Dither in a rolling airframe flight vehicle with a two-position actuator: An amplitude distribution approach

Mohammadi, Bahram; Arvan, Mohammad Reza; Koohmaskan, Yousof

doi:10.1177/0142331216631190

Cited by 4 publications

(2 citation statements)

References 19 publications

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“…This shows a dynamically stable behavior. This result is compatible with that of (Mohammadi et al, 2016). It can also be seen that the angular motion in real actuator is shifted down, in comparison with ideal actuator.…”

Section: Angular Motion Of On-off Controlled Airframesupporting

confidence: 88%

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A New Closed Form Solution for Dynamic Stability Analysis of Rolling Airframes Having One Pair on-Off Actuator

Karimi

2021

Aviation

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In this paper, the dynamic stability analysis of a rolling airframe actuated by one pair ON-OFF actuator using linear theory is presented via developing a new closed form solution. The effect of discontinuous forcing term on rolling airframe stability is studied. In contrast to tricyclic motion with constant forcing term (constant non-homogeneous term) in which only the amplitude of nutation and precession is affected, it is found that ON-OFF control affects both amplitude and phase of nutation and precession motions. In the case of discontinuous control surface, there are two sources for resonance instability. Finally, through simulation results of closed form solutions, a comparison between airframe’ response to ideal and real ON-OFF command is achieved. The effect of ON-OFF control on angular motion is also evaluated.

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Section: Angular Motion Of On-off Controlled Airframesupporting

confidence: 88%

“…State space form of 4-DOF dynamic equation in nonrolling frame is written as follows (Mohammadi et al, 2016):…”

Section: Airframe Equations Of Motionmentioning

confidence: 99%

A New Closed Form Solution for Dynamic Stability Analysis of Rolling Airframes Having One Pair on-Off Actuator

Karimi

2021

Aviation

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Back‐stepping sliding mode control of one degree of freedom flight motion table

Zarei

Arvan

Vali

et al. 2019

Asian Journal of Control

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A one degree of freedom flight motion table is used to simulate the rotational movement of flying objects in hardware‐in‐the‐loop laboratories. This table uses a dual motor driving servo system. Owing to the existence of a gear transmission system, the backlash nonlinear function on modeling is inevitable, system equations are non‐affine and back‐stepping theory cannot handle this kind of system directly. Through new modeling of the backlash function as the summation of certain and uncertain parts, a proper structure for the controller algorithm is created. The controller is constructed through a back‐stepping sliding mode control algorithm. The back‐stepping concept allows the control algorithm to be extended to a high‐order dynamical system. Meanwhile, the SMC could eliminate these system uncertainties as it has a match perturbation with a virtual or real input signal of the subsystem. For non‐measurable variables, a sliding mode observer is also designed. The simulation results clearly demonstrate the superiority of the proposed method in comparison with conventional PID/FO‐PID control methods in angular tracking and speed synchronization.

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