Alacrité and Volonté with Mobile Network testing  & RF Drive Test Tools

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5G means more bandwidth, more connected devices, lower latency – more than a network, it’s a foundation for innovation. In addition, 5G means a mass of cool new applications which are taking mobile broadband to the next level with enhanced reliability and coverage. 5G will bring access rates (much faster), drive the digital transformation of vertical industries. 5G network through flexible network slicing enters every corner of the world and therefore, 5G network testing involves the simulation of network traffic, data services, 5G network slicing, and 5G Core network testing and signalling messages to ensure that the network’s functionalities and performance meet the expected standards – which has become the cornerstone of digital society.  So, now let us see Testing Mobile Networks for 5G Readiness and Key Considerations along with Smart Mobile Network Monitoring Tools, Mobile Network Drive Test Tools, Mobile Network Testing Tools and Smart LTE RF drive test tools in telecom & Cellular RF drive test equipment in detail.

5G network architecture comprises various components, including the 5G Access Network (gNB), Access and Mobility Management Function (AMF), Network Slice Selection Function (NSSF), Equipment Identity Register (EIR), and User Plane Function (UPF). In addition, 5G also consists of architecture such as Unified Data Management (UDM), Session Management Function (SMF), Short Message Service Function (SMSF), etc. connected to Data Server or Application Functions, and to EPC/IMS core for interoperability that are underlying entities of the core network can be accurately tested for functionalities and performance.

5G deployment has two architecture options – one is standalone (SA) and other one is non-standalone (NSA). SA 5G has obvious advantages in new service support, coverage, performance, network flexibility and terminal energy efficiency whereas NSA involves complex coupling with 4G network, a first-mover advantage which is only applicable to eMBB services and that can be consequent from architecture maturity. 5G network testing and troubleshooting are vital for ensuring the smooth operations of 5G networks with the capability of supporting enormous services and applications, massive connections, and new channel coding schemes at very high bandwidth.

5G technology is driving major changes across the entire network, – an innovation platform that will provide the ability to bring new services to market quickly with stringent timing and latency requirements. From highly flexible RAN architecture and 3D beamforming active antennas to software-defined network components, 5G will explore use cases that will allow ultra-fast mobile broadband, mission critical communication, massive device connectivity, and ultra-low latency. How networks and their different components will evolve and see network equipment manufacturers (NEMs) and service providers (SPs) moving away from proprietary network components to common off-the-shelf components to improve service agility. Mission-critical applications will demand a network which cannot fail, here comes 5G networks that will evolve across multiple 3GPP releases. This ensures network quality will be at the core of deployment, SP investments deployed in the field that are protected and ROI and customer experience is not compromised.

5G testing is an end-to-end 5G test solutions and 5G testing has become a critical enabler of 5G potential and more than verifying the lightning-fast download speeds, super low latency, and expansive coverage density. 5G is playing a vital role in the development, deployment, and operational excellence of emerging 5G networks to test 5G networks effectively, you need to use devices and test solutions have quickly adapted to complex use cases and wholesale architectural advancements (core, transport, RAN and fiber network elements) and that can support these diverse network conformations and circumstances. You also need to design test cases on 5G network architecture that cover the different network parameters, such as bandwidth, latency, throughput, handover, and coverage.

Conclusion

As mobile network operators roll out and expand 5G coverage, mobile network testing plays a key role to ensuring 5G network performance and efficient operations. Traditional testing is time consuming and here comes RantCell which is a non-traditional tool that can be installed in any smartphone device to conduct test throughout the 5G network lifecycle, including spectrum clearing, network design, deployment, baseline testing, and optimization.

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