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Main Authors: Shang, Wen, Liao, Yuan, Friderikos, Vasilis, Yanikomeroglu, Halim
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.15341
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author Shang, Wen
Liao, Yuan
Friderikos, Vasilis
Yanikomeroglu, Halim
author_facet Shang, Wen
Liao, Yuan
Friderikos, Vasilis
Yanikomeroglu, Halim
contents Despite the significant attention that aerial base stations (ABSs) have received recently, their practical implementation is severely weakened by their limited endurance due to the battery constraints of drones. To overcome this fundamental limitation and barrier for wider adoption, we propose the concept of robotic aerial base stations (RABSs) that are equipped with energy-neutral anchoring end-effectors able to autonomously grasp or perch on tall urban landforms. Thanks to the energy-efficient anchoring operation, RABSs could offer seamless wireless connectivity for multiple hours compared to minutes of the typical hovering-based ABSs. Therefore, the prolonged service capabilities of RABSs allowing them to integrate into the radio access network and augment the network capacity where and when needed. To set the scene, we discuss the key components of the proposed RABS concept including hardware, workflow, communication considerations, and regulation issues. Then, the advantages of RABSs are highlighted which is followed by case studies that compare RABSs with terrestrial micro BSs and other types of non-terrestrial communication infrastructure, such as hovering-based, tethered, and laser-powered ABSs.
format Preprint
id arxiv_https___arxiv_org_abs_2511_15341
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Anchor-and-Connect: Robotic Aerial Base Stations Transforming 6G Infrastructure
Shang, Wen
Liao, Yuan
Friderikos, Vasilis
Yanikomeroglu, Halim
Emerging Technologies
Despite the significant attention that aerial base stations (ABSs) have received recently, their practical implementation is severely weakened by their limited endurance due to the battery constraints of drones. To overcome this fundamental limitation and barrier for wider adoption, we propose the concept of robotic aerial base stations (RABSs) that are equipped with energy-neutral anchoring end-effectors able to autonomously grasp or perch on tall urban landforms. Thanks to the energy-efficient anchoring operation, RABSs could offer seamless wireless connectivity for multiple hours compared to minutes of the typical hovering-based ABSs. Therefore, the prolonged service capabilities of RABSs allowing them to integrate into the radio access network and augment the network capacity where and when needed. To set the scene, we discuss the key components of the proposed RABS concept including hardware, workflow, communication considerations, and regulation issues. Then, the advantages of RABSs are highlighted which is followed by case studies that compare RABSs with terrestrial micro BSs and other types of non-terrestrial communication infrastructure, such as hovering-based, tethered, and laser-powered ABSs.
title Anchor-and-Connect: Robotic Aerial Base Stations Transforming 6G Infrastructure
topic Emerging Technologies
url https://arxiv.org/abs/2511.15341