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Auteurs principaux: Celli, Camilla, Bini, Andrea, Novelli, Valerio, Filippeschi, Alessandro, Porcini, Francesco, Frisoli, Antonio
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.26347
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author Celli, Camilla
Bini, Andrea
Novelli, Valerio
Filippeschi, Alessandro
Porcini, Francesco
Frisoli, Antonio
author_facet Celli, Camilla
Bini, Andrea
Novelli, Valerio
Filippeschi, Alessandro
Porcini, Francesco
Frisoli, Antonio
contents In haptics, guaranteeing stability is essential to ensure safe interaction with remote or virtual environments. One of the most relevant methods at the state-of-the-art is the Time Domain Passivity Approach (TDPA). However, its high conservatism leads to a significant degradation of transparency. Moreover, the stabilizing action may conflict with the device's physical limitations. State-of-the-art solutions have attempted to address these actuator limits, but they still fail to account simultaneously for the power limits of each actuator while maximizing transparency. This work proposes a new damping limitation method based on prioritized dissipation actions. It prioritizes an optimal dissipation direction that minimizes actuator load, while any excess dissipation is allocated to the orthogonal hyperplane. The solution provides a closed-form formulation and is robust in multi-DoF scenarios, even in the presence of actuator and motion anisotropies. The method is experimentally validated using a parallel haptic interface interacting with a virtual environment and tested under different operating conditions.
format Preprint
id arxiv_https___arxiv_org_abs_2603_26347
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Optimal Prioritized Dissipation and Closed-Form Damping Limitation under Actuator Constraints for Haptic Interfaces
Celli, Camilla
Bini, Andrea
Novelli, Valerio
Filippeschi, Alessandro
Porcini, Francesco
Frisoli, Antonio
Robotics
Systems and Control
In haptics, guaranteeing stability is essential to ensure safe interaction with remote or virtual environments. One of the most relevant methods at the state-of-the-art is the Time Domain Passivity Approach (TDPA). However, its high conservatism leads to a significant degradation of transparency. Moreover, the stabilizing action may conflict with the device's physical limitations. State-of-the-art solutions have attempted to address these actuator limits, but they still fail to account simultaneously for the power limits of each actuator while maximizing transparency. This work proposes a new damping limitation method based on prioritized dissipation actions. It prioritizes an optimal dissipation direction that minimizes actuator load, while any excess dissipation is allocated to the orthogonal hyperplane. The solution provides a closed-form formulation and is robust in multi-DoF scenarios, even in the presence of actuator and motion anisotropies. The method is experimentally validated using a parallel haptic interface interacting with a virtual environment and tested under different operating conditions.
title Optimal Prioritized Dissipation and Closed-Form Damping Limitation under Actuator Constraints for Haptic Interfaces
topic Robotics
Systems and Control
url https://arxiv.org/abs/2603.26347