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Main Authors: Seisa, Achilleas Santi, Sankaranarayanan, Viswa Narayanan, Damigos, Gerasimos, Satpute, Sumeet Gajanan, Nikolakopoulos, George
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.04095
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author Seisa, Achilleas Santi
Sankaranarayanan, Viswa Narayanan
Damigos, Gerasimos
Satpute, Sumeet Gajanan
Nikolakopoulos, George
author_facet Seisa, Achilleas Santi
Sankaranarayanan, Viswa Narayanan
Damigos, Gerasimos
Satpute, Sumeet Gajanan
Nikolakopoulos, George
contents Cloud robotics has emerged as a promising technology for robotics applications due to its advantages of offloading computationally intensive tasks, facilitating data sharing, and enhancing robot coordination. However, integrating cloud computing with robotics remains a complex challenge due to network latency, security concerns, and the need for efficient resource management. In this work, we present a scalable and intuitive framework for testing cloud and edge robotic systems. The framework consists of two main components enabled by containerized technology: (a) a containerized cloud cluster and (b) the containerized robot simulation environment. The system incorporates two endpoints of a User Datagram Protocol (UDP) tunnel, enabling bidirectional communication between the cloud cluster container and the robot simulation environment, while simulating realistic network conditions. To achieve this, we consider the use case of cloud-assisted remote control for aerial robots, while utilizing Linux-based traffic control to introduce artificial delay and jitter, replicating variable network conditions encountered in practical cloud-robot deployments.
format Preprint
id arxiv_https___arxiv_org_abs_2509_04095
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Cloud-Assisted Remote Control for Aerial Robots: From Theory to Proof-of-Concept Implementation
Seisa, Achilleas Santi
Sankaranarayanan, Viswa Narayanan
Damigos, Gerasimos
Satpute, Sumeet Gajanan
Nikolakopoulos, George
Robotics
Distributed, Parallel, and Cluster Computing
Cloud robotics has emerged as a promising technology for robotics applications due to its advantages of offloading computationally intensive tasks, facilitating data sharing, and enhancing robot coordination. However, integrating cloud computing with robotics remains a complex challenge due to network latency, security concerns, and the need for efficient resource management. In this work, we present a scalable and intuitive framework for testing cloud and edge robotic systems. The framework consists of two main components enabled by containerized technology: (a) a containerized cloud cluster and (b) the containerized robot simulation environment. The system incorporates two endpoints of a User Datagram Protocol (UDP) tunnel, enabling bidirectional communication between the cloud cluster container and the robot simulation environment, while simulating realistic network conditions. To achieve this, we consider the use case of cloud-assisted remote control for aerial robots, while utilizing Linux-based traffic control to introduce artificial delay and jitter, replicating variable network conditions encountered in practical cloud-robot deployments.
title Cloud-Assisted Remote Control for Aerial Robots: From Theory to Proof-of-Concept Implementation
topic Robotics
Distributed, Parallel, and Cluster Computing
url https://arxiv.org/abs/2509.04095