Limani, XhulioXhulioLimaniCamelo Botero, MiguelMiguelCamelo BoteroFinck, JorisJorisFinckLowyck, BartBartLowyckMarquez-Barja, JohannJohannMarquez-BarjaSlamnik-Krijestorac, NinaNinaSlamnik-Krijestorac2026-07-162026-07-162026979-8-3315-9674-32331-9852https://imec-publications.be/handle/20.500.12860/59865Despite major advances in Connected and Autonomous Vehicles (CAVs), edge cases such as unmapped construction zones or dense urban areas still require human intervention. Teleoperation, often combined with Level 4 automation, addresses these situations but demands strict network performance i.e., latency below 5 ms, uplink throughput above 25 Mbps, and 99.999% reliability, to ensure safe, responsive control under heavy load. This paper presents a Proof-of-Concept (PoC) 5G Standalone (SA) network supporting end-to-end Network Slicing for teleoperation. The PoC achieves seamless slice isolation across the 5G Core (5GC), Transport Network (TN), and Radio Access Network (RAN), enabling dynamic and cross-domain Network Slicing to meet teleoperation requirements.engDynamic End-to-End Network Slicing for Safe and Reliable Teleoperation Use CasesProceedings paper10.1109/ccnc65079.2026.11366330WOS:001711522700074