BORIS Theses

BORIS Theses
Bern Open Repository and Information System

Mobility-aware Software-Defined Service-Centric Networking for Service Provisioning in Urban Environments

Oliveira Rodrigues, Diego (2023). Mobility-aware Software-Defined Service-Centric Networking for Service Provisioning in Urban Environments. (Thesis). Universität Bern, Bern

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Abstract

Disruptive applications for mobile devices, such as the Internet of Things, Connected and Autonomous Vehicles, Immersive Media, and others, have requirements that the current Cloud Computing paradigm cannot meet. These unmet requirements bring the necessity to deploy geographically distributed computing architectures, such as Fog and Mobile Edge Computing. However, bringing computing close to users has its costs. One example of cost is the complexity introduced by the management of the mobility of the devices at the edge. This mobility may lead to issues, such as interruption of the communication with service instances hosted at the edge or an increase in communication latency during mobility events, e.g., handover. These issues, caused by the lack of mobility-aware service management solutions, result in degradation in service provisioning. The present thesis proposes a series of protocols and algorithms to handle user and service mobility at the edge of the network. User mobility is characterized when user change access points of wireless networks, while service mobility happens when services have to be provisioned from different hosts. It assembles them in a solution for mobility-aware service orchestration based on Information-Centric Networking (ICN) and runs on top of Software-Defined Networking (SDN). This solution addresses three issues related to handling user mobility at the edge: (i) proactive support for user mobility events, (ii) service instance addressing management, and (iii) distributed application state data management. For (i), we propose a proactive SDN-based handover scheme. For (ii), we propose an ICN addressing strategy to remove the necessity of updating addresses after service mobility events. For (iii), we propose a graph-based framework for state data placement in the network nodes that accounts for user mobility and latency requirements. The protocols and algorithms proposed in this thesis were compared with different approaches from the literature through simulation. Our results show that the proposed solution can reduce service interruption and latency in the presence of user and service mobility events while maintaining reasonable overhead costs regarding control messages sent in the network by the SDN controller.

Item Type: Thesis
Dissertation Type: Cumulative
Date of Defense: 2 June 2023
Subjects: 000 Computer science, knowledge & systems
500 Science > 510 Mathematics
Institute / Center: 08 Faculty of Science > Institute of Computer Science (INF) > Communication and Distributed Systems (CDS)
Depositing User: Sarah Stalder
Date Deposited: 05 Jun 2023 09:38
Last Modified: 02 Jun 2024 22:25
URI: https://boristheses.unibe.ch/id/eprint/4327

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