Introduction to 5G types
5G types are 5G networks that are defined by the type of specification. The first three types are the “intelligence”, “baseband” and “enabling” (or “core”) networks. The 5G standard is still emerging, but it will offer faster speeds and more capacity than today’s 4G networks by deploying new technologies. There are three main types of 5G: low-band, mid-band and millimeter wave. 5G is the latest generation of wireless broadband technology. It’s designed to deliver ultrafast speeds, powerful capacity and low latency. 5G is a new standard of wireless communication that provides gigabit speeds and ultra-low latency, which delivers an entirely new mobile experience. The 5G standard will enable a wide range of potential applications such as autonomous vehicles, AR/VR devices and self-driving cars, remote surgeries, smart cities infrastructure, and many more. 5G is a new generation of mobile standards designed to dramatically increase network capacity, speed and coverage.
5G networks will likely take shape by 2020 and be rolled out in the US within a decade. 5G technologies are the next generation of cellular network. This section describes the technical characteristics of 5G radio access, 5G New Radio and more details about 5G systems in general. 5G is the fastest and most powerful mobile technology available today. It will revolutionize how the world works and communicates, impacting the Internet of Things, autonomous driving and smart cities. As countries around the globe work toward making 5G a reality, they will be developing different types of deployments. 5G is a new cellular network technology standard, which comes after 4G LTE. 5G is expected to be much faster and more responsive than current 4G speeds. 5G will open up many new use cases, such as: all-day connectivity for IoT devices and sensors; high quality video streaming and faster downloads; real-time virtual reality experiences; wireless gaming that requires low latency, high frame rates and minimal lags. Six different classes of 5G were proposed by the Third Generation Partnership Project (3GPP) in March 2018. Proposals for these six bands were based on handsets, hotspots and base stations. 5G types broadly cover the categories of generation, range and frequency. There are physical layer and data link layer functions in both 3GPP and Non-3GPP 5G. With 5G, users will connect at higher speeds, use more data and do more things. With the greater capacity to carry more traffic and higher speeds, 5G will enable innovations like smart cities powered by connectivity, lifelike virtual reality that comes to life before you, truly immersive teleconferencing with life-sized video of people far away. 5G is currently undergoing standardization in ITU-R. In order to allow for global adoption, the working group has decided that the absolute minimum requirements specified in this draft will be essentially the same across all regions and countries. This means that there will be no region specific variations given as input into the consideration of 5G standards. 5G types include 5G New Radio and 5G NR Terminals. While the first release of 5G will be mainly focused on mobile devices, it is expected to touch many other areas such as manufacturing, media, smart city, and automotive. The 5G Release 15 specification defines the overall framework and system architecture for 5G network deployments. It also defines the roles and responsibilities of radio access, core and transport networks, security, device requirements as well as services.