Path constrained trajectory optimization using sparse sequential quadratic programming

Betts, John T.; Huffman, William P.

doi:10.2514/6.1991-2739

Cited by 29 publications

(39 citation statements)

References 7 publications

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“…As a result, we reduced the original problem to a nonlinear programming problem, meaning we obtained a problem of minimization for the scalar function of several (but not tens as in Refs. [24][25][26][27][28][29][30][31][32][33][34][35][36] variables:…”

Section: E Minimization Of Multivariable Scalar Functionmentioning

confidence: 99%

“…Hargraves and Paris, 24 von Stryk and Bulirsch, 25 Convay and colleagues, 26,27 Betts, 28 Calise and Leung, 29 Hull, 30 and others used the so-called collocation-based or direct transcription methods, which are similar in many respects to Galerkin's procedure. They reduce the initial problem by segmenting the time interval into the 5-20 pieces and representing the solution both for state variables and controls by piecewise polynomials (constants).…”

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confidence: 99%

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Direct Method for Rapid Prototyping of Near-Optimal Aircraft Trajectories

Yakimenko

2000

Journal of Guidance, Control, and Dynamics

165

125

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A direct method for a real-time generation of near-optimal spatial trajectories of short-term maneuvers onboard a ying vehicle with predetermined thrust history is introduced. The paper starts with a survey about the founders of the direct methods of calculus of variations and their followers in ight mechanics, both in Russia and in the United States. It then describes a new direct method based on three cues: high-order polynomials from the virtual arc as a reference function for aircraft's coordinates, a preset history of one of the controls (thrust), and a few optimization parameters. The trajectory optimization problem is transformed into a nonlinear programming problem and then solved numerically using an appropriate algorithm in accelerated scale of time. A series of examples is presented. Calculated near-optimal trajectory is compared with real ight data, and with the solution obtainedby Pontryagin's maximumprinciple. Fast convergence of the numerical algorithm,which has been already implemented and tested onboard a real aircraft, is illustrated. Nomenclature a ik= polynomial coef cients g = acceleration due to gravity J = cost function j = quantity pertaining to the j th time node m = aircraft mass N = number of nodes n = polynomial order n = relative revolutions of engine's rotor n x , n z = tangential and normal projections of load factor, respectively Sh = penalty function T,T = total thrust and relative thrust (fraction of maximum thrust), respectively CONCEPT of the onboard pilot's support system (PSS; electronic copilot or pilot associate) assumes the presenceof a sub-

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Section: E Minimization Of Multivariable Scalar Functionmentioning

confidence: 99%

mentioning

confidence: 99%

Direct Method for Rapid Prototyping of Near-Optimal Aircraft Trajectories

Yakimenko

2000

Journal of Guidance, Control, and Dynamics

165

125

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“…Hargraves et al (1981) present the state trajectories with high-order patched polynomials, whose coefficients are the decision variables. Betts and Huffman (1993) discuss trapetzoidal, HermiteSimpson and Runge-Kutta discretization. In the following we describe two schemes, direct collocation and a recently proposed method based on differential inclusions Seywald (1994).…”

Section: Introductionmentioning

confidence: 99%

Aircraft trajectory optimization using nonlinear programming

Raivio¹,

Ehtamo²,

Hämäläinen³

1996

System Modelling and Optimization

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“…The basic approach to solve the optimal control problem by Euler transcription has been presented in details in (Betts 1994;Betts and Huffman 1993). However, in what follows, we shortly recall Euler method for solving SOCP (1).…”

Section: Stage I: Direct Euler Methodsmentioning

confidence: 99%

A Hybrid Direct–Indirect Approach for Solving the Singular Optimal Control Problems of Finite and Infinite Order

Foroozandeh

Shamsi

Pinho

2017

Iran J Sci Technol Trans Sci

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This paper presents a hybrid approach to solve singular optimal control problems. It combines the direct Euler method with a modified indirect shooting method. The presented method circumvents the main difficulties and drawbacks of both the direct and indirect methods, when applied to the singular optimal control problems. This method does not require a priori knowledge of the switching structure of the solution and it can be applied to finite or infinite order singular optimal control problems. It provides not only an approximate optimal solution for the problem but, remarkably, it also produces the switching times. We illustrate the features of this new approach treating numerically through two optimal control problems, one of finite order and the other with infinite order.

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Path constrained trajectory optimization using sparse sequential quadratic programming

Cited by 29 publications

References 7 publications

Direct Method for Rapid Prototyping of Near-Optimal Aircraft Trajectories

Direct Method for Rapid Prototyping of Near-Optimal Aircraft Trajectories

Aircraft trajectory optimization using nonlinear programming

A Hybrid Direct–Indirect Approach for Solving the Singular Optimal Control Problems of Finite and Infinite Order

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