Search for dissertations about: "Virtual Network Functions"
Showing result 11 - 15 of 18 swedish dissertations containing the words Virtual Network Functions.
-
11. Performance Modelling and Simulation of Service Chains for Telecom Clouds
Abstract : New services and ever increasing traffic volumes require the next generation of mobile networks, e.g. 5G, to be much more flexible and scalable. The primary enabler for its flexibility is transforming network functions from proprietary hardware to software using modern virtualization technologies, paving the way of virtual network functions (VNF). READ MORE
-
12. On the Design of Next-Generation Routers and IP Networks
Abstract : This thesis investigates distributed router architectures and IP networks with centralized control. While the current trend in IP-router architectures is towards decentralized design, there have also been research proposals for centralizing the control functions in IP networks. READ MORE
-
13. Unchaining Microservice Chains : Machine Learning Driven Optimization in Cloud Native Systems
Abstract : As the cloud native landscape flourishes, microservices emerge as a central pillar for contemporary software development, enabling agility, resilience, and scalability in modern computing environments. While these modular services promise opportunities, particularly in the transformative ecosystem of 5G and beyond, they also introduce a myriad of complexities. READ MORE
-
14. Cooperation and Resource Allocation in Wireless Networking towards the IoT
Abstract : The Internet of Things (IoT) should be able to react with minimal human intervention and contribute to the Artificial Intelligence (AI) era requiring real-time and scalable operation under heterogeneous network infrastructures. This thesis investigates how cooperation and allocation of resources can contribute to the evolution of future wireless networks supporting the IoT. READ MORE
-
15. Performance and Optimization Aspects of Time Critical Networking
Abstract : 5G and beyond networks are driven by the vision of the Internet of Things and mission-critical communications that have time-sensitive applications requiring low latency. These new, related to the previous network generations, requirements are challenging and they have a technical impact on the design of communication networks and classical networks cannot support such requirements. READ MORE