and movement information errors at the handover moment. Firstly, the concepts of the reachable interception area and predicted interception area are introduced, a performance index function is constructed, and the probability of a successful handover is described by considering the coverage of the predicted interception area. Taking the probability of successful handover as a constraint, the simultaneous cooperative interception design problem is formulated based on area coverage. Then, an area coverage optimization algorithm is presented to design the spatial distributions of the interceptors. In order to enhance the handover probability, a simultaneous cooperative interception design approach is proposed to obtain the number of interceptors and the corresponding spatial distributions. Finally, simulation experiments are carried out to validate the effectiveness of the proposed approach.
Audience Academic
Author Wang, Long
He, Fenghua
Liu, Kai
Yao, Yu
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CitedBy_id crossref_primary_10_1016_j_asoc_2023_110476
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SubjectTerms Algorithms
area coverage optimization
cooperative interception
Design
Design optimization
Drone aircraft
Interception
Interceptors
Mathematical optimization
multiple interceptors
Optimization algorithms
Performance indices
Spatial distribution
Velocity
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Title A Design Approach for Simultaneous Cooperative Interception Based on Area Coverage Optimization
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