Which type of wireless technology you think the best for the IoT technology?

Which type of wireless technology you think the best for the IoT technology?

Ultimately IoT data needs to be delivered over the Internet with 4G being the best choice for bandwidth, scalability and interoperability globally. 5G has received both good and not so good press coverage recently. The technology promises high-speed mobility support and ultra-low latency.

Which wireless technology has low-power and low data rate requirements making it popular in IoT environments Bluetooth?

Which wireless technology has low-power and low-data rate requirements making it popular in IoT environments? Explanation: Zigbee is a specification used for low-data rate, low-power communications. It is intended for applications that require short-range, low data-rates and long battery life.

Which IoT level is suitable for low-power and low rate data communication?

Zigbee is a short-range, low-power, wireless standard (IEEE 802.15. 4), commonly deployed in mesh topology to extend coverage by relaying sensor data over multiple sensor nodes. Compared to LPWAN, Zigbee provides higher data rates, but at the same time, much less power-efficiency due to mesh configuration.

What is low latency in IoT?

A way of ensuring low latency in IoT devices is by creating direct connectivity between an end-user client (such as an app on a mobile device or a computer) and an IoT device. Well, in these database-driven IoT solutions, data and commands can sometimes take more than five seconds to send.

What protocol is used in IoT?

ZigBee-based networks are similar to Bluetooth in the sense that it already has a significant user base in the world of IoT. It’s a relatively simple packet data exchange protocol and is often implemented in devices with small requirements, such as microcontrollers and sensors.

Why do we need low latency?

Faster data transfer usually requires devices to expend more energy. As a result, we need a mechanism for reducing latency while conserving power. This low-power, low-latency solution will allow our devices to work efficiently without expending considerable amounts of power.

Why is latency a problem to IoT?

The longer the device is asleep, the less power it consumes. This also means that there are fewer opportunities for information to be exchanged. This impacts the performance of the device, causing it to run slower (known as latency).

Which is the best WiFi standard for IoT?

Usually, WLAN is used for applications that require very high data rate and where power is not a concern. But to enable the IoT, WLAN has to reduce its power consumption. The new standard of WLAN, 802.11ba, works with previous-generation Wi-Fi 5 or Wi-Fi 6 standard to help achieve low power.

How is 802.11ba used in the IoT?

802.11ba is also called wake-up receiver. Usually, WLAN is used for applications that require very high data rate and where power is not a concern. But to enable the IoT, WLAN has to reduce its power consumption. The new standard of WLAN, 802.11ba, works with previous-generation Wi-Fi 5 or Wi-Fi 6 standard to help achieve low power.

How are low power wide area networks used in IoT?

Low-Power Wide Area Networks (LPWANs) are a new phenomenon in Industrial IoT (IIoT). Providing long-range communication on small, inexpensive batteries that last for years, this technology family is purpose-built to support large-scale IIoT networks sprawling over vast industrial and commercial campuses.

Why are communication standards important for the IoT?

These communication standards are evolving and enabling new and future IoT applications. The IoT drives communication standards on both (opposite) ends. It needs low latency (fast response time) as well as low power. Some applications require high data rate and wide range.