5G Standalone value with Mobile Network testing & RF Drive Test Tools

Yes, the true value of 5G can be achieved, especially when a standalone core network will get deployed. The deployment of the standalone core network can unlock the true value of 5G, which consists of features such as network slicing, low latency services, and use cases like enterprise 5G and, private 5G networks, etc. So now let us see how 5G Standalone can become more effective with Accurate Mobile Network Monitoring Tools, Mobile Network Drive Test Tools, Mobile Network Testing Tools and Accurate RF drive test tools & equipment, RF tester software app & network LTE 4g tester.

5G network comes with high-capacity, low-latency, high-speed connectivity benefits. But 5G StandAlone (SA) technology can further unlock greater value for businesses that come with increased levels of reliability, speed, ultra-low latency, and communication coverage which are basically needed for smart manufacturing or Industry 4.0 – such features make more opportunities for different industries like manufacturing, healthcare and automotive, etc. 5G StandAlone (SA) is the future of 5G technology – a network that consists of 5G base stations and a 5G core network.

The best part of 5G is not only about faster speeds and connectivity but also a shift in the business model with the emergence of StandAlone (SA) networks – SA network helps from 5G core is crucial to unlocking all the advantages of the technology and few of them including:

5G technology system

5G is known as a technology platform instead of a network only, comprised of Enhanced Mobile Broadband (eMBB), Ultra-Reliable and Low Latency Communications (URLLC), and massive Machine-Type Communication (mMTC). All these three subsystems consist of different aspects of 5G to offer for certain use cases – eMBB is normally engaged in use cases (high-speed mobile connectivity) that require high data rates to bring a better user experience in a faster way and eMBB’s use case can be deployed on an NSA network, with the 4G LTE core; URLLC and mMT are generally involved in enterprise-focused use cases that will require a 5G SA network.

Provides real-time results

5G StandAlone (SA) networks unlock URLLC use cases that serve latency-sensitive connected devices, which means 5G provides sub-millisecond latency and error rates. In other words, we can say that those applications where data must be processed in real-time will get benefitted from 5G URLLC. For example, in smart factories, machine-to-machine (M2M) communication needs to be fast/rapid for seamless automation, and therefore, in augmented reality (AR) scenarios, robots perform operations, and similarly, in autonomous vehicle networks, vehicles must react to their surroundings immediately. So, the 5G network can deliver sub-millisecond latency that will deploy such applications that are viable from a safety and commercial perspective.

What is StandAlone (SA) 5G?

Standalone 5G or 5G SA is a deployment model / a type of 5G New Radio (NR) network deployment that allows a mobile operator to build an end-to-end 5G network using 5G radio and core network components such as Next Generation Radio Access Network (NG-RAN) and a 5G Cloud-Native core network (5GCN) to deliver basic and advanced 5G cellular services. The 5G SA opens the door for the next generation of industry digitization – it is an independent 5G network deployment model that allows operators to launch an end-to-end 5G New Radio (NR) network. Further, the 5G SA technology can deliver the advanced use cases of 5G that require flexibility, availability, lower latencies, and high-speed data – some of the predicted 5G use cases include massive IoT, and latency-sensitive communications for purposes such as autonomous driving, emergency services, and factory automation.

Advantages of standalone 5G core architecture:

  • Validates superior 5G services: Its modern architecture supports high-value next-gen 3GPP-defined use cases such as V2X, IIoT, etc.
  • Robust infrastructure: Stateless NFs provide hyper-scalability, reliability, resilience, and unified programmable orchestration to make sure quicker service innovation.
  • Swift deployment in the cloud: As it can be deployed in the cloud, 5G core architecture saves the time required for hardware delivery and setup – streamlined architecture and REST interfaces are much simpler to implement and integrate than legacy interfaces.
  • Highly scalable: Kubernetes platforms (K8s or portable, extensible, open-source platforms) can scale automatically and without the physical limitations of legacy cores.
  • Enables low-latency use cases: The CUPS facilitates improved edge deployment and allows low latency use cases or applications such as private networks for manufacturing, healthcare, real-time surveillance, and more.

Conclusion

With the incorporation of 5G core technology, 5G SA allows operators to customize their services and business strategies rapidly by making improvements in real-time. The deployment of 5G SA with the 5G core operates two roles- one is the up-gradation of existing low-band LTE sites to New Radio (NR), and another is allowing a host of modern and advanced use cases.

So, now comes a factor like 5G network stability, for this, you need to test the 5G network that will enable to provide good network connectivity (5g/4G coverage) to the end-user. There are several network testing and monitoring tools, such as RantCell, designed available to ease the work of operators during RF indoor surveys and RF drive tests. RantCell is an app-based tool that will help in your network testing without the hassle of traditional methods and high costing.

Looking for a network testing tool to measure your network coverage with full accuracy? Contact the e RantCell team to get in touch.

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