104 research outputs found
Performance of Joint XR and Best Effort eMBB Traffic in 5G-Advanced Networks
In this paper, we address the joint performance of eXtended reality (XR) and
best effort enhanced mobile broadband (eMBB) traffic for a 5G-Advanced system.
Although XR users require stringent throughput and latency performance,
operators do not lose significant additional network capacity when adding XR
users to an eMBB dominated network. For instance, adding an XR service at 45
Mbps with 10 ms packet delay budget, yields close to a 45 Mbps drop in eMBB
capacity. In an XR only network layer, we show how the capacity in number of
supported XR users depends significantly on the rate but also the latency
budget. We show also how the XR service capacity is significantly reduced in
the mixed service setting as the system goes into full load and other-cell
interference becomes significant. The presented results can be used by cellular
service providers to assess their networks performance of XR traffic based on
their current eMBB performance, or as input to dimensioning to be able to serve
certain XR traffic loads
Spectrum for Private Networks:Challenges and Opportunities - A Case Study based on Danish Regulation
PDU-set Scheduling Algorithm for XR Traffic in Multi-Service 5G-Advanced Networks
In this paper, we investigate a dynamic packet scheduling algorithm designed
to enhance the eXtended Reality (XR) capacity of fifth-generation (5G)-Advanced
networks with multiple cells, multiple users, and multiple services. The
scheduler exploits the newly defined protocol data unit (PDU)-set information
for XR traffic flows to enhance its quality-of-service awareness. To evaluate
the performance of the proposed solution, advanced dynamic system-level
simulations are conducted. The findings reveal that the proposed scheduler
offers a notable improvement in increasing XR capacity up to 45%, while keeping
the same enhanced mobile broadband (eMBB) cell throughput as compared to the
well-known baseline schedulers
- …