What is 5G? An Introduction to 5G Networks and Applications
5G communications has been a very hot topic in recent years. Due to some of the key attributes such as faster data transfer rate, low latency and high connectivity, people can start to develop applications including industry 4.0, autonomous cars, and build a smart city etc. However, until the day comes when 5G is widely applied in our everyday technologies, people still wonder what exactly is 5G? How is it different from 4G? Despite a proclaimed faster data transfer rate, how will it impact the next tech evolution?
How Did We Get Here?
The 5 characteristics of a 5G network
The Three Core Aspects of 5G
How Is the 5G Network Built
Macro Cells & Small Cells in 5G Network
Decentralized Computing of MEC
5G for Internet of Vehicles
Internet of Vehicles in 5G network
Multi-access Edge Computing
AI & AIoT
SDN (Software Defined Networking)
Success StoryOver 100,000 Pokémon Fanatics Gather to Catch ‘Em All - See How GIGABYTE’s High Density Servers Help Maintain Law & Order
Large scale events can lead to a sudden surge in crowds, creating cellular network congestion. Even if the user capacity of a cell tower user is upgraded, the network operator is still unable to cope with an abrupt increase in demand. In 2019 Industrial Technology Research Institute (ITRI) therefore designed and built a “Private Cell Mobile Command Vehicle”, which can deploy a pre-5G private cellular network to avoid the problem of commercial network traffic jams. The vehicle provides the New Taipei City Police Department with smooth, uninterrupted cellular network service, allowing the police staff to remotely monitor real time footage of large scale events and deploy police resources where needed, increasing the efficiency of providing event security and safety. GIGABYTE’s H-Series High Density Servers are also helping to support ITRI’s “Private Cell Mobile Command Vehicle” by reducing the complexity of back-end infrastructure – each server combines computing, storage and networking into a single system, allowing for resources to be centralized and shared across different applications. The servers also optimize the use of time and manpower by combining and centralizing applications to simplify management procedures.
GIGABYT will illustrate the key functions and applications that made 5G a highly anticipated technology evolution, and the pivotal role MEC (Multi-access Edge Computing) plays in bringing 5G into our lives. Let’s take a digital tour to experience the splendid 5G future, enabled by GIGABYTE’s edge computing solutions!