Abstract
This chapter proposes a coverage-based formulation for the interception problem against supersonic fight vehicles with multiple decoys. A cooperative guidance algorithm is designed to deploy a team of interceptors for maximizing the interception probability. In addition, an optimal control approach is developed to drive the interceptors for arriving at the desired locations that can be obtained by implementing the cooperative guidance algorithm. Moreover, theoretical analysis is conducted to estimate the lower bound of the joint interception probability. Finally, numerical simulations demonstrate the effectiveness of the proposed cooperative interception algorithm.
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References
Jeon, I., Lee, J., Tahk, M.: Homing guidance law for cooperative attack of multiple missiles. J. Guid. Control. Dyn. 33(1), 275–280 (2010)
Ben-Asher, J.: Minimum-effort interception of multiple targets. J. Guid. Control. Dyn. 16(3), 600–602 (1993)
Yang, B., Liu, H., Yao, Y.: Cooperative interception guidance for multiple vehicles: a receding horizon optimization approach. In: Proceedings of 2014 IEEE Chinese Guidance, Navigation and Control Conference, pp. 827–831. IEEE, Yantai (2014)
Dionne, D., Michalska, H., Rabbath, C.: A predictive guidance law with uncertain information about the target state. In: 2006 American Control Conference, pp. 1062–1067. IEEE (2006)
Dionne, D., Michalska, H., Rabbath, C.: Predictive guidance for pursuit-evasion engagements involving multiple decoys. J. Guid. Control. Dyn. 30(5), 1277–1286 (2007)
Ben-Asher, Y., et al.: Distributed decision and control for cooperative UAVs using ad hoc communication. IEEE Trans. Control Syst. Technol. 16(3), 511–516 (2008)
Hong, Y., Zhai, C.: Dynamic coordination and distributed control design of multi-agent systems. Control Theory Appl. 28(10), 1506–1512 (2011)
Cortés, J., MartÃnez, S., Karatas, T., Bullo, F.: Coverage control for mobile sensing network. IEEE Trans. Robot. Autom. 20(2), 243–255 (2004)
Ahmadzadeh, A., Jadbabaie, A., Kumar, V., Pappas, G.: Cooperative coverage using receding horizon control. In: Proceedings of European Control Conference, pp. 2466–2470. Kos, Greece (2007)
Zhai, C., Hong, Y.: Decentralized sweep coverage algorithm for multi-agent systems with workload uncertainties. Automatica 49(7), 2154–2159 (2013)
Cassandras, G., Li, W.: Sensor networks and cooperative control. Eur. J. Control. 11(4), 436–463 (2005)
Howard, A., Parker, L., Sukhatme, G.: Experiments with a large heterogeneous mobile robot team: exploration, map**, deployment and detection. Int. J. Robot. Res. 25(5–6), 431–447 (2006)
Zhai, C., Hong, Y.: Decentralized algorithm for online workload partition of multi-agent systems. In: Proceedings of Chinese Control Conference, pp. 4920–4925. IEEE, Yantai (2011)
Hu, J., **e, L., Lum, K., Xu, J.: Multiagent information fusion and cooperative control in target search. IEEE Trans. Control Syst. Technol. 21(4), 1223–1235 (2012)
Hong, Y., Zhang, Y.: Distributed optimization: algorithm design and convergence analysis. Control Theory Appl. 31(7), 850–857 (2014)
Hussein, I., Stipanović, D.: Effective coverage control for mobile sensor networks with guaranteed collision avoidance. IEEE Trans. Control Syst. Technol. 15(4), 642–657 (2007)
Li, X., Jilkov, V.: Survey of maneuvering target tracking. Part I. Dynamic models. IEEE Trans. Aerosp. Electron. Syst. 39(4), 1333–1364 (2003)
Naidu, D.: Optimal Control Systems, 1st, edn, vol. 2, pp.152–166. CRC Press (2002)
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Zhai, C., Zhang, HT., **ao, G. (2021). Coverage-Based Cooperative Interception Against Supersonic Flight Vehicles. In: Cooperative Coverage Control of Multi-Agent Systems and its Applications. Studies in Systems, Decision and Control, vol 408 . Springer, Singapore. https://doi.org/10.1007/978-981-16-7625-3_7
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DOI: https://doi.org/10.1007/978-981-16-7625-3_7
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