IoT scenarios such as automated factories and remote health monitoring are gradually becoming a reality with the maturity of network technologies such as 5G cellular and WiFi 6+. They have larger data capacity and faster speeds, and can support the connection of millions of devices at the same time, enabling relatively simple smart homes to higher-level functions. Machine communications, which are about to explode, could account for more than half of all Internet connections by 2023.
But achieving this outcome will require a robust connectivity ecosystem around the world to enable IoT to unleash its explosive power. The requirements for this system required not only the ability to utilize high-speed 5G and WiFi 6+ networks, but also simultaneous support for other wireless protocols that meet the different constraints and requirements of each specific IoT application. Therefore, this means that we need to design related equipment and networks based on advanced multi-band antenna solutions. The result of the design requires them to be able to handle a wider frequency range efficiently, enabling the creation of smaller and more durable embedded components capable of transmitting and recording data in a variety of complex environments, while at the same time responding to the potential explosion of data on wireless networks , also need to add infrastructure to help with management.