The way we track assets, cars, and people has been changed by GPS tracking technology. Nowadays, Businesses may monitor their assets in real-time using GPS trackers, increasing productivity, security, and efficiency. Nevertheless, to maintain precise tracking, GPS trackers must connect to a network that can send the information across great distances. Technology like LoRaWAN can help with that. LoRaWAN technology is gaining popularity because of its low power requirements and capacity for long-distance communication. To ensure that the sent data is secure and verified, LoRaWAN GPS trackers interact with a LoRaWAN network server via a special handshake technique.
So in this article, we will explore more about the GPS Tracker Lorawan Handshake technique, the benefits of the GPS tracker LoRaWAN handshake, and how it can improve your business operations.
What Is LoRaWAN GPS?
LoRaWAN GPS is made with the combination of two technologies that are LoRaWAN and GPS. The LoRaWAN protocol is a low-power and wide-area protocol and is used to link IoT devices to the internet. The global positioning system (GPS), on the other hand, employs satellites to deliver location information.
LoRaWAN and GPS can be used in conjunction to give IoT devices precise location information. This is especially helpful for real-time location-tracking applications like GPS asset tracking, fleet management, and personal safety equipment.
What is GPS Tracker LoRaWAN Handshake?
GPS tracker LoRaWAN handshake is a technique that helps in establishing communication between a GPS tracker and a LoRaWAN network. LoRaWAN stands for Long Range Wide Area Network which is a wireless network that can transfer data over long distances with low power consumption. LoRaWAN technology is suitable for IoT (Internet of Things) devices such as GPS trackers that need low bandwidth and long-range communication.
This handshake technique involves the following steps:
- The device contacts the LoRaWAN network server with a Join Request message.
- The application session key and the network session key are included in the Join Accept message that the network server sends back in response.
- The device encrypts and decrypts the data being sent to and from the network server using the network session key and the application session key.
- The battery life of the LoRaWAN network device is good.
How does the GPS Tracker LoRaWAN Handshake function?
As mentioned above, the GPS tracker LoRaWAN handshake sets up a connection between the GPS tracker and the LoRaWAN network. When the connection is established, the GPS tracker sends a handshake signal to the LoRaWAN network. The LoRaWAN network acknowledges the call and sends a response back to the GPS tracker. Once the GPS tracker receives the answer, it understands that it has successfully established a connection with the LoRaWAN network and now is ready to transmit data.
Alternatively said, when a LoRaWAN GPS tracker is turned on, it sends a Join Request message to the LoRaWAN network server. The device’s Join Request Message includes a special identification number and a random number. The network and application session keys are included in the Join Accept message that is produced by the LoRaWAN network server using this data.
The device uses the application session key and the network session key to encrypt and decode data sent to and from the network server. By doing this, it is made sure that the information is secure, authenticated, and that only permitted devices can communicate with the network server.
Benefits of Using GPS Tracker LoRaWAN Handshake
Here are the benefits of using GPS Tracker LoRaWAN Handshake as mentioned below:
- Extended Communication
GPS trackers that need to send data over a wide area should use LoRaWAN technology because it can transmit data over long distances.
- Power Usage is Low
Because LoRaWAN technology uses so little power, GPS trackers can function for a long time before requiring a battery replacement.
- Low Bandwidth
High bandwidth is not necessary for GPS trackers to deliver data. For Internet of Things (IoT) devices that need low bandwidth and long-distance connectivity, LoRaWAN technology is perfect.
- Cost-Effective
Compared to other wireless communication technologies, LoRaWAN technology is more affordable, making it a great option for companies that track assets and vehicles.
- Security
The LoRaWAN handshake guarantees the security and authenticity of the data transmission between the device and the network server, preventing unauthorized access to the data.
- Efficiency
To ensure that data may be delivered in real-time, a secure connection between the device and the network server must be established quickly and effectively using the LoRaWAN handshake.
- Scalability
For companies and organizations who need to track a lot of assets, the LoRaWAN network is the best option because it can accommodate a lot of devices.
How does GPS Tracker LoRaWAN Handshake Improve Business Operations?
The following are some ways in which the GPS Tracker LoRaWAN Handshake technique can help improve your business operations:
Real-time tracking: Businesses can track their assets and vehicles in real-time with the help of a GPS tracker and a LoRaWAN handshake which thus results in increasing their productivity and efficiency.
Asset management: GPS trackers may give companies precise data about their assets, enabling them to streamline processes and cut expenses.
Security: By providing real-time tracking and alerts for unauthorized movements, GPS trackers can assist businesses in enhancing the safety of their assets and vehicles.
Limitations of GPS Tracker LoRaWAN Handshake Technique
Besides having so many benefits, there are certain limitations of GPS Tracker LoRaWAN Handshake as well which are as follows:
- Coverage
Only a few locations have access to LoRaWAN technology, and coverage varies by location.
- Interference
The connection quality of LoRaWAN technology might be hampered by interference from other wireless devices.
- Limited Bandwidth
GPS trackers rely on LoRaWAN technology and so have limited bandwidth and this can affect the amount of data they can transfer.
Frequently Asked Questions
1. What is the difference between GPS and LoRaWAN technology?
Ans: GPS stands for Global Positioning System technology and is used to know the location of anything while LoRaWAN technology is specifically used to transfer data over a long distance with low power consumption.
2. How precise is the GPS tracker LoRaWAN handshake?
Ans: GPS tracker LoRaWAN handshake is a highly proper technology as it establishes a secure connection between the GPS tracker and the LoRaWAN network so that the data can be transmitted accurately.
3. Are GPS trackers capable of functioning without LoRaWAN technology?
Ans: Yes, GPS trackers can work without LoRaWAN technology but it may require a different network or technology to transfer data over long distances.
4. Is the GPS tracker LoRaWAN handshake device secure to use?
Ans: Yes, the GPS tracker LoRaWAN handshake is confident that it uses encryption to protect data transmitted between the tracker and the LoRaWAN network so we can say that it is secure.
The final words
So overall, the GPS tracker LoRaWAN handshake is an important technology that enables GPS trackers to transmit data over long distances along with low power consumption. Businesses can benefit from increased security, real-time tracking, and asset management thanks to this very precise technology. However, Companies should be mindful of LoRaWAN’s limitations, including its constrained coverage and bandwidth. In general, the GPS tracker LoRaWAN handshake is an affordable and dependable option for companies trying to streamline their processes and improve their ability to manage assets.
We hope you found this article informative and now you can decide if you should use GPS Tracker LoRaWAN Handshake for your business operations or not.
