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Main Authors: Kohler, Christina, Plooij, Michiel, Peña-Perez, Nuria, Schwab, Arend L., Vallery, Heike
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2606.00201
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author Kohler, Christina
Plooij, Michiel
Peña-Perez, Nuria
Schwab, Arend L.
Vallery, Heike
author_facet Kohler, Christina
Plooij, Michiel
Peña-Perez, Nuria
Schwab, Arend L.
Vallery, Heike
contents Designing robots for high-torque, high-fidelity haptic interaction is challenging. Parallel Elastic Actuators (PEAs) use elastic elements in parallel to smaller motors to complement torques, and Series Elastic Actuators (SEAs) use elastic elements in series to decouple motor impedance and improve force control. Recent work combines SEAs and PEAs to obtain both benefits but requires separate elastic elements or clutching. This paper presents the Series Parallel Integrated Nonlinear Elastic Actuator (SPINEA), which merges SEA and PEA such that a single elastic element takes on dual roles simultaneously, parallel and series. This is achieved by a nonlinear transmission in which the motor and load have misaligned rotation axes and are elastically connected. This geometry enables both high peak torque and precise torque tracking. We apply SPINEA to actuate lean of a haptic bicycle simulator, which requires high moments and precise rendering for safe and realistic rider interactions. We realized a prototype and performed experiments, both with an external excitation setup and with riders cycling. Our results confirm SPINEA's low impedance and precise torque tracking, up to 4.25 Hz with the bicycle frame fixed and up to 4 Hz with riders. The benefits may transfer to other applications requiring compact, high-performance actuation.
format Preprint
id arxiv_https___arxiv_org_abs_2606_00201
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Series-Parallel Integrated Nonlinear Elastic Actuator applied to the lean motion of a bicycle simulator
Kohler, Christina
Plooij, Michiel
Peña-Perez, Nuria
Schwab, Arend L.
Vallery, Heike
Robotics
Designing robots for high-torque, high-fidelity haptic interaction is challenging. Parallel Elastic Actuators (PEAs) use elastic elements in parallel to smaller motors to complement torques, and Series Elastic Actuators (SEAs) use elastic elements in series to decouple motor impedance and improve force control. Recent work combines SEAs and PEAs to obtain both benefits but requires separate elastic elements or clutching. This paper presents the Series Parallel Integrated Nonlinear Elastic Actuator (SPINEA), which merges SEA and PEA such that a single elastic element takes on dual roles simultaneously, parallel and series. This is achieved by a nonlinear transmission in which the motor and load have misaligned rotation axes and are elastically connected. This geometry enables both high peak torque and precise torque tracking. We apply SPINEA to actuate lean of a haptic bicycle simulator, which requires high moments and precise rendering for safe and realistic rider interactions. We realized a prototype and performed experiments, both with an external excitation setup and with riders cycling. Our results confirm SPINEA's low impedance and precise torque tracking, up to 4.25 Hz with the bicycle frame fixed and up to 4 Hz with riders. The benefits may transfer to other applications requiring compact, high-performance actuation.
title Series-Parallel Integrated Nonlinear Elastic Actuator applied to the lean motion of a bicycle simulator
topic Robotics
url https://arxiv.org/abs/2606.00201