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020 _a9789819976614
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024 7 _a10.1007/978-981-99-7661-4
_2doi
050 4 _aTJ212-225
050 4 _aTJ210.2-211.495
072 7 _aTJFM
_2bicssc
072 7 _aTEC007000
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072 7 _aTJFM
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082 0 4 _a629.8
_223
100 1 _aYu, Ziquan.
_eauthor.
_4aut
_4http://id.loc.gov/vocabulary/relators/aut
_994800
245 1 0 _aFault-Tolerant Cooperative Control of Unmanned Aerial Vehicles
_h[electronic resource] /
_cby Ziquan Yu, Youmin Zhang, Bin Jiang, Chun-Yi Su.
250 _a1st ed. 2024.
264 1 _aSingapore :
_bSpringer Nature Singapore :
_bImprint: Springer,
_c2024.
300 _aXVII, 215 p. 1 illus.
_bonline resource.
336 _atext
_btxt
_2rdacontent
337 _acomputer
_bc
_2rdamedia
338 _aonline resource
_bcr
_2rdacarrier
347 _atext file
_bPDF
_2rda
505 0 _aChapter 1. Introduction -- Chapter 2. Fixed-Wing UAV Model -- Chapter 3. Distributed FTCC of Multi-UAVs With Prescribed Performance -- Chapter 4. Distributed FTCC of Multi-UAVs Under Actuator Fault and Input Saturation -- Chapter 5. Distributed FTCC of Multi-UAVs With Multiple Leader UAVs -- Chapter 6. Distributed Finite-Time FTCC of Multi-UAVs With Multiple Leader UAVs -- Chapter 7. Decentralized Finite-Time Attitude FTCC of Multi-UAVs With Prescribed Performance -- Chapter 8. Decentralized Attitude FTCC of Multi-UAVs Under Directed Communication Topology -- Chapter 9. Decentralized FTCC of Multi-UAVs for Cooperative Forest Fire Monitoring -- Chapter 10. Conclusions and Future Directions.
520 _aThis book focuses on the fault-tolerant cooperative control (FTCC) of multiple unmanned aerial vehicles (multi-UAVs). It provides systematic and comprehensive descriptions of FTCC issues in multi-UAVs concerning faults, external disturbances, strongly unknown nonlinearities, and input saturation. Further, it addresses FTCC design from longitudinal motions to attitude motions, and outer-loop position motions of multi-UAVs. The book's detailed control schemes can be used to enhance the flight safety of multi-UAVs. As such, the book offers readers an in-depth understanding of UAV safety in cooperative/formation flight and corresponding design methods. The FTCC methods presented here can also provide guidelines for engineers to improve the safety of aerospace engineering systems. The book offers a valuable asset for scientists and researchers, aerospace engineers, control engineers, lecturers and teachers, and graduates and undergraduates in the system and control community, especially those working in the field of UAV cooperation and multi-agent systems.
650 0 _aControl engineering.
_931970
650 0 _aRobotics.
_92393
650 0 _aAutomation.
_92392
650 0 _aAerospace engineering.
_96033
650 0 _aAstronautics.
_994802
650 1 4 _aControl, Robotics, Automation.
_931971
650 2 4 _aAerospace Technology and Astronautics.
_994804
650 2 4 _aControl and Systems Theory.
_931972
650 2 4 _aAutomation.
_92392
700 1 _aZhang, Youmin.
_eauthor.
_4aut
_4http://id.loc.gov/vocabulary/relators/aut
_994807
700 1 _aJiang, Bin.
_eauthor.
_4aut
_4http://id.loc.gov/vocabulary/relators/aut
_969815
700 1 _aSu, Chun-Yi.
_eauthor.
_4aut
_4http://id.loc.gov/vocabulary/relators/aut
_994809
710 2 _aSpringerLink (Online service)
_994812
773 0 _tSpringer Nature eBook
776 0 8 _iPrinted edition:
_z9789819976607
776 0 8 _iPrinted edition:
_z9789819976621
776 0 8 _iPrinted edition:
_z9789819976638
856 4 0 _uhttps://doi.org/10.1007/978-981-99-7661-4
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