Six Reasons to Equip Commercial Vehicles with Advanced Driving Automated Systems

In the times when the automobile industry is driven by artificial intelligence, electric vehicles, and automated systems, innovations are changing automobile driving ways. Technology is being driven by systems that need minimal human intervention.

Commercial vehicles are constantly on the move with heavy loads. The carriers drive long distances for long hours, putting the driver, vehicle, and passing automobiles at risk.

The emergence of advanced driver assistance system (ADAS) is becoming more advanced and popular in the automobile industry, especially among the commercial vehicles sector.

These systems leverage a human-machine interface to improve the driver’s capacity to react to threats on the road when properly developed.

ADAS systems improve safety using early warning and automated systems to reduce reaction times to possible threats. Some of these systems are standardized on particular vehicles, while others can be added later as aftermarket features or whole systems to tailor to the driver’s preferences.

Risks for Commercial Vehicles

● Over 130,000 people are injured each year in truck accidents as a result of the driver’s negligence.

● Approximately 4% of heavy vehicles involved in fatal accidents had hazardous cargo on board.

● According to commercial vehicle accident statistics, vehicles such as cars, vans, or SUVs are responsible for 97 percent of all deaths in incidents involving one or more heavy trucks.

● Contrary to popular assumptions, drugs and alcohol were not one of the leading causes of car accidents.

● The truck’s speed and stopping distance are also factors in semi-truck accidents.

The main motive of the ADAS is to provide guidance and safety to vehicles. The following features of the ADAS help the driver of a heavy truck or transport to deduct any human error and have a safe journey.

Cruise Control with Adaptive Settings

Radar cruise control or adaptive cruise control (ACC) is a sophisticated technology that helps drivers maintain a safe distance between vehicles while driving and enables vehicles to modify their speed automatically as they approach other vehicles.

The ACC system is based on an onboard radar or laser detector that tells the car to slow down if another vehicle is detected.

A digital signal processor, radar headway sensor, and longitudinal controller make up the adaptive cruise control system. When the sensor recognizes any vehicle in its route, it immediately decelerates the car and allows the vehicle to reaccelerate to the specified speed when the path is cleared.

Automotive sensors fail to work when raindrops, dirt, snow, or bird droppings create disruption. Air-based sensor maintenance systems or liquid-based sensor maintenance systems clean the surface of the sensor to restore performance.

Such maintenance systems are rapidly utilized in autonomous vehicles, where sensor performance is crucial, boosting the global market for automotive sensor maintenance systems.

To know more about the automotive sensor maintenance systems market click here.

Lane Departure Warning Systems

Lane departure warning systems assist drivers in staying in their lane and reducing on-road collisions. If the vehicle begins to deviate from its lane, these systems create audio-visual alerts. LDWS recognizes striped and solid lane markers using a tiny camera installed near the rearview mirror.

This device activates an alert when the vehicle begins to deviate from the lanes without the need for an adequate turn signal.

System for Recognizing Traffic Signs

Skipping a traffic signal could lead to a fatal crash. Drivers can use real-time traffic signal recognition (TSR) devices to follow traffic signals and traffic rules.

Traffic signal recognition systems use forward-facing cameras to recognize on-road signs. The system uses real-time inputs from the front cameras to recognize traffic signs. It uses computer vision, image processing, and image recognition algorithms systems for recognition. It shows the details collected by all the sensors on infotainment for the driver.

Pedestrian Detection and Night Vision

Pedestrian detection systems are one of the ADAS roles that requires a high level of precision and consistency. Maximum pedestrian-related incidents occur at night, so the vehicles have night vision systems that allow them to operate precisely in low light.

Thermoelectric cameras and far-infrared sensors effectively support pedestrian detection methods with night vision. On footpaths and highways, infrared sensors record heat radiations toward the front of the vehicle and accurately identify living persons from objects, trees, and traffic signs.

Automobile manufacturers are working on artificial intelligence (AI)-based pedestrian detection technologies that are more accurate than current ones.

Forward Collision Warning System (FCWS)

Forward collision warning systems are electronic devices installed in vehicles that alert the driver in the event of a forward collision with another vehicle or item on the road.

If a collision occurs, modern collision warning systems send alerts to get help from the ambulances or police.

It uses radar, laser, and camera systems to generate audible, visual, and tactical signals. The FCSW system measures the distance, relative speed, and angular direction between vehicles.

When a vehicle in front of the car is detected, some forward pre-collision systems are connected with adaptive cruise control systems to slow down the vehicle speed.

Parking Assistance Technologies

One of the most often used ADAS systems is parking assistance. Parking assistance technologies use ultrasonic sensors mounted on the front and rear bumpers of the car. They detect obstructions during parking and trigger an alarm.

The device also includes a back camera that provides visual aid while parking. The system detects the vehicle’s distance from the barrier.

Advanced driver assistance systems have numerous other functions that assist in automated driving, such as driver behavior monitoring, automatic emergency brake systems, blind-spot detection, and so on. All the components contribute to the safety of vehicles, drivers, and the general public on the road.