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Main Authors: Zhang, Dingqi, Tao, Ran, Cheng, Sheng, Hovakimyan, Naira, Mueller, Mark W.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.03471
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author Zhang, Dingqi
Tao, Ran
Cheng, Sheng
Hovakimyan, Naira
Mueller, Mark W.
author_facet Zhang, Dingqi
Tao, Ran
Cheng, Sheng
Hovakimyan, Naira
Mueller, Mark W.
contents Robust adaptive control methods are essential for maintaining quadcopter performance under external disturbances and model uncertainties. However, fragmented evaluations across tasks, simulators, and implementations hinder systematic comparison of these methods. This paper introduces an easy-to-deploy, modular simulation testbed for quadcopter control, built on RotorPy, that enables evaluation under a wide range of disturbances such as wind, payload shifts, rotor faults, and control latency. The framework includes a library of representative adaptive and non-adaptive controllers and provides task-relevant metrics to assess tracking accuracy and robustness. The unified modular environment enables reproducible evaluation across control methods and eliminates redundant reimplementation of components such as disturbance models, trajectory generators, and analysis tools. We illustrate the testbed's versatility through examples spanning multiple disturbance scenarios and trajectory types, including automated stress testing, to demonstrate its utility for systematic analysis. Code is available at https://github.com/Dz298/AdaptiveQuadBench.
format Preprint
id arxiv_https___arxiv_org_abs_2510_03471
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Simulation Evaluation Suite for Robust Adaptive Quadcopter Control
Zhang, Dingqi
Tao, Ran
Cheng, Sheng
Hovakimyan, Naira
Mueller, Mark W.
Robotics
Robust adaptive control methods are essential for maintaining quadcopter performance under external disturbances and model uncertainties. However, fragmented evaluations across tasks, simulators, and implementations hinder systematic comparison of these methods. This paper introduces an easy-to-deploy, modular simulation testbed for quadcopter control, built on RotorPy, that enables evaluation under a wide range of disturbances such as wind, payload shifts, rotor faults, and control latency. The framework includes a library of representative adaptive and non-adaptive controllers and provides task-relevant metrics to assess tracking accuracy and robustness. The unified modular environment enables reproducible evaluation across control methods and eliminates redundant reimplementation of components such as disturbance models, trajectory generators, and analysis tools. We illustrate the testbed's versatility through examples spanning multiple disturbance scenarios and trajectory types, including automated stress testing, to demonstrate its utility for systematic analysis. Code is available at https://github.com/Dz298/AdaptiveQuadBench.
title A Simulation Evaluation Suite for Robust Adaptive Quadcopter Control
topic Robotics
url https://arxiv.org/abs/2510.03471