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Main Authors: Barsoum, Demiana R., Javaremi, Mahdieh Nejati, Loke, Larisa Y. C., Argall, Brenna D.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.23287
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author Barsoum, Demiana R.
Javaremi, Mahdieh Nejati
Loke, Larisa Y. C.
Argall, Brenna D.
author_facet Barsoum, Demiana R.
Javaremi, Mahdieh Nejati
Loke, Larisa Y. C.
Argall, Brenna D.
contents Assistive robots offer agency to humans with severe motor impairments. Often, these users control high-DoF robots through low-dimensional interfaces, such as using a 1-D sip-and-puff interface to operate a 6-DoF robotic arm. This mismatch results in having access to only a subset of control dimensions at a given time, imposing unintended and artificial constraints on robot motion. As a result, interface-limited demonstrations embed suboptimal motions that reflect interface restrictions rather than user intent. To address this, we present a trajectory reconstruction algorithm that reasons about task, environment, and interface constraints to lift demonstrations into the robot's full control space. We evaluate our approach using real-world demonstrations of ADL-inspired tasks performed via a 2-D joystick and 1-D sip-and-puff control interface, teleoperating two distinct 7-DoF robotic arms. Analyses of the reconstructed demonstrations and derived control policies show that lifted trajectories are faster and more efficient than their interface-constrained counterparts while respecting user preferences.
format Preprint
id arxiv_https___arxiv_org_abs_2602_23287
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Interface-Aware Trajectory Reconstruction of Limited Demonstrations for Robot Learning
Barsoum, Demiana R.
Javaremi, Mahdieh Nejati
Loke, Larisa Y. C.
Argall, Brenna D.
Robotics
Assistive robots offer agency to humans with severe motor impairments. Often, these users control high-DoF robots through low-dimensional interfaces, such as using a 1-D sip-and-puff interface to operate a 6-DoF robotic arm. This mismatch results in having access to only a subset of control dimensions at a given time, imposing unintended and artificial constraints on robot motion. As a result, interface-limited demonstrations embed suboptimal motions that reflect interface restrictions rather than user intent. To address this, we present a trajectory reconstruction algorithm that reasons about task, environment, and interface constraints to lift demonstrations into the robot's full control space. We evaluate our approach using real-world demonstrations of ADL-inspired tasks performed via a 2-D joystick and 1-D sip-and-puff control interface, teleoperating two distinct 7-DoF robotic arms. Analyses of the reconstructed demonstrations and derived control policies show that lifted trajectories are faster and more efficient than their interface-constrained counterparts while respecting user preferences.
title Interface-Aware Trajectory Reconstruction of Limited Demonstrations for Robot Learning
topic Robotics
url https://arxiv.org/abs/2602.23287