Task migration with deadlines using machine learning-based dwell time prediction in vehicular micro clouds

Task migration with deadlines using machine learning-based dwell time prediction in vehicular micro clouds

Blog Article

Edge yale law school colors computing is becoming ever more relevant to offload compute-heavy tasks in vehicular networks.In this context, the concept of vehicular micro clouds (VMCs) has been proposed to use compute and storage resources on nearby vehicles to complete computational tasks.As many tasks in this application domain are time critical, offloading to the cloud is prohibitive.

Additionally, task deadlines have to be dealt with.This paper addresses two main challenges.First, we present a task migration algorithm supporting deadlines in vehicular edge computing.

The algorithm is following the earliest deadline first model but in presence of dynamic processing resources, i.e, vehicles joining and leaving a VMC.This task offloading is very sensitive to the mobility of vehicles in a VMC, i.

e, the so-called dwell time a vehicles spends natio glide on eyeshadow stick in the VMC.Thus, secondly, we propose a machine learning-based solution for dwell time prediction.Our dwell time prediction model uses a random forest approach to estimate how long a vehicle will stay in a VMC.

Our approach is evaluated using mobility traces of an artificial simple intersection scenario as well as of real urban traffic in cities of Luxembourg and Nagoya.Our proposed approach is able to realize low-delay and low-failure task migration in dynamic vehicular conditions, advancing the state of the art in vehicular edge computing.