The millimeter wave frequencies are ideal for densely populated areas, but ineffective for long distance communication. With 5G data transmission occupying the millimeter wave, free space propagation loss, proportional to the smaller antenna size, and diffraction loss, inherent to higher frequencies and lack of wall penetration, are significantly greater. The expected changes to industries ranging from personal transportation to manufacturing and farming will be so significant that many have dubbed 5G the next Are you ready to take the next step with one of our 5G test products or solutions?This website uses cookies to provide you with a better browsing experience. Technology leading regions such as North America, Asia and Europe are already beginning limited deployment while other nations around the globe follow closely behind. With each of these smaller antennas potentially reassigning beam direction several times per millisecond, massive beamforming to support the challenges of 5G bandwidth becomes more feasible. 5G also allows operators to explore new use cases and business models and capture new revenue streams through addressing industry digitalization.

Learn all about 5G architecture!The primary goal of previous generations of mobile networks has been to simply offer fast, reliable mobile data services to network users. Ericsson Uplink Booster is an innovative solution available now in Massive MIMO mid-band TDD (Time Division Duplex) radios to achieve extended coverage, an improved uplink throughput and higher spectral efficiency. With outperforming RAN technology, software enabled millisecond spectrum sharing, dual-mode 5G Core, AI enhanced services, dynamic orchestration, and IOT connectivity and device management we believe we have the toolbox to help you build a better 5G.Introducing the much-anticipated Ericsson 5G Radio Dot – unleashing the high-capacity and lightning-fast indoor coverage people are waiting for.RAN Compute portfolio consists of today’s and future Basebands, new Radio Processors, and other future products. Combining improved capacity with increased cost-efficiency 5G represents an opportunity for telecom operators to improve their consumer business. This includes the network slicing technology that enables multiple virtual networks to run simultaneously. The 5G specifications define the enablers for edge computing, allowing MEC and 5G to collaboratively route traffic. View our Modularity, reusability and self-containment of network functions are additional design considerations for a 5G network architecture described by the 3GPP specifications.In addition to the millimeter wave, underutilized UHF frequencies between 300 MHz and 3 GHz are also being repurposed for 5G. With these changes come new security risks and additional “attack surfaces” exposed within the 5G security architecture.5G is building on the security practices of past mobile technology generations, yet the trust model has become much more expansive with more players involved in the service delivery process.
5G utilizes a more intelligent architecture that is no longer constrained by base station proximity or complex infrastructures. Among the improved 5G security features detailed by the 3GPP standards are As 5G deployment continues and critical performance nodes become increasingly virtualized, operators will need to continually monitor and assess security performance. First movers can reshape the market and increase market share and revenue streams.

The CSP made Allianz Parque Hall, in Sao Paulo, the first 5G ready event venue, using fifth-generation technology powered by Ericsson. Characteristics of the MEC include the low latency, high bandwidth and real time access to RAN information that distinguish 5G architecture from its predecessors.