| [1] | E.Mooij, "Aerospace-plane flight dynamics:analysis of guidance and control concepts, "Ph.D.dissertation, Delft University of Technology, The Netherlands, 1998. https://www.researchgate.net/publication/27350802_Aerospace-plane_flight_dynamics_analysis_of_guidance_and_control_concepts |
| [2] | A.J.Roenneke and K.H.Well, "Nonlinear flight control for a high-lift reentry vehicle, "in Guidance, Navigation, and Control Conf., Guidance, Navigation, and Control and Co-located Conf., Baltimore, MD, 1995, pp.1798-1805. https://www.researchgate.net/publication/27350802_Aerospace-plane_flight_dynamics_analysis_of_guidance_and_control_concepts |
| [3] | H.X.Wu and B.Meng, "Review on the control of hypersonic flight vehicles, "Adv.Mechan., vol.39, no.6, pp.756-765, Nov.2009. |
| [4] | J.M.Hanson, "A plan for advanced guidance and control technology for 2nd generation reusable launch vehicles, "in AIAA Guidance, Navigation, and Control Conf.and Exhibit, Guidance, Navigation, and Control and Co-located Conf.Monterey, California, USA, 2002, pp.1-9. |
| [5] | D.Ito, J.Georgie, J.Valasek, and D.T.Ward, "Reentry vehicle flight controls design guidelines:dynamic inversion, "Technical Report NASA/TP-2002-210771, Mar.1, 2002. http://www.researchgate.net/publication/24299989_Reentry_Vehicle_Flight_Controls_Design_Guidelines_Dynamic_Inversion |
| [6] | C.Y.Wang, Y.Luo, and Y.Q.Chen, "An analytical design of fractional order proportional integral and[proportional integral]controllers for robust velocity servo, "in Proc.4th IEEE Conf.Industrial Electronics and Applications (ICIEA 2009), Xi'an, China, 2009, pp.3448-3453. http://ieeexplore.ieee.org/document/5138847/ |
| [7] | B.C.Zhang, S.F.Wang, Z.P.Han, and C.M.Li, "Using fractionalorder PID controller for control of aerodynamic missile, "J.Astronaut., vol.26, no.5, pp.653-656, Sep.2005. http://en.cnki.com.cn/Article_en/CJFDTOTAL-YHXB200505024.htm |
| [8] | R.J.Adams, J.M.Buffington, and S.S.Banda, "Design of nonlinear control laws for high-angle-of-attack flight, "J.Guid.Contr.Dynam., vol.17, no.4, pp.737-746, Jul.1994. https://www.researchgate.net/publication/245430888_Design_of_nonlinear_control_laws_for_high-angle-of-attack_flight?_sg=xGA8fbtithWUyfkYNGuirIsPtAruXlwZjE5crNjuIky0JBhI-UEvJg3lSPQQ03oA9bfFfS91TTxO6sJAMzRF6A |
| [9] | E.B.Jackson and C.I.Cruz, "Preliminary subsonic aerodynamic model for simulation studies of the HL-20 lifting body, "Technical Report NASA TM-4302, Sep.1992. http://dl.acm.org/citation.cfm?id=887880 |
| [10] | E.B.Jackson, C.I.Cruz, and W.A.Ragsdale, "Real-time simulation model of the HL-20 lifting body, "Technical Report NASA TM-107580, Aug.1992. https://en.wikipedia.org/wiki/Real-time_simulation |
| [11] | J.Reiner, G.J.Balas, and W.L.Garrard, "Flight control design using robust dynamic inversion and time-scale separation, "Automatica, vol.32, no.11, pp.1493-1504, Nov.1996. https://experts.umn.edu/en/publications/flight-control-design-using-robust-dynamic-inversion-and-time-sca |
| [12] | I.Podlubny, "Fractional-order systems and PIλDμ-controllers, "IEEE Trans.Automat.Contr., vol.44, no.1, pp.208-214, Jan.1999. http://adsabs.harvard.edu/abs/2016ammi.conf..475H |
| [13] | X.Yuan, H.Y.Zhang, and J.B.Yu, "Fractional-order derivative and design of fractional digital differentiators, "Acta Electron.Sin., vol.32, no.10, pp.1658-1665, Oct.2004. http://en.cnki.com.cn/Article_en/CJFDTOTAL-DZXU200410016.htm |
| [14] | J.Y.Cao and B.G.Cao, "Digital realization and characteristics of fractional order controllers, "Contr.Theor.Appl., vol.23, no.5, pp.791-799, Oct.2006. https://www.researchgate.net/publication/265638193_Digital_realization_and_characteristics_of_fractional_order_controllers |
| [15] | W.T.Ma, Q.Z.Zhang, B.B.Shi, and C.Gao, "Robust control approach for re-entry vehicle based on inversion model, "in Proc.29th Chinese Control Conf., Beijing, China, 2010, pp.2005-2009. http://yadda.icm.edu.pl/yadda/element/bwmeta1.element.ieee-000005573429 |
| [16] | H.B.Duan and P.X.Qiao, "Pigeon-inspired optimization:a new swarm intelligence optimizer for air robot path planning, "Int.J.Intell.Comput. Cybernet., vol.7, no.1, pp.24-37, Feb.2014. https://www.deepdyve.com/lp/emerald-publishing/pigeon-inspired-optimization-a-new-swarm-intelligence-optimizer-for-E6GzH6QxcJ |
| [17] | H.B.Duan and X.H.Wang, "Echo state networks with orthogonal pigeon-inspired optimization for image restoration, "IEEE Trans.Neural Network.Learn.Syst., vol.27, no.11, pp.2413-2425, Nov.2016. http://ieeexplore.ieee.org/document/7308059/ |
| [18] | H.B.Duan, H.X.Qiu, and Y.M.Fan, "Unmanned aerial vehicle close formation cooperative control based on predatory escaping pigeon-inspired optimization, "Sci.China Technol.Sci., vol.45, no.6, pp.559-572, Apr.2015. http://tech.scichina.com:8082/sciE/EN/abstract/abstract517949.shtml |
| [19] | B.Zhang and H.B.Duan, "Three-dimensional path planning for uninhabited combat aerial vehicle based on predator-prey pigeon-inspired optimization in dynamic environment, "IEEE/ACM Trans.Computat. Biol.Bioinf., 2017, to be published, DOI:10.1109/TCBB.2015.2443789. |
| [20] | L.R.Ray and R.F.Stengel, "Application of stochastic robustness to aircraft control systems, "J.Guid.Contr.Dynam., vol.14, no.6, pp.1251-1259, Nov.1991. https://www.researchgate.net/publication/297233087_APPLICATION_OF_STOCHASTIC_ROBUSTNESS_TO_AIRCRAFT_CONTROL-SYSTEMS?_sg=hdvO1NTNlcaYT2fAuM3qEekypPKPq5ba9eDk5sAhcx9imhSMw8sLd-62APtNz8rVFbqHB0WfzdwSKhBi9gKK-Q |
| [21] | C.I.Marrison and R.F.Stengel, "Design of robust control systems for a hypersonic aircraft, "J.Guid.Contr.Dynam., vol.21, no.1, pp.58-63, Jan.1998. doi: 10.2514/2.4197 |
| [22] | Q.Wang and R.F.Stengel, "Robust nonlinear control of a hypersonic aircraft, "J.Guid.Contr.Dynam., vol.23, no.4, pp.577-585, Jul.2000. http://www.wenkuxiazai.com/doc/d5cd560c7cd184254b3535d9-2.html |
| [23] | S.T.Wu, Stochastic Robustness Analysis and Design for Guidance and Control System of Winged Missile.Beijing:National Defense Industry Press, 2010. |