[2] KAMYAR R, TAHERI E.Aircraft optimal terrain/threat-based trajectory planning and control[J].Journal of Gui-dance Control and Dynamics, 2014, 37(2):466-483.
[4] CAPOZZI B J.Evolution-based path planning and management for autonomous vehicles[D].Washington:University of Washington, 2001.
[5] FOO J L, KNUTZON J, KALIVARAPU V, et al.Path planning of unmanned aerial vehicles using B-splines and particle swarm optimization[J].Journal of Aerospace Computing, Information, and Communication, 2009, 6(4):271-290.
[9] RAO A V.A survey of numerical methods for optimal control[J].Advances in the Astronautical Sciences, 2009, 135(1):497-528.
[11] ROSS I M, KARPENKO M.A review of pseudospectral optimal control:from theory to flight[J].Annual Reviews in Control, 2012(36):182-197.
[12] KANG W, BEDROSSIAN N.Pseudospectral optimal control theory makes debut flight, saves NASA $1M in under three hours[J].SIAM News, 2007, 40(7):1-3.
[13] GARG D, PATTERSON M, HAGER W W, et al.A unified framework for the numerical solution of optimal control problems using pseudospectral methods[J].Automatica, 2010, 46(11):1843-1851.
[14] BENSON D.A Gauss pseudospectral transcription for optimal control[D].Bonston:Massachusetts Institute of Technology, 2005.
[15] FAHROO F, ROSS I M.Pseudospectral methods for infinite horizon optimal contorl problems[J].Journal of Guidance Control and Dynamics, 2008, 31(4):927-936.
[16] ELNAGAR G, KAZEMI M A, RAZZAGHI M.The pseu-dosepectral Legendre method for discretizing optimal control problems[J].IEEE Transactions on Automatic Control, 1995, 40(10):1793-1796.
[17] GARG D, PATTERSON M A, HAGER W W, et al.An overview of three pseudospectral methods for the numercial solution of optimal control problems[J].Advances in the Astronautical Sciences, 2009, 135(1):475-487.
[18] BENSON D A, HUNTINGTON G T, THORVALDSEN T P, et al.Direct trajectory optimization and costate estimation via an orthogonal collocation method[J].Journal of Guidance Control and Dynamics, 2006, 29(6):1435-1440.
[19] GARG D.Advances in global pseudospectral methods for optimal control[D].Gainesville:The University of Florida, 2011.
[20] PATTERSON M A, RAO A V.GPOPS-II:a matlab software for solving multiple-phase optimal control problems using HP-adpative Gaussian quadrature collocation methods and sparse nonlinear programming[J].ACM Tran-sactions on Mathematical Software, 2013, 39(3):1-41.
[21] DARBY C L.HP pseudospectral method for solving continous time nonlinear optimal control problems[D].Gainesville:The University of Florida, 2011.
[22] MOHAN K, PATTERSON M A, RAO A V.Optimal tra-jectory and control generation for landing of multiple aircraft in the presence of obstacles[C]//AIAA Guidance, Navigation, and Control Conference, 2012:1-16.
[23] PATTERSON M A, RAO A V.Exploiting sparsity in direct collocation pseudospectral methods for solving optimal control problems[J].Journal of Spacecraft and Rockets, 2012, 49(2):364-377.
[24] RAO A V, BENSON D A, DARBY C, et al.Algorithm 902:Gpops, a Matlab software for solving multiple-phase optimal control problems using the Gauss pseudospectral method[J].ACM Transactions on Mathematical Software (TOMS), 2010, 37(2):163-172.
[27] KABAMBA P T, MEERKOV S M, ZEITZ F H.Optimal path planning for unmanned combat:aerial vehicles to defeat radar tracking[J].Journal of Guidance, Control, and Dynamics, 2006, 29(2):279-288.
[30] PELOSI M, KOPP C, BROWN M.Ragne-limited UAV trajactory using terrain masking under radar detection risk[D].Fort Lauderdale:Nova Southeastern University, 2010.
[31] WILLIAMS P.Three-dimensional aircraft terrain-following via real-time optimal control[J].Journal of Guidance, Control, and Dynamics, 2007, 30(4):1201-1206.
[35] PRéVOST C G, DESBIENS A, GAGNON E, et al.Unmanned aerial vehicle optimal cooperative obstacle avoidance in a stochastic dynamic environment[J].Journal of Guidance, Control, and Dynamics, 2011, 34(1):29-43.06.
