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arxiv: 1909.05670 · v1 · pith:M6DF6PNW · submitted 2019-09-12 · eess.SY · cs.SY

Lead-Lag-Shaped Interactive Force Estimation by Equivalent Output Injection of Sliding-Mode

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classification eess.SY cs.SY
keywords interactiveestimationforceequivalentinjectionoutputsystemcontrol
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Estimation of interactive forces, which are mostly unavailable for direct measurement on the interface between a system and its environment, is an essential task in various motion control applications. This paper proposes an interactive force estimation method, based on the well-known equivalent output injection of the second-order sliding mode. The equivalent output injection is used to obtain a frequency-unshaped quantity that appears as a matched external disturbance and encompasses the interactive forces. Afterwards, a universal lead-lag shaper, depending on dynamics of the motion control system coupled with its environment, is used to extract an interactive force quantity. Once identified, the lead-lag shaper can be applied to the given system structure. An experimental case study, using a valvecontrolled hydraulic cylinder counteracted by the dynamic load, is demonstrated with an accurate estimation of the interactive force, that in comparison to the reference measurement.

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