LONG-Range Wireless Internet In the world 800 Miles

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Imagine browsing the internet from a distance spanning 830 miles, or over 1300 kilometers. Sounds unbelievable, right? Well, believe it or not, this remarkable feat was achieved using a protocol called LoRaWAN. It all began with the installation of trackers on a fishing boat off the coast of Portugal, which were then connected to a Gateway in the Canary Islands. But how does this technology work its magic?

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LoRaWAN operates at relatively low frequencies, typically around the 900 MHz mark. Unlike standard Wi-Fi connections that utilize higher frequencies, lower frequency signals, like those used by LoRaWAN, can travel much farther and even bend around obstacles more effectively. This ability to penetrate through obstacles allows for an extended wireless range.

However, there's a trade-off. While lower frequency signals can travel great distances, they carry less data compared to higher frequency signals. So, what kind of performance can you expect from a 900 MHz connection?

LoRaWAN can achieve ranges of approximately 5 kilometers in a city environment and up to 10 kilometers in rural areas with fewer obstructions. Despite its impressive range, the speeds attainable with LoRaWAN are relatively modest, akin to dial-up connections, or even slower, under ideal conditions.

On the other hand, there's another wireless standard called Halo, which offers shorter ranges, around 1 kilometer, but faster speeds. Under optimal conditions, Halo can deliver speeds ranging from 150 kilobits per second to 15 megabits per second, depending on the distance and obstacles in the signal's path.

But why bother with long-range internet if it's so slow? The answer lies in the types of applications that benefit from such technology. Devices like moisture sensors in agriculture, mass transit tracking systems, and radiation sensors in nuclear plants require minimal bandwidth. Amazon Sidewalk, a network connecting IoT devices, utilizes LoRaWAN to cover longer distances efficiently.

Moreover, LoRaWAN's low power requirements enable devices to operate on batteries for extended periods, making it ideal for remote applications. Halo, with its faster speeds, expands the range of potential applications beyond IoT to include tasks like video calls over long distances.

While these technologies may not replace traditional home Wi-Fi connections, they serve niche purposes, especially in rural areas lacking wired infrastructure. Wireless bridge kits can extend the reach of Halo signals to client devices, offering basic connectivity where traditional options are limited.

In conclusion, the world of long-range wireless internet is vast and diverse, offering solutions for various needs and scenarios. Whether it's monitoring crops in a remote field or connecting devices in a sprawling estate, these technologies continue to push the boundaries of what's possible in the realm of connectivity. So, the next time you marvel at the wonders of wireless internet, remember the remarkable technologies that make it all possible.

Imagine browsing the internet from a distance spanning 830 miles, or over 1300 kilometers. Sounds unbelievable, right? Well, believe it or not, this remarkable feat was achieved using a protocol called LoRaWAN. It all began with the installation of trackers on a fishing boat off the coast of Portugal, which were then connected to a Gateway in the Canary Islands. But how does this technology work its magic?

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