Celâl Ada scite author profile

Celâl Ada

2Publications

7Citation Statements Received

58Citation Statements Given

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Aselsan (Turkey)

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Design and comparison of autopilots of an air-to-surface antitank missile and its terminal guidance study

Ada

Kural

2012

Proceedings of the Institution of Mechanical Engineers, Part G:

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The design of the autopilot is one of the most important algorithms of missiles. Performance of the autopilot and its robustness are significant matters to hit a target accurately. The autopilot should satisfy the desired performance under disturbances. In the scope of this study, three autopilots were offered for tracking pitch acceleration command using different control methods: three-loop classic control, pole-placement control and receding horizon predictive control. The aim of the autopilot designed by employing receding horizon predictive control is to minimize the flight control effort, and to make the close-loop system insensitive against modelling uncertainties and stochastic shattering factors. This study comes up with that the missile is able to move in desired performance under disturbances such as control surface misplacement, thrust misalignment, wind and aerodynamic uncertainties with more robustness, less control effort and minimum miss distance and terminal time using an alternative control method instead of classic and poleplacement control methods which are generally referred by the defence industry. KeywordsMissile pitch autopilot, three-loop control, pole-placement control, receding horizon predictive control, pitch mathematical model of missile Date

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Three-axes predictive control of autopilot for missile

Ada

Kural

2017

AEAT

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Purpose The purpose of this paper is to present the autopilot design for the missile under various disturbances. Design/methodology/approach In this study, model predictive control (MPC) method has been used for autopilot design for each axis. The aim of autopilot is that to keep the roll angle value around the zero degree and to track pitch/yaw acceleration commands. This three-axes control methodology also takes into consideration the interaction between pitch, yaw and roll motions. Findings The purpose of using MPC method for three-axes of the autopilot is to decrease the control effort and to make the close-loop system insensitive against modeling uncertainties and stochastic effects. Originality/value This study shows that the missile is able to reach to the desired target with good robustness, low control effort and little miss-distance under disturbances such as aerodynamic uncertainties, thrust misalignment and gust affect by using this alternative control method.

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Celâl Ada

Design and comparison of autopilots of an air-to-surface antitank missile and its terminal guidance study

Three-axes predictive control of autopilot for missile

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