Journal ArticleDOI
Constrained Control Allocation
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In this article, the problem of the allocation of several airplane flight controls to the generation of specified body-axis moments is addressed, and a direct method of allocating these several controls is presented that guarantees the maximum possible moment can be generated within the constraints of the controls.Abstract:
This paper addresses the problem of the allocation of several airplane flight controls to the generation of specified body-axis moments. The number of controls is greater than the number of moments being controlled, and the ranges of the controls are constrained to certain limits. They are assumed to be individually linear in their effect throughout their ranges of motion and independent of one another in their effects. The geometries of the subset of the constrained controls and of its image in moment space are examined. A direct method of allocating these several controls is presented that guarantees the maximum possible moment can be generated within the constraints of the controls. It is shown that no single generalized inverse can yield these maximum moments everywhere without violating some control constraint. A method is presented for the determination of a generalized inverse that satisfies given specifications which are arbitrary but restricted in number. We then pose and solve a minimization problem that yields the generalized inverse that best approximates the exact solutions. The results are illustrated at each step by an example problem involving three controls and two moments.read more
Citations
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Proceedings ArticleDOI
Minimum drag control allocation
TL;DR: In this paper, a modified version of the direct control allocation problem with rate limiting is considered, in which control generated drag is considered as a fourth objective (in addition to the 3 moments).
Proceedings ArticleDOI
Control allocation for systems with coplanar controls
John A. M. Petersen,Marc Bodson +1 more
TL;DR: In this article, the problem of distributing control requirements among multiple, redundant actuators in flight control systems is considered, and a control allocation solution is proposed for fast on-line execution, using spherical coordinates.
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Guaranteed feasible control allocation using model predictive control
TL;DR: A guaranteed feasible control allocation method based on the model predictive control to guarantee the determination of the desired virtual control signal using the pseudo inverse methodology and is described as a set of constraints of an MPC problem.
Automated Control Surface Design and Sizing for the Prandtl Plane
TL;DR: In this paper, the authors present a methodology for the design of the primary flight control surfaces, in terms of size, number and location, for fixed-wing aircraft (conventional or unconventional).
Journal ArticleDOI
Fast Exact Redistributed Pseudoinverse Method for Linear Actuation Systems
Johannes Stephan,Walter Fichter +1 more
TL;DR: A CGI variant is established, which provides an exact solution for attainable control demands and is based on the repeated usage of the pseudoinverse, which delivers improved results compared with the original CGI method while requiring similar complexity.
References
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Book
Modern Control Theory
TL;DR: The relationship between state variable and transfer function descriptions of linear feedback control systems is discussed in this paper, along with the relationship between the Cayley Hamilton Theorem and state variable descriptions of systems.
Journal ArticleDOI
Nonlinear inversion flight control for a supermaneuverable aircraft
TL;DR: In this article, the authors discuss the use of nonlinear dynamic inversion in the design of a flight control system for a Superman aircraft and compare it with a more conventional, gain-scheduled system and yield better performance in terms of lateral acceleration, sideslip, and control deflections.
Relative control effectiveness technique with application to airplane control coordination
TL;DR: In this paper, a method to select optimal combinations of the control variables of a linear system is reported, where the combinations are chosen so that the control channels have their principal influences on selected fundamental modes of the system.
Preliminary design study of a lateral-directional control system using thrust vectoring
TL;DR: In this article, a preliminary design of a lateral-directional control system for a fighter airplane capable of controlled operation at extreme angles of attack is developed, which is representative of a modern twin-engine high-performance jet fighter, equipped with ailerons, rudder, and independent horizontal-tail surfaces.