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Main Authors: Mostardinha, Tiago, João Gameiro, Valente Mateus, Pedro, Rito, Pedro, Raposo, Duarte, Sargento, Susana, Marques, Carlos, Mesquita, Miguel, Cabral Pinto, Filipe
Format: Recurso digital
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.17728897
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author Mostardinha, Tiago
João Gameiro
Valente Mateus, Pedro
Rito, Pedro
Raposo, Duarte
Sargento, Susana
Marques, Carlos
Mesquita, Miguel
Cabral Pinto, Filipe
author_facet Mostardinha, Tiago
João Gameiro
Valente Mateus, Pedro
Rito, Pedro
Raposo, Duarte
Sargento, Susana
Marques, Carlos
Mesquita, Miguel
Cabral Pinto, Filipe
contents <p>In this paper, we propose an architecture integrating Multi-access Edge Computing (MEC) nodes into 5G base stations<br>and roadside units to enable dynamic service orchestration for on-demand perception offloading. In this approach, compute-intensive perception tasks, such as object detection, are instantiated as services on nearby edge nodes, with resources being allocated adaptively based on the locations and trajectories of the vehicles. The system was designed to support user mobility through service replication and seamless handovers between perception service instances in different edge nodes as vehicles move across coverage areas, ensuring continuous service delivery and Quality of Service (QoS) guarantees. We evaluate the proposed architecture in a real-world 5G edge-enabled testbed using an autonomous vehicle running an object detection service. The results demonstrate that offloading perception via 5G and MEC yields substantially lower processing latency, and that smart orchestration mechanisms are able to react to user mobility and platform stress situations, avoiding service degradation, thus validating the approach for Cooperative, Connected, and<br>Automated Mobility (CCAM) use cases.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_17728897
institution Zenodo
language
publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle Perception Offloading for Autonomous Mobility in a Beyond-5G Edge-enabled Environment
Mostardinha, Tiago
João Gameiro
Valente Mateus, Pedro
Rito, Pedro
Raposo, Duarte
Sargento, Susana
Marques, Carlos
Mesquita, Miguel
Cabral Pinto, Filipe
<p>In this paper, we propose an architecture integrating Multi-access Edge Computing (MEC) nodes into 5G base stations<br>and roadside units to enable dynamic service orchestration for on-demand perception offloading. In this approach, compute-intensive perception tasks, such as object detection, are instantiated as services on nearby edge nodes, with resources being allocated adaptively based on the locations and trajectories of the vehicles. The system was designed to support user mobility through service replication and seamless handovers between perception service instances in different edge nodes as vehicles move across coverage areas, ensuring continuous service delivery and Quality of Service (QoS) guarantees. We evaluate the proposed architecture in a real-world 5G edge-enabled testbed using an autonomous vehicle running an object detection service. The results demonstrate that offloading perception via 5G and MEC yields substantially lower processing latency, and that smart orchestration mechanisms are able to react to user mobility and platform stress situations, avoiding service degradation, thus validating the approach for Cooperative, Connected, and<br>Automated Mobility (CCAM) use cases.</p>
title Perception Offloading for Autonomous Mobility in a Beyond-5G Edge-enabled Environment
url https://doi.org/10.5281/zenodo.17728897