Implementing IoT (Internet of Things) technologies to unravel transportation issues and improve road safety is simply one example of how innovative technology solutions can drive positive change in people’s lives and businesses—possibly even improving the health of the earth. In today’s world, we are all discovering there are tons in our world that can’t be controlled especially where an epidemic of unknown origin brings governments, citizens, and economies to their knees. However, there are some areas of society where innovation is often applied to form a difference for the greater good.
According to the WHO (World Health Organization), approximately 1.35 million people die per annum as a result of road traffic accidents, and up to 50 million more suffer non-fatal injuries. These numbers are too high from the human loss perspective, and they’re also too high from a price perspective.
The WHO says road traffic crashes cost most countries 3% of their GDP (gross domestic product). What results in unsafe roadways? a couple of factors including human driver error, speeding, driving while distracted or driving under the influence, failure to use safety equipment like seatbelts and helmets, unsafe vehicles, and unsafe road infrastructure.
The transportation industry at large is undergoing a change, and at the guts of this industry, transformation is connectivity. the character of the vehicle is additionally changing. The IoT is advancing vehicles and creating safer roadways in multiple, interrelated ways. It’s also opening the door to new risks that have got to be mitigated to stay people safe. within the end, this transformation will benefit humanity by saving lives and also lessening humans’ impact on the earth.
IoT in Vehicles
Connected technologies and therefore the IoT are improving vehicle safety, efficiency, and convenience, also because of the overall user experience. Jonathan Stone, head of programs, research, and advanced engineering at Continental North America, says the info collected by these technologies can ultimately improve road safety by helping in decisionmaking or by automating control functions. “In the only view, the vehicle is an IoT device today,” Stone says. “(And it’s) the foremost expensive and sophisticated one at that.”
Vehicle connectivity enhances safety through OTA (over-the-air) software updates to rapidly address cybersecurity threats, also because of the ability to tell drivers and vehicles of traffic incidents, road debris, and other hazards. “Congestion and traffic flow information aid drivers and vehicles to navigate more efficiently to their destinations with the additional advantage of an improved carbon footprint per trip,” Stone says.
Of course, connectivity also brings new sorts of convenience, enhancing the user experience with in-car personal assistants, OTA feature updates, and crowd-sourced traffic information. Connected vehicles also can tell owners and operators when something is wrong, thereby improving diagnostics and easing maintenance.
The IoT is additionally improving how the industry goes about developing and testing connected-vehicle technologies. “As we design new vehicles and features, using anonymized data from existing vehicles on the road can help pinpoint what features are most vital to customers and even those which aren’t getting used as intended, triggering improved designs and a far better experience for the driving force,” Stone says. “(The) IoT also can offer major benefits during the event process—using realtime data collection and analysis during testing and validation to streamline the method .”
Elvira Wallis, vice chairman and global head of IoT at SAP, makes it some extent to mention that connectivity is transforming quite just personal vehicles. “When people say ‘vehicles,’ that’s already cutting it short. And here’s what I mean—very often it is often the forklift, it is often the trailer, it is often the truck,” she says. “So we just got to confirm that folks don’t just believe their personal vehicles, because tons of the utilization cases around vehicles or modes of transportation are really within the industrial realm where it’s not Joe’s, Tom’s, Dick’s, or Harry’s personal private car.”
For example, Wallis says SAP is doing tons of labor around forklifts in warehouses and trucks in Asia. the corporate is leveraging connectivity to know vehicle/equipment use or employees’ driving patterns. Vehicle connectivity, therefore, is about quite just improving vehicle safety and occupant convenience; it’s about equipment management and fleet management—optimizing how businesses use their fleets, decreasing idle times, improving fuel efficiency, and, when applicable, ensuring compliance with hours-of-service restrictions.
Vehicle connectivity is additionally contributing to an industry transformation, giving stakeholders the power to get new revenue streams through telematics and fleet services, also as V2X (vehicle-to-everything), autonomous driving, and ADAS (advanced driver assistance systems) solutions.
The modern smart vehicle can tell us what it needs before it needs it, and this goes an extended way toward improving road safety when this is often paired with connected infrastructure. “(Connectivity) makes it possible for the vehicles to cooperate to a way larger extent,” Lundén says. “When vehicles are connected to other vehicles also as (to) the transport ecosystem around them, improvements in traffic flow and safety are evident. Already today, we see early benefits of ADAS with features that help reduce collisions and injuries on the road. These benefits grow exponentially when vehicles are connected in order that they can share information with each other and with everything around them via a cellular network.”