If you are a company that handles shipping or storage of products, you might want to use GPS container tracking to keep track of your containers. There are many different types of tracking systems available, and this guide will cover everything from costs to integration options. In addition, this guide will cover battery life, power consumption, and integration options. Once you know what to look for in a GPS container tracking system, you will be able to make an informed decision when choosing a product.
Costs
GPS container tracking is an effective way to keep an eye on your container’s whereabouts and avoid the risk of losing it. With GPS device tracking, you can receive live reports about your container’s movements and alerts in the event of unusual activity. This technology can improve your bottom line, give you a competitive edge, and set your business up as tech-forward. But what are the costs? Let’s examine the costs of GPS container tracking and what you can expect.
The most expensive aspect of GPS container tracking is the hardware. While GPS is self-contained, many shorter-range wireless systems require more infrastructure than GPS. Bluetooth devices can last up to three years. Another downside to GPS-based container tracking is its power consumption. GPS-based devices must send a signal to a satellite or cellular network, which consumes power. Bluetooth-based devices are also less power-hungry than GPS devices.
Integration options
GPS Container Tracking is a great way to track your container’s location, reducing your infrastructure costs and increasing efficiency. These solutions are simple to install and require minimal installation time. However, there are a few things you should know before you start the installation. These are: Gps container tracking integration options, device grouping, and firmware updates. Gps container tracking devices use military-grade AES-256 encryption for the privacy of tracking information.
GPS container tracking works with the help of satellite platforms to transmit the location of the container. When the ship leaves its geofenced site, it wakes up and sends out the location of the container. This information is then added to a backend system and supplied to the customer. GPS container tracking modules are available from many companies. A large GPS to satellite-based logistics provider, ORBCOMM, provides instant tracking.
Power consumption
While GPS receivers have long been considered to be power hogs, their power consumption has been reducing significantly. In 2010, a single band GNSS receiver running in continuous tracking mode consumed approximately 120 mW of power. Today, tracking applications can operate with power consumption as low as 25 mW. This power savings will help companies protect their assets and monitor their cargo in real time. The following table outlines some of the main factors that impact power consumption for GPS container tracking applications.
The Internet of Things (IoT) allows for the connection of non-powered assets to the internet, forming a “web” of connected assets. Many companies in various industries are utilizing IoT to enhance their customer experience and business value. However, GPS container tracking systems are largely limited in their range. To be truly effective, they must use a combination of power sources. In order to ensure a higher ROI, GPS tracking systems should be energy-efficient.
Battery life
The battery life of GPS containers varies, but most are at least 12 months. Battery life is a factor in the performance of a GPS container, so make sure to check the battery life on your containers before shipping. GPS container trackers can be used for many purposes, from monitoring cargo in transit to tracking lost containers. Battery life can be a factor for both types of devices. These tracking devices offer many benefits, including:
Devices available
While you might be thinking of investing in a GPS container tracking system, the reality is that they are not as efficient as you might think. In addition to being impractical, GPS-based tracking systems are also very power-hungry. Running GPS requires constant power, so it is essential that you choose a device that can last up to six months on a single battery charge. Moreover, GPS-based container tracking systems must be careful when broadcasting their location because otherwise, they would burn out the battery in a few days.
Among the devices available for GPS container tracking are satellite-based units and IOT RFID sensors. These tracking devices are typically mounted on containers with magnets or screws and send frequent GPS location pings to software. These devices are designed to be safe for shipping products and are certified to ATEX Zone 2 explosion-proof standards. These devices are being developed in consultation with key customers to ensure their safety and security. This article is not intended to be comprehensive, but rather to provide a snapshot of the technology that is available on the market.