As a groundbreaking technological advancement, the Internet of Things (IoT) touches every facet of a person’s existence. It enables incorporating electronics and internet connectivity into previously inanimate things, such as GPS trackers, sensors, and even commonplace objects.
IoT helps open up the possibilities of devices we’ve used for a while to enjoy them in a whole new, exceptional way. With IoT setups, your devices throughout your home and vehicle can stay connected in a network, allowing you to make changes and find information quickly, anywhere you can access your phone or tablet.
Global Positioning System (GPS) technology has been available for a long time. Still, the advent of IoT has fundamentally altered how GPS-based apps and gadgets get utilized. With the help of IoT technology, GPS devices may now connect to other systems and send and receive data from afar.
With that, here are some of the most notable use cases for IoT GPS Tracking Devices:
IoT Sensors for Safer Driving
Tracking devices installed in cars reveal a lot about how people travel. With real-time data regarding driving habits, IoT technology substantially enhances a driver’s ability to be monitored. Sensors installed in tracking devices can identify and alert the driver to unsafe driving behaviors like speeding, idling, and hard braking.
Moreover, when IoT and GPS technologies combine with fleet management software, the results are game-changing for enterprises that operate a fleet of vehicles. Management system reports on driver performance can help spot problem drivers. These problem drivers can engage with training programs, warnings, or prizes designed to improve their behavior behind the wheel.
Managers can instantly pinpoint vehicles and drivers in the case of an emergency, speeding up the arrival of aid and decreasing the likelihood of fatalities and major injuries. This can help businesses reduce their workman’s comp expenses by reducing the severity of accident-related injuries. The data can also be used for insurance purposes when filing claims related to a vehicular incident.
In line with this, EeLink’s Environmental Conditions GPT29 Visibility Tracker is a tracking device that offers a wide range of reliable data. You can track everything with shock, motion, light, and even temperature and humidity sensors.
Monitoring of Product Condition
Everyone understands the frustration of a product arriving damaged. But, when businesses receive damaged shipments, the losses can be substantial. It’s no longer a single product. Instead, shipping damage can result in an entire shipment being discarded.
Without proper monitoring, issues like these can take businesses by surprise causing further losses. It can result in missed deadlines, project delays, and other conveniences for you and your partners.
While tracking product conditions may not prevent damaged shipments, it can give businesses a heads-up so they can rectify the issue immediately. Whether this rectification means ordering new products prior to the arrival of damaged products or starting return paperwork ahead of time, a notice of damaged shipments can help businesses minimize losses.
Eelink’s GPT29 in-transit monitoring device gives you the data you need to monitor product conditions during shipping. It provides extensive, real-time data on a variety of factors that can impact the condition of a product. This data can also be used to ensure all products with specific shipping requirements maintain those requirements throughout a shipment. For example, if a product needs to remain frozen throughout shipment, the GPT29 in-transit monitoring device can monitor the temperature of a product during transit.
Streamlining Logistics and Transport
In the transportation and logistics sector, the main difficulty is keeping tabs on vehicles and their destinations. When you have many assets and people to relocate across multiple cities or even countries, it can be incredibly challenging to maintain track of their whereabouts, let alone map out optimal routes or provide reliable ETAs to your clients.
Since the advent of tracking devices enabled by the Internet of Things, fleet management has dramatically transformed. Field managers can use real-time vehicle data to get the most out of their teams. Tracking employees’ whereabouts in real-time allows businesses to reroute vehicles around traffic jams or closed roads and provides a faster response time in emergencies.
One of the greatest tools for this is EeLink’s GPT29 cargo tracking device, which, as the world’s most advanced in-transit monitoring gadget, features sensors that continuously report on where your shipment is. Moreover, the GPT29 is far more advanced than previous trackers, reporting not just location but also temperature, humidity, light, shock, and movement at every step.
Unparalleled Tracking of Property Assets
The transportation of delicate cargo and equipment is a task that you must approach with considerable caution. When transported over long distances, perishable items like vegetables, baked goods, and meat products need to be kept in an environment that gets managed tightly, which means you must watch them around the clock.
Historically, drivers were responsible for manually carrying out this tedious operation by performing inspections of the cargo at predetermined time intervals. In today’s world, field managers employ GPS tracking systems equipped with IoT-enabled sensors installed into each vehicle at a reasonably low cost to monitor every vehicle and cargo held simultaneously.
In addition, advanced sensors can detect changes in the state of the cargo hold and effortlessly upload the data to the cloud. Field managers can remotely inspect the condition of their goods and make any necessary adjustments, such as modifying the settings for temperature and humidity or telling the driver about a failure from anywhere in the world.
EeLink’s TK418 with Bluetooth is an end-to-end IoT solution that aims to improve retail deliveries by integrating GPS and BLE technology. Tracking gadgets with GPS TK418 for cost-effective and efficient asset management and sensor monitoring applications, IoT sensors can also function as Bluetooth Gateways, allowing them to communicate locally with other tagged assets and mobile devices.
Conclusion
The adoption of IoT technologies has been exponential. The advent of IoT-enabled systems and connected sensors have greatly improved GPS-based gadgets and tracking systems. Ultimately, IoT’s superior connectivity and the sizable network of linked devices via GPS have made modern lives easier.
