Edge Computing Resource Allocation for Dynamic Networks: The DRUID-NET Vision and Perspective
Creators
- 1. National Technical University of Athens - NTUA
- 2. Queen's University of Belfast - QUB
- 3. École de Technologie Supérieure (ÉTS Montreal)
- 4. Inria, France
- 5. Université catholique de Louvain - UCLouvain
Description
The potential offered by the abundance of sensors, actuators and communications in the IoT era is hindered by the limited computational capacity of local nodes. Several key challenges should be addressed to optimally and jointly exploit the network, computing, and storage resources, guaranteeing at the same time feasibility for time-critical and mission-critical tasks. We propose the DRUID-NET framework to take upon these challenges by dynamically distributing resources when the demand is rapidly varying. It includes analytic dynamical modelling of the resources, offered workload, and networking environment, incorporating phenomena typically met in wireless communications and mobile edge computing, together with new estimators of time-varying profiles. Building on this framework, we aim to develop novel resource allocation mechanisms that explicitly include service differentiation and context-awareness, being able of guaranteeing well-defined Quality of Service (QoS) metrics. DRUID-NET goes beyond the state of the art in the design of control algorithms by incorporating resource allocation mechanisms to the decision strategy itself. To achieve these breakthroughs, we combine tools from Automata and Graph theory,Machine Learning,Modern Control Theory and Network Theory. DRUID-NET constitutes the first truly holistic,multidisciplinary approach that extends recent, albeit fragmented results from all aforementioned fields, thus bridging the gap between efforts of different communities.
Files
2020Sensors.pdf
Files
(1.9 MB)
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