The Cellular Internet of Things (IoT) is accelerating this ubiquitous world of connectivity. According to statistics, it is expected that the number of cellular connected devices will increase to more than 1.8 billion worldwide in 2023. The cellular Internet of Things enables faster development in industries such as transportation, manufacturing, and agriculture. Cellular IoT hardware provides innovative, low-power, low-cost, and reliable connectivity. In today's world, the cellular Internet of Things is still in its infancy and is rarely used in real-world scenarios. That's why, in this article, I've summarized some of the real IoT applications to show how cellular IoT can help product innovators and businesses solve real-world problems. To this day, most cities on the planet are still unable to deal with the damage caused by earthquakes, hurricanes and floods. Now, OpTI has developed a new approach that uses a drainage system equipped with cellular IoT hardware to handle the drainage system to correspond to the under-resourced infrastructure in the city. OpTI's CMAC (Connected Monitoring and Adaptive Control) drainage system reduces environmental damage by monitoring weather forecasts and launching drain valves to reduce flooding and environmental hazards. The drainage system accepts the behavior of the cellular network through its own equipped Electron (an IoT suite), which can also be updated in real time on the mobile network. Hundreds of small drainage systems can be deployed throughout the city, which has many benefits for the entire urban infrastructure. OpTIs with cellular IoT can send new features or fix bugs on these devices at any time. Greg Meandel is not a farmer in the conventional sense. He particularly likes to create a programmable IoT project. His first thought is to eliminate complexity from everyday farm life. One of his many IoT projects is the ability to start remotely. Remote start excavator By using the Electron, he can remotely start the heating rotation of the excavator to start the engine of the excavator. Under normal circumstances, it must wait a few hours for the internal engine to heat up. You can now wake up from your phone and give your order to Electron. At the end of the driver's breakfast, the excavator is already heated and ready. Greg works with friends and uses an excavator to launch it remotely in the wild without having to rely on redundant Wi-Fi services. Chip McClelland, founder of See Insights, is using the cellular Internet of Things to track the number of customers he has in public parking in New York. The public parking lot management department needs to report how many people use their parking facilities each year to help management make a more reasonable allocation of funds. In the traditional way, someone at the parking lot sits at the entrance and records how many people have entered the parking lot. However, Chip has used IoT counters to track any target entering the parking lot, including walkers, joggers, cyclists or cars entering the parking lot. Chip McClelland's counters are also built on Electron's features and use cellular connections to send data remotely. Ability to send data to the dashboard of the manager via the cellular network without having to leave the office. After about three years of statistics, parking managers have gained a lot of value from using Chip's work. Umstead State Parking has deployed equipment embedded in the chip for more than two years, with one device per vehicle entrance. The Crabtree Coachway near the parking lot is also testing Chip equipment to count parking customers. The company is now mass producing these devices to enhance parking lots across the United States. SafeTransport, a subsidiary of Computer Aid, Inc. (CAI), is using fleet connectivity to apply fleet management to school commuting. SafeTransport allows school administrators to remotely track and monitor school buses in real time. Fleet management with SafeTransport Just two years later, the three university districts of Pennsylvania have implemented the SafeTransport system for their bus fleet. With this system, administrators can track vehicles in real time, use active alerts to determine which vehicles are behind schedule or deviate from the route, and share the school bus's whereabouts with parents before problems occur. PM Power Products' StaffAlerter is using Wi-Fi and cellular hardware to produce IoT-based mass-issue alarm systems. With this system, the user can configure multiple events and activate via the telephone system, contact switches, manually activated switches and wireless keyboard (shown below). Activation events can include text messages, emails, text-to-speech automated voice calls, application alerts, and more. StaffAlerter can be used for industrial monitoring, bad weather forecasts, emergency remote door locks and unlocking. StaffAlerter can perform Mass Alert and on-site management, as well as new demographics, and at the same time improve the capabilities of traditional systems. More than 3 billion people around the world use open flames for food cooking at home. Cooking in an open fire is a pleasure for some people, but there are some costs to the home environment. The use of fuel releases a lot of carbon dioxide and other emissions, which will “contribute†to atmospheric changes. Envirofit uses a cellular IoT to remotely monitor the indoor emission reduction impact of its clean energy boilers. These wood fuel stoves are designed to reduce harmful emissions and save fuel, while taking into account the user's traditional cooking habits and experience. Envirofit uses cellular IoT for remote monitoring Recently, Honduras has partnered with Envirofit to provide customized stoves to local communities. To ensure that the stove is used after it has been dispensed, Envirofit is equipped with 1000 electronic stoves with temperature sensors that accurately record the date and time of the home's stoves. With this system, they can also contact special users who don't use the stove, learn from them why they don't, and then help them improve their experience. IoT devices that support cellular networks are deployed around the world every day, and the Cat-M1 protocol is currently the fastest growing. The Cat-M1 is the latest cellular connectivity option for IoT devices; this is an LTE chipset designed to integrate with sensors. Not only does the Cat-M1 consume less power, but it also extends battery life, supporting everything from underwater monitoring to asset trackers and consumer electronics. If you plan to build a device that supports your phone, be sure to use Cat-M1-compatible hardware. Because in the next two years, mobile phone manufacturers will no longer accept 2G or 3G device certification.
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