In this work, we focus our attention on real-time multimedia flows from Unmanned Aerial Vehicles (UAVs) to the ground, presenting and analysing the data collected in field trials during a real testbed. The objective is assessing whether a video feed of reasonable quality can be provided to the pilot of a UAV to enable Beyond Visual Line of Sight (BVLoS) operations, by exploiting the multiple cellular operators available in the area. Three cellular networks have been jointly used in a multihoming/multipath setup, leveraging the variable coverage offered in both urban and suburban environments. Taking into account both Quality of Service (QoS) and Quality of Experience (QoE) metrics, the target parameters measured in this testbed are: latency, packet error rate, and video quality, which accounts for frames integrity, continuity, and fluidity. Data collected on the field allow evaluating both QoS and QoE in the presence of a multipath architecture, showing how the latter, in the presence of network diversity, offer the possibility to improve the QoE at the receiver. We also design a framework to characterize the error model and to map it into a QoE model, therefore providing an analytical characterisation of a multipath channel.
Air-to-ground real-time multimedia delivery: a multipath testbed
Gotta A
2021
Abstract
In this work, we focus our attention on real-time multimedia flows from Unmanned Aerial Vehicles (UAVs) to the ground, presenting and analysing the data collected in field trials during a real testbed. The objective is assessing whether a video feed of reasonable quality can be provided to the pilot of a UAV to enable Beyond Visual Line of Sight (BVLoS) operations, by exploiting the multiple cellular operators available in the area. Three cellular networks have been jointly used in a multihoming/multipath setup, leveraging the variable coverage offered in both urban and suburban environments. Taking into account both Quality of Service (QoS) and Quality of Experience (QoE) metrics, the target parameters measured in this testbed are: latency, packet error rate, and video quality, which accounts for frames integrity, continuity, and fluidity. Data collected on the field allow evaluating both QoS and QoE in the presence of a multipath architecture, showing how the latter, in the presence of network diversity, offer the possibility to improve the QoE at the receiver. We also design a framework to characterize the error model and to map it into a QoE model, therefore providing an analytical characterisation of a multipath channel.File | Dimensione | Formato | |
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prod_460093-doc_179271.pdf
Open Access dal 06/12/2023
Descrizione: Postprint - Air-to-ground real-time multimedia delivery: a multipath testbed
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prod_460093-doc_179339.pdf
Open Access dal 06/12/2023
Descrizione: Preprint - Air-to-ground real-time multimedia delivery: a multipath testbed
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prod_460093-doc_179989.pdf
Open Access dal 06/12/2023
Descrizione: Air-to-ground real-time multimedia delivery: a multipath testbed
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