Cooperative Connected and Automated Mobility (CCAM): Technologies and Applications
Ferreira, Joaquim
Cooperative Connected and Automated Mobility (CCAM): Technologies and Applications
English[eng]
multi-task scheduling (MTS)||n/a||software-defined networking||reliability||Pareto optimal solution||vehicular platoon||open-road pilot sites||communication delay||overlay TDMA||path diversity||cooperative control||IEEE 802.11p MAC||system decoupling||vehicle to everything (V2X) testbeds||C-ITS services||empirical models||European framework||vehicular networks (VNET)||wireless vehicular communications||smart roads||fault tolerance||quality of service (QoS)||dependability||multi-agent system||congestion control||VANET||resiliency||upper bound||cooperative driving||systematic review||train-to-ground||5G||multi-objective optimization (MOO)||adaptable||Mobile edge computing (MEC)||multipath TCP||VANETs||V2V
Cooperative Connected and Automated Mobility (CCAM): Technologies and Applications
English[eng]
multi-task scheduling (MTS)||n/a||software-defined networking||reliability||Pareto optimal solution||vehicular platoon||open-road pilot sites||communication delay||overlay TDMA||path diversity||cooperative control||IEEE 802.11p MAC||system decoupling||vehicle to everything (V2X) testbeds||C-ITS services||empirical models||European framework||vehicular networks (VNET)||wireless vehicular communications||smart roads||fault tolerance||quality of service (QoS)||dependability||multi-agent system||congestion control||VANET||resiliency||upper bound||cooperative driving||systematic review||train-to-ground||5G||multi-objective optimization (MOO)||adaptable||Mobile edge computing (MEC)||multipath TCP||VANETs||V2V