The Rise of GPS Tracking Technology: A Decade Ago
A decade past, GPS technology was an emerging concept primarily linked to in-vehicle navigation systems. Heavy equipment and asset tracking were nascent, characterized by expensive devices with limited functionality. Both device and airtime rates were relatively high, impeding widespread adoption in sectors heavily reliant on robust machinery.
In the current landscape, GPS technology stands as a pivotal asset in monitoring and tracking assets, with standard GPS devices priced between $50 and $300. At Rovitracker, our devices, averaging around $200 each, seamlessly integrate with a myriad of systems, offering tailored data extraction capabilities that not only save costs but also enhance safety and operational efficiency.
However this all depends on what kind of data you are wanting to collect, collecting the most and having multiple features such as changing the frequency of ping, turning on and off your vehicle, looking at battery voltage and engine run time. That could increase the price of the device if it is capable of those features, however, it will save you down time and reduce stress for you and your coworkers by not having to manually check, keep up with maintenance, and constantly operate on your machinery.
Advancements in Battery-Powered Devices: A Game-Changer
One of the most notable changes in the last 10 years has been the advancement of battery-powered GPS devices. The introduction of energy-efficient technologies and longer-lasting batteries has empowered businesses to deploy tracking solutions in a more cost-effective manner. These devices are now widely used for tracking heavy equipment and rental assets, providing real-time location data without the need for constant wiring.
Beyond tracking, battery-powered devices serve as a secondary safety measure. In the event of an attempted theft involving wire cutting, these devices continue to track and monitor, aiding in asset recovery. Numerous individuals and businesses have benefited from such technological resilience.
Wired Devices for Reliability and Continuous Monitoring
While battery-powered devices have gained popularity, there is still a significant demand for wired solutions, especially in industries where continuous monitoring is critical. These devices are hardwired to the vehicle or equipment’s power source, ensuring uninterrupted tracking. Though the installation process may be more involved, the reliability and constant power supply make them ideal for long-term and mission-critical applications.
Wired devices can pull more than just your location. Additional data could include movement behaviors such as speed, hard turns and stops, impact, tilt and some analog metrics, like psi, temperature and fluid level.
Satellite vs. Cellular: Balancing Connectivity and Cost
The choice between satellite and cellular connectivity has become a key consideration in the deployment of location tracking devices. A decade ago, satellite communication was the primary option for remote and off-grid locations, but it often came with a heavy price tag. The proliferation of cellular networks and advancements in coverage have provided more cost-effective options, especially in urban and suburban areas. However, satellite technology still plays a crucial role in remote regions where cellular signals may be unreliable.
The reason for satellite driven devices being efficient in terrain such as forests, mountains, deserts, etc. Is the global coverage that satellites can cover, making it super reliable in remote areas, making the initial upfront cost higher for devices and subscription plans rather than cellular.
With cellular the fees will be lower, however some isolated areas or terrain may limit the data you can collect due to limited cellular range. Within range this is where cellular devices excel in providing real-time updates, providing immediate location information that can help with fleet management or monitoring assets moving in and out of the job site.
So here are some differences to consider:
Satellite:
- Limited on data, because satellite data, usually the main data gathered is location.
- Usually one way communication, this means you cannot send a message to the device and make changes remotely. An example would be a device that sends a location once per day. If in the future you need to change the frequency to once per hour, that device needs to be shipped back to the vendor so they can modify the configuration manually. This could be a daunting task if you have many devices and they are scattered in the field.
Cellular:
- Coverage is limited based on cell towers, so usually the better coverage is within larger cities and along the main corridor.
- Data rate is competitive
- Wired and battery only devices are much more advance
As technology has advanced and competition among GPS providers has increased, the rates for both devices and airtime have been more competitive. This trend is making GPS technology solutions more accessible to a broader range of industries and businesses, driving further innovation in the field.
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