Terminal Velocity Maximization of Air-to-Air Missiles in Agile Turn Phase

Abstract: Abstract.Terminal velocity maximization of air-to-air agile missiles during agile turn phase is studied. It is important to make sure that agile missiles have enough velocity after agile turn stage in order to impact the target. The agile turn is operated during the boost phase. Thus, the agile turn problem is formulated as terminal velocity maximization with given final time. Optimal solutions are obtained by two different methods, pseudospectral method and parameterized costate optimization method. The param… Show more

“…The cost function and algebraic constraints in Equation ( 9) define the transformed problem, whose solution is an approximate solution to the original trajectory planning problem from the time t 0 to t f . This fundamental framework has been utilized by various research studies for numerous applications and is now considered a pretty robust and widely acceptable technique for ground, aerial, space, and underwater trajectory optimization problems [58][59][60][61][62][63][64][65][66][67][68][69][70][71][72][73][74][75].…”

A Survey of Trajectory Planning Techniques for Autonomous Systems

“…The cost function and algebraic constraints in Equation ( 9) define the transformed problem, whose solution is an approximate solution to the original trajectory planning problem from the time t 0 to t f . This fundamental framework has been utilized by various research studies for numerous applications and is now considered a pretty robust and widely acceptable technique for ground, aerial, space, and underwater trajectory optimization problems [58][59][60][61][62][63][64][65][66][67][68][69][70][71][72][73][74][75].…”

A Survey of Trajectory Planning Techniques for Autonomous Systems

Velocity maximizing suboptimal control law for agile turn of air-to-air missile