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PERCEPTION

A Deployed Hybrid Vehicle-in-the-Loop Platform for Validating Cooperative Perception

Anastasia Bolovinou, Giorgos Hadjipavlis, Markos Antonopoulos, Panagiotis Tachtalis, Konstantinos Petousakis, Konstantinos Lazaridis, Alexandros Siskos, Bill Roungas, Angelos Amditis

Year
2026
Access
Open access

Abstract

European safety regulation now permits a large share of automated-driving homologation evidence to be produced virtually, provided a validated physical-virtual facility generates it. We present a deployed hybrid Vehicle-in-the-Loop (ViL) platform that couples a real instrumented vehicle with a CARLA-based digital twin (DT) through a V2X message pipeline, and we report its first integrated operation on a public-road-representative test track. A real vehicle streams ETSI-compliant CAM/CPM messages into the DT, where a GPU-accelerated Cooperative Perception (CP) module fuses them into a probabilistic occupancy grid during scenario runtime. We demonstrate the platform on a multi-vehicle double T-intersection scenario, characterise the CP workload across nominal, rain and night conditions and five localization-noise levels, and discuss the platform's current architectural limits and the engineering targets they define. The results show that CP substantially widens field-of-view (FoV) coverage and improves occupied-cell recall, and that beyond a moderate localization-noise threshold, positioning uncertainty, and not weather, becomes the dominant error source. We outline the platform's trajectory toward a Mediterranean operational design domain (ODD) testing service.

Keywords

cs.ROcs.MA

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