Enabling Safety for Aerial Robots: Planning and Control Architectures
Kaleb Ben Naveed
Devansh R. Agrawal
Daniel M. Cherenson
Haejoon Lee
Alia Gilbert
Hardik Parwana
Vishnu S. Chipade
William Bentz
Dimitra Panagou
Abstract
Ensuring safe autonomy is crucial for deploying aerial robots in real-world applications. However, safety is a multifaceted challenge that must be addressed from multiple perspectives, including navigation in dynamic environments, operation under resource constraints, and robustness against adversarial attacks and uncertainties. In this paper, we present the authors' recent work that tackles some of these challenges and highlights key aspects that must be considered to enhance the safety and performance of autonomous aerial systems. All presented approaches are validated through hardware experiments.
View on arXiv@article{naveed2025_2504.08601,
title={ Enabling Safety for Aerial Robots: Planning and Control Architectures },
author={ Kaleb Ben Naveed and Devansh R. Agrawal and Daniel M. Cherenson and Haejoon Lee and Alia Gilbert and Hardik Parwana and Vishnu S. Chipade and William Bentz and Dimitra Panagou },
journal={arXiv preprint arXiv:2504.08601},
year={ 2025 }
}Comments on this paper