Capacity Cost of Fulfilling the URLLC Performance in Industrial 5G New Radio Deployments

TL;DR

This paper analyzes the capacity loss incurred when deploying URLLC in 5G networks, balancing ultra-reliable low-latency requirements with broadband services through simulations and system design insights.

Contribution

It provides a comprehensive analysis of capacity costs for URLLC in 5G, including realistic simulations and design recommendations for coexistence with eMBB.

Findings

Quantifies capacity loss due to URLLC requirements

Provides system design insights for URLLC-eMBB coexistence

Offers simulation-based performance evaluation

Abstract

The development of the 5G new radio specifications has been derived by the the deterministic low latency use cases such as the ultra-reliable and low-latency communications (URLLC). A URLLC application requires a stringent radio latency and reliability performance, e.g., one-way radio latency of 1 ms with 99.999% success probability. Furthermore, there is a concurrent progressive demand for broadband capacity cellular applications, e.g., enhanced mobile broadband (eMBB) use-cases. The coexistence among the URLLC and eMBB service classes over a single radio spectrum is a challenging task since achieving the tight URLLC radio targets typically results in a capacity loss. Hence, it is vital for telecom operators to understand the capacity cost of fulling the various URLLC requirements in order to sufficiently plan the corresponding pricing models. Hence, in this work, a comprehensive analysis of the system capacity loss is presented to achieve the various requirements of the different URLLC use-cases. An extensive set of realistic system level simulations is performed and introduced where valuable insights and system design recommendations on the URLLC-eMBB quality of service coexistence are presented.