In today’s fast-paced era, communication technology slowly transitions into 5G, which means data transmission is becoming denser but the amount of data exchange is achieving larger. This is especially true for M2M communication.
The good news is that LoRa technology is taking advantage of new tech trends. With bigger and wider deployment scopes, LoRa aims to create a wireless device that is designed to avoid frequent battery changes. And in the field of the Internet of Things applications, that is a very brilliant innovation.
In the past when low-power WAN was still a big thing, it appears that there were only two choices between low-power and long-distance. However, with LoRa technology, designers can achieve a lot of things. They can do both, maximize long range communication, and lower down the power consumption while reducing extra repeater costs.
What Is LoRa?
LoRa is an extra long-range wireless transmission concept that is based on spectrum technology. Derived from the words “Long Range”, it is classified as a technology under the Internet of Things. It is known for its “Long Range” feature.
It was in August 2013 when Semtech Corporation introduced LoRa. It was released in the United States and it came in the form of a chip, which is based on long-range yet low-power data transmission technology, which is just around 1 Ghz.
When LoRa was first launched, it has immediately captured the attention of the world. With its sensitivity that reaches up to –148dbm, excellent system capacity performance, and strong anti-jamming capability, it’s no surprise why it immediately captured the attention of the world.
The Advantages of LoRa
LoRa is known for its four major advantages. These are:
1. Long Life
One of the most popular advantage of LoRa is long life. In general, IoT devices are designed to avoid frequent battery changes. Therefore, as an IoT technology, LoRa is required to have a long battery life.
It’s good to know that LoRa does not disappoint when it comes to battery performance. For instance, in terms of water meter applications, this tech can provide a service that may last a decade, which is ideal in the application scenarios of water meters.
2. Long Distance Transmission
In the past few years, most wireless transmission devices worked within short-distance transmissions. That includes the WiFi technology, which works within a few meters to a couple of hundred meters.
Then again, for future IoT devices, short-distance transmissions have to be fixed and changed. But when that will be done, costs will increase.
But LoRa is different. This technology can support transmission distances that reach up to 10 kilometers. Although it has a simple architecture, it is designed to reduce the overall equipment costs as well as the use cost of networks.
3. Flexible Network Construction
LoRa technology does not only support private networks. It also supports public networks, which is determined by an operator or a user. But based on the current development situation, LoRa is commonly applied in different vertical markets, where it is deemed a perfect solution.
4. A Complete Ecosystem
In the standard tech ecosystem, the most important thing is not just a single device. Rather, it is the complete architecture.
Today, more and more markets and vendors take advantage of the LoRa technology, where more networks are being formed to create an even larger coverage all over the world. Hence, in the future, it will be easier to provide an efficient and a more complete solution for the needs of users.
The Future Applications of LoRa
Smart cities and urban intelligence are now being developed and fully-deployed. Along with that milestone, more and more fragmented terminal devices are being introduced in cities. All of them require low power-consumption yet work in long-distance ranges.
And with the emergence of LoRa, we are able to see a glimpse of the future of long-distance network technology. LoRa will break the bottleneck of IoT as it will promote the reduction of the costs of developing IoT technologies and detonate the large-scale application of IoT itself.
As a communication network, LoRa is forecasted to play a vital role. It will be used in the construction of smart transportation networks. It will be used in the implementation of smart lighting. It will be utilized in the management of manhole cover billboards. Most importantly, it will be used in monitoring the consumption of hydropower in industries and cities, as well as monitor and analyze the quality of soil and water.
In the animal and agriculture sector, LoRa may also have a special role to play. According to agriculture experts, the industry will need resources to be able to carry out their function and somehow increase production. If they consider the current network environment where farmlands are situated, they noticed that the majority of the farmlands have no honeycomb cover, although they have the perfect environment, soil, and air.
If only these agricultural factors are carefully analyzed and monitor, then it is likely that the agriculture sector will grow. With LoRa, data monitoring of air and soil temperature will be easier. Plus, lower costs will be involved as the device will tend to have a longer battery life and will work efficiently even at long distance transmissions.
What LabX7 Can Do
At LabX7, we focus on providing network, cloud, and end service solutions for the Internet of Things. With our help, customers are able to quickly realize the “end-to-end” network of the whole industry chain system, which involves interconnection, security, and openness.
As a reliable service solution provider for Internet of Things solutions, we have since introduced a multitude of technologies and services, not only for LoRa technology, but also for other promising techs. Smart parking, smart cities, smart agriculture, asset regulation, smart energy, smart livestock, and IoT finance are only among the solutions we are proud of.