5 Best Applications Of IoT Used In The Automotive Industry

IoT’s introduction to the automobile sector has given carmakers and buyers worldwide new opportunities. IoT in the automobile industry has become a well-known hotspot for diverse multi-purpose applications due to utilization at both industrial and commercial levels. The Internet of Things IoT applications, which range from automated transportation systems to connected cars, have significantly impacted the worldwide automotive business.

The Internet Of Things (IoT)

A network of billions of sophisticated devices, including electronics, sensors, gateways, actuators, and platform hubs, is referred to as the “Internet of Things.” Through a wireless network, these physical objects are linked and communicate with one another. Connected objects (or things) communicate and exchange data without the need for human intervention.

However, the opportunities that the internet of things presents for the automotive sector are truly enormous. The way people engage with their vehicles is being revolutionized by a variety of Automotive IoT use cases. Let’s examine each one separately:

1: Management Of The Fleet

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The application of IoT in the automotive industry has significantly advanced fleet management. These days, sensors for weight measuring, position tracking, and other purposes are installed in trucks.

A cloud application is used to store the vast amount of sensory data gathered from a large fleet of such trucks. Then, this data is transformed into a visual manner after being analyzed by various analytics features. This information is simple to use for a fleet operator to monitor the many fleet-related parameters. A fleet manager can gain from an IoT-infused fleet management system in several ways, including:

  • Fleet position tracking in real-time
  • Monitoring the weight and volume of the goods the fleet is transporting
  • Data about the fuel efficiency and mileage of trucks
  • Monitoring the flow of traffic on the road
  • Route administration
  • Management of Time and Driver

2: Connected Vehicles

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Connected vehicles are not a novel concept. The CV2X (cellular vehicle to everything) IoT network, which links vehicles and intelligent transportation systems, is used to connect these autos.

Through improved vehicle connection, connected cars enable quick data transmission and improve drivers’ reaction times. The CV2X is categorized into four groups based on how the vehicle interacts with various objects:

1: Vehicle To Vehicle (V2V):

A V2V connection enables nearby vehicles to exchange data with one another. Location, speed, and dynamics-related information make up the majority of the data. V2V connections aid in accident prevention and facilitate the flow of emergency vehicles such as ambulances and fire engines through traffic.

2: Vehicle To Infrastructure (V2I):

A network of vehicles and road infrastructures is referred to as a V2I connection. Generally speaking, traffic lights, lane markers, and toll booths make up the infrastructure in V2I. V2I generally promotes efficient traffic flow and reduces wait times at gas stations and toll booths.

3: Vehicle To Pedestrians (V2P):

A pedestrian can also connect to the CV2X network using a smartphone application. This application allows pedestrians to look up local taxis and keep track of transits’ anticipated arrival times. They can also change traffic signals to cross a road and link with the pedestrian walking system.

4: Vehicle To The Network (V2N):

To notify drivers of changes in the weather or on-road accidents, the Intelligent Transport System (ITM) and weather forecasting department can also communicate with the network. Additionally, cell phones can link to a vehicle. In this manner, the car’s music system and GPS can be controlled by voice commands while the driver is on the road.

3: Vehicle Maintenance System

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One of the most astonishing aspects of the IoT automotive is predictive analytics. The sensors built into various auto parts gather data and upload it to a platform. An algorithm that can analyze the component’s future results based on its performance then processes this data.

A person can use an IoT automotive maintenance system to help them take the required precautions to stop their car parts from breaking down unexpectedly. Similar to a car’s dashboard indicators, this system warns the driver of potential faults. But long before the issue even arises, the alarms are delivered to the driver’s mobile device. This enables the driver to take quick, efficient actions to prevent component failure while driving.

Both a fleet of vehicles and a single vehicle can use the capabilities of predictive maintenance. For load-carrying vehicles that must drive for days before arriving at their destination, it is extremely helpful. A user can check the performance of their car and fix any broken parts by using the automotive maintenance system.

4: Self-Driving Cars

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Automobile manufacturers are talking a lot about autonomous vehicles. Many automakers are working to create a completely autonomous vehicle that will take over all driving duties from the driver. Although progress has been made in this area, a fully autonomous vehicle still has to be created.

However, semi-autonomous vehicles that help drivers with driving, braking, parking, and lane-changing tasks have been produced. To prevent accidents and lighten the load on the driver, semi-autonomous vehicles with IoT integration make judgments immediately and partially control the vehicle’s operations. To decrease human error and improve driving safety and comfort, cars now have a variety of proximity sensors and cameras.

5: Telematics And Infotainment Systems For Vehicles

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Telematics capabilities for IoT-based automotive have been made possible by in-car Wi-Fi capabilities driven by 4G LTE connections. Telematics is the term for long-distance electronic data transfer. A car owner can maintain a close eye on their vehicle even from far-off places by employing vehicular telematics.

Car owners can have peace of mind regarding their vehicle’s safety, surveillance, and security at all times thanks to a smartphone-enabled dashboard. External cameras and sensors monitor the health of the cars and transmit the information to a mobile application. If someone tries to violently enter the vehicle without authorization, the telematics system and real-time alert system sound an alarm in the owner’s smartphone. In case of an emergency, the connected smart car will also call the appropriate authorities right away, such as the police or firefighters.

Along with other smart automobile technologies, Wi-Fi capabilities have given rise to smart infotainment systems. Owners can use their smartphone to remotely control various automotive accessories including the music system and GPS. Currently, a person can connect his vehicle with his mobile device via a variety of built-in and third-party programs.

These applications’ voice command accessibility enables users to watch videos, play their favorite music, and answer calls all without even having to move an arm. The infotainment systems’ GPS and GNSS systems additionally provide onboard navigation and thorough details about gas stations, eateries, and other surrounding points of interest.

Conclusion

The whole automobile sector is changing thanks to the Internet of Things and other disruptive technologies. The evolution of this industry has resulted in the development of cutting-edge connected and automated vehicles. Its use has improved auto maintenance and inspection capacities and opened up new entertainment channels. Additionally, long-distance data transfer made possible by automobile telematics has aided in the development of a fleet management system driven by the Internet of Things.

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