Leonardo Riccardi scite author profile

Magnetic shape memory (MSM) alloys are comparatively new active materials which can be used for several industrial applications, ranging from precise positioning systems to advanced robotics. Beyond the material research, which deals with the basic thermo‐magneto‐mechanical properties of the crystals, the design as well as the control of the actuators displacement is an essential challenge. This paper addresses those two topics, trying to give to the reader a useful overview of existing results, but also presents new ideas. First, it introduces and discusses in details some possible designs, with a special emphasis on innovative actuator design concepts which are able to exploit the particular potentialities of MSM elements. The second focus of the paper is on the problem of designing a controller, i.e., an algorithm that allows to obtain a required performance from the actuator. The proposed control strategies try to take into account two main characteristics of MSM elements: the hysteresis and the temperature dependence. The effectiveness of the strategies is emphasized by experimental results performed on a commercially available MSM actuator demonstrator.

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A precise positioning actuator based on feedback-controlled magnetic shape memory alloys

Riccardi

Naso

Janocha

et al. 2012

Mechatronics

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Adaptive Control of Positioning Systems With Hysteresis Based on Magnetic Shape Memory Alloys

Riccardi

Naso

Turchiano

et al. 2013

IEEE Trans. Contr. Syst. Technol.

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On PID control of dynamic systems with hysteresis using a Prandtl-Ishlinskii model

Riccardi

Naso

Turchiano

et al. 2012

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Adaptive modified Prandtl-Ishlinskii model for compensation of hysteretic nonlinearities in magnetic shape memory actuators

Riccardi

Naso

Turchiano

et al. 2011

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