What question did this study set out to answer?

The aim is to analyze the effects of force delay and dead zone in a space contact simulator and propose a compensation method.

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February 28, 2026

Distortion Analysis and Compensation for a Space Contact HIL Simulator with Force Delay and Dead Zone

Key Points

The aim is to analyze the effects of force delay and dead zone in a space contact simulator and propose a compensation method.
Developed an integrated compensator combining a hybrid Smith predictor with a dead zone observer.
Addressed both delay and dead zone distortions in simulation scenarios.
Performed verifications and applications to validate the proposed approach.
Demonstrated that a dead zone induces both divergence and convergence behaviors.
The proposed method effectively mitigated distortions, improving simulator stability.
Validations confirmed the effectiveness of the compensation approach.

Abstract

A space contact hardware-in-the-loop (HIL) simulator is a key facility for ground testing of space contact processes. It must faithfully reproduce the dynamics in space. Force delay is known to induce instability. To suppress velocity drift from noisy force signals, a dead zone is often introduced. In this study, we show that a dead zone is able to not only induce divergence, but also induce convergence. To address this issue, we propose an integrated compensator that combines a hybrid Smith predictor with a dead zone disturbance observer. It jointly addresses delay and dead zone distortions. The proposed method is effective for both divergent and convergent distortions. Verifications and applications validate the approach.

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