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Is LoRaWan the future of IoT?


Long-range, low power, and narrow bandwidth are one of the communications standards that have been adopted for many IoT devices because it meets many of the constraints that these devices operate under (other standards include NB-IoT, for example).

Many IoT devices use a battery for power that needs to operate for extended periods. The closest communication hub/gateway/tower may be pretty distant; many such devices require low data rates (which works well as this reduces energy constraints as well).

Therefore, IoT communication such as LoRa works well as it meets these requirements. However, if your IoT device needs a lot of bandwidth, such as a live video cam, you need a more traditional link. Similarly, if your device has abundant power (because it is directly connected to the power grid, for example), you do not have to worry about running out of control.


While talking about IoT solutions, akenza.io is the self-service IoT platform, allowing you to build great IoT products and services with value under IoT platforms. It connects, controls, and manages IoT devices in one place.

Akenza.io provides a cloud-based system that connects everyThing to the Cloud.

How does LoRaWan Work?

At the most basic level, radio protocols like LoRaWan are pretty simple. Star networks transform like professors and students in a lecture under the LoRa gateway. Everyone in the class could be seeking to interact with professors simultaneously, but the professor would not be able to hear or get them all at once under the LoRa gateway. It is an asymmetric relationship in terms of communication.

Many hardware and network service providers compete in this space, so there are a lot of choices under LoRaWan. LoRaWan is best if you want to build on carrier-owned and operated public networks under the LoRa gateway. 

Reasons how LoRaWan is the future of IoT:

End devices 

A sensor, actuator, or both can be used as a LoRaWan end device. End devices are usually battery-powered. The end devices communicate wirelessly with the LoRaWan network via Lora RF modulation gateways. Sensors or actuators deliver LoRa modulated wireless signals to gateways and receive wireless messages from gateways.


The gateways are registered to a LoRaWan network server through configuration settings. When a gateway gets a LoRa message from an end device, it simply sends it to the LoRaWan network server. Gateways are associated with the Network Server through backhaul, which might be cellular.

Network Server

A network server is a piece of software that runs on a server responsible for securely processing application data. The server manages the LoRaWan network's ways, end devices, applications, and users.

Application Servers

The server is responsible for processing application-specific data messages sent by end devices. It also generates all application-layer downlink payloads and distributes them to linked end devices through the network server. The obtained data may be analyzed using machine learning and artificial intelligence techniques.

Lora gadgets and the LoRaWan standard provide compelling features for IoT applications, including long-range, low power utilization, and secure data communication. The technology is used by public, private, or hybrid networks and gives a more excellent range than virtual networks.

Formations can easily integrate into existing infrastructure and allow low-cost battery-operated IoT applications.

Features of LoRaWan to consider:

Smart Cities

Smart cities need real-time visibility into all aspects of urban life. Intelligent cities utilize wide-area wireless networks to enable connectivity between a vast network of disparate data-generating IoT appliances, sensors, and smart meters under the LoRa gateway. LoRaWan wireless technology is the top IoT solution for the application in the scope of smart cities under the LoRa gateway.

Using IoT technologies with various smart devices to conceive and analyze comprehensive real-time data, cities can reply dynamically by optimizing asset utilization and issuance of city resources under the LoRa gateway.

Smart buildings

With minimum infrastructure and maintenance consumption, homeowners and property/facility managers may boost efficiency and minimize expenses by using LoRa-based intelligent IoT building solutions:


  • Temperature and Humidity Monitoring under the LoRa gateway

  • Room Occupancy

  • Motion Detection

  • Smart Water Metering

Smart Healthcare

LoRLoRaWan'sT solution can be designed to continuously and reliably monitor hospital patients' critical vital signs under the LoRa gateway. Seniors care citizens, high-performing athletes, or anyone else who needs real-time, always-on insights into their respiratory health under LoRaWan. IoT LoRaWan innovative health solutions could assist: 


  • Hospital Patients

  • Seniors Care, Citizens,

  • High Performing Athletes

LoRaWan sensors ensure vaccines are kept at appropriate temperatures in transit under the LoRa gateway.

Public safety

The requirement for all-encompassing safety and security results is enhanced under the LoRa gateway. IoT network-situated public safety solutions give first responders cutting0edge technology that may decrease danger and improve individual safety under LoRaWan. 

Space Utilization

The corporate workforce has increased mobile and has immediately adopted an "anytime, anyplace" work convention under the LoRa gateway. As a result of the uncertain flow of employees and guests, office space may be unused for lengthy periods or be overextended under LoRaWan.

Smart Environment

LoRaWan-based IoT solutions for the environment help safeguard populations from environmental threats, from air quality monitoring to radiation leak detection under the LoRa gateway. 

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