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How ThirdEye’s Driver Assistance System is Revolutionising the Transportation Industry

By Blog

What is fleet management?

Fleet management plays a crucial role in helping businesses optimize their fleet operations by reducing costs, improving efficiency, and ensuring compliance with regulatory requirements. This involves a range of activities, including vehicle maintenance and repair, fuel management, route planning, driver safety monitoring, and more. Fleet management systems have been a game-changer for fleet managers, providing them with real-time data and insights to make informed decisions and streamline their operations. These systems have evolved significantly over the years, leveraging the latest technologies such as GPS tracking, telematics, and artificial intelligence to deliver even greater value to businesses. Despite their complexity, fleet management systems are designed to make fleet management easier and more efficient, ultimately helping businesses achieve their goals and stay ahead of the competition.

How The Future of Fleet Management Will be Shaped by Artificial Intelligence

Looking ahead, it’s clear that artificial intelligence (AI) is transforming the way we live and work. While some may be hesitant, supporters of AI have high hopes for its capabilities. Essentially, AI works to simulate cognitive intelligence in computing systems, and its impact has been nothing short of remarkable.

Industries and businesses of all kinds are feeling the effects of AI, including fleet management. Fleet managers face the challenge of prioritizing driver safety while still maintaining cost efficiency, and AI-powered solutions like GPS fleet trackers are making this possible. Telematics solutions and smartphones are providing drivers with real-time information, helping them make informed decisions and enhance their overall experience.

Thanks to AI algorithms, fleets can now plan routes, predict vehicle performance, and manage on-road risks like never before. Scalable routing algorithms, predictive vehicle performance models, and traffic data analytics work together seamlessly to provide optimal routes in real time. AI algorithms and GPS technology have also personalized the user experience, making the journey easier with OBD-II trackers and traffic applications.

But the benefits of AI-powered systems go beyond route recommendations and personalized experiences. They can also analyze on-road risk management data and train drivers to perform their jobs safely. With accuracy, convenience, efficiency, and ease of operation, AI is making our lives simpler in ways we never thought possible.

Ultimately, AI-powered fleet management systems are game-changers that bring a new level of safety, efficiency, and cost-effectiveness. As fleet managers and drivers alike seek to stay ahead of the curve, AI will undoubtedly play a critical role in shaping the future of transportation. After all, at the heart of every fleet are human beings, and anything that can help ensure their safety and well-being is truly invaluable.

A Basic Explanation of Our AI-Based Solution (Third Eye)

At the heart of fleet management is the priority of driver safety and compliance. AI-based technology can provide assistance in ensuring that drivers stay safe on the road. By leveraging AI, fleet managers can streamline their operations and eliminate human error from all processes. AI-powered solutions can make recommendations that lead to better decision-making and improved long-term fleet performance while still allowing drivers to retain autonomy during each transport cycle. One example of such a solution is ThirdEye, which not only prevents collisions but also reduces their severity. It can use integrated data to improve CSA scores, enhance compliance, and even exonerate drivers from expensive insurance claims. Additionally, ThirdEye can be used to coach drivers and help them improve their driving skills.

Ways ThirdEye Can Enhance Driver Safety and Compliance in Fleet Management

Driver Assistance System
Anticipating potential risks on the road is a crucial aspect of ensuring driver safety, and that’s where predictive collision alerts come in. By leveraging AI technology, these alerts can help drivers anticipate risks caused by other vehicles, pedestrians, cyclists, changing lights, and other potential hazards on the road. But that’s just the beginning of the safety features that ThirdEye, our AI-based fleet management solution, has to offer. With features like pedestrian collision warnings, forward collision warnings, safety distance alarms, speed limit recognition, road sign detection, traffic light detection, lane departure warnings, and verbal alerts, ThirdEye provides a comprehensive safety net for drivers. And with real-time GPS tracking that sends location data to the Command & Control system, fleet managers can monitor the safety and compliance of their drivers, ensuring that everyone on the road is operating at the highest levels of safety and efficiency

Driver Monitoring System:
ThirdEye, our AI-based fleet management solution, offers a comprehensive driver monitoring system that ensures driver safety and compliance. With the help of AI-powered internal cameras, the system analyzes facial movements in real-time to detect unsafe driver behaviour. The Face ID feature uses advanced face recognition algorithms to detect and recognize the driver. In case of any misbehavior, the driver receives verbal alerts based on each behavior, and a notification is sent to the Command & Control system to describe the type and time of the misbehavior. The system also offers on-demand video calls with the driver to discuss any misbehavior.

ThirdEye’s Driver Monitoring System offers driver risk scoring, which allows drivers to see their risk score for the day, week, and month. The system uses machine learning algorithms to detect driver distraction and classify behavior, including talking to a passenger for an extended period, operating the radio with noisy high sound or switching channels for an extended period, reaching behind the passenger seat for an extended period, texting or calling while driving, eating, drinking, smoking, having loud noises in the vehicle, and drowsiness. The system even detects when a driver is not fastening the seatbelt while driving above 10 km/h. The system provides real-time GPS tracking, allowing the Command & Control system to monitor driver safety and compliance. With ThirdEye, fleet managers can ensure that their drivers are operating at the highest levels of safety and efficiency

Command & Control System:
Our Command & Control System is a powerful tool for fleet management, providing a simple and intuitive way to keep track of drivers’ safe driving behaviors over time. With the ability to communicate with drivers on demand, the system ensures that everyone is on the same page when it comes to safety. Access control is built-in, and the system can integrate with Windows Active Directory for user management. Admins can manage users, vehicles, and drivers and track the location of each vehicle in real-time on a full map view. Notifications and alerts are received with details of the misbehavior type and date, and vehicle markers turn red in case of driver issues. All driver and vehicle details are collected and audited for 12 months, and admins can download violation reports. The system automatically calculates driver scores, which are updated whenever a violation occurs. Admins can choose to accept violations and update driver scores accordingly. Our Command & Control System is built with the latest web technologies, using.Net Core and Angular, and the data is stored in either SQL Server or MySQL databases, with the ability to switch between them.

At the end of the day, creating a culture of safety within your trucking fleet is crucial, and the best way to ensure safety on the road is by promoting good driving habits. And what better way to do so than by utilizing an AI-powered fleet dash cam like the ThirdEye?
ThirdEye’s comprehensive solutions are designed to enhance the safety and efficiency of your fleet while providing you with valuable insights and analytics.
Contact us today to learn more about how we can help you keep your drivers safe and your business running smoothly

Advanced Driver Assistance Systems: The Future of Road Safety

By Blog

Road safety has been a major concern in the world for many years, but recent developments suggest that things are starting to change for the better. According to a recent report, the number of accidents and injuries on European roads has decreased significantly since the turn of the century. This is due in large part to the efforts of various organizations and government agencies to improve road safety through the use of active safety technologies.
However, since 2010, progress in reducing accidents and casualties has stagnated. It aims to achieve zero fatalities in road traffic by 2050, and while gradual automation in cars could contribute to achieving this goal, it also comes with new safety risks.

Let us investigate how the automation industry could manage these risks

Many new cars on the road today have systems designed to make driving easier, such as maintaining the speed limit and keeping a certain distance from other vehicles, staying in the middle lane, and intervening independently with an emergency braking system in case of an imminent collision. However, drivers are putting too much trust in these systems.
Several recent incidents have shown that this trust is not always justified. For example, a car with adaptive cruise control and auto steer engaged collided with the rear of a sudden merging truck, and another one drove straight across a roundabout and collided with a pole because the car’s automated systems did not recognize the roundabout. So blindly relying on automated systems does not always work, and car drivers must be ready to intervene at any time if technology fails, making driving more difficult.
From a legal point of view, these systems are intended only to provide support, but the disclaimers of manufacturers and governments that the driver is always responsible do not adequately address the issue at hand. It is often unclear to the driver what the limitations of the technology are or how it works.

Currently, advanced driver assistance systems are like a black box for the government, and the police struggle to interpret relevant data after accidents. Additionally, manufacturers do not share their experiences in automation with each other, which means that some companies could create improved and safer cars through software updates while other car companies still lag behind. Therefore, adopting responsible innovation practices would benefit the industry as a whole, promoting greater transparency and collaboration.
Moreover, automotive manufacturers should provide car drivers with more and clearer information about what their cars can do and, most importantly, what they cannot do.

Advanced driver assistance systems have the potential to improve road safety, but adjustments are necessary to utilize this potential to the fullest.

Let’s take a deeper journey in the driver assistance systems realm:

Do you ever worry about making mistakes while driving? Adas, or Advanced Driver Assistance Systems, is here to help! These advanced systems can actually prevent most accidents caused by human errors using all kinds of safety features, both passive and active, that work together to eliminate errors and provide 360-degree vision near and far. It consists of sensors, systems on a chip, and a powerful computer processor that integrates all the data With fancy technologies like radar and cameras, which enables it to sense what’s going on around your vehicle and either give you information or take action to keep you safe,
This makes the drivers more confident and comfortable behind the wheel! Plus, as Adas technology continues to improve, we’re getting closer and closer to fully autonomous vehicles. Who knows, maybe one day you won’t even need to drive at all!

These systems are equipped with an array of advanced sensors that work together to enhance the driver’s senses and decision-making abilities. Using Sensor Fusion technology, which is similar to how the human brain processes information, Adas combines data from various sensors such as ultrasound, lidar, and radar.
What this means is that Adas can physically respond faster than a human driver and can “see” things that might be difficult for humans to detect, like in the dark or in all directions at once. Ada’s vehicles categorize different technical features based on the amount of automation and scale, ranging from level 0 (where the driver is entirely responsible) to level 4 (where the vehicle can operate without a driver and is restricted to specific geographic boundaries). So whether you’re someone who wants a little extra help staying safe on the road or you’re excited about the possibilities of fully autonomous vehicles, Adas is definitely worth exploring!

Level 5 vehicles are the ultimate goal of autonomous driving, and they’re pretty exciting! Imagine being able to sit back and relax while your car handles all the driving tasks without needing any input from you. It’s like having your own personal chauffeur. But how does it work? Well, the vehicle uses different advanced driver-assistance systems (ADAS) to ensure safety and efficiency on the road.

One of the most impressive ADAS systems is adaptive cruise control. This system helps maintain a safe following distance and speed limit, making it ideal for long highway trips. With adaptive cruise control, the car can adjust its speed and even stop if necessary based on other objects’ actions in the area. This takes a lot of the stress out of driving on busy roads and highways, allowing you to sit back and enjoy the ride.

All of these ADAS systems work together seamlessly to ensure the vehicle can perform all driving tasks under any condition. This means that you don’t have to worry about anything while you’re on the road, and we can’t wait to see what other advancements are in store!

Crosswind Stabilization is designed to help the driver remain in their lane by detecting track offset caused by strong crosswinds and automatically correcting the vehicle’s course at a speed of 50 miles per hour. This system distributed the wheel load according to the velocity and direction of the crosswind and was first featured in a 2009 Mercedes-Benz S-Class.

The Traction Control System helps prevent traction loss in vehicles, preventing them from turning over on sharp curves and turns. The system detects if a loss of traction occurs among the car’s wheels and automatically applies the brakes or cuts down the car’s engine power to the slipping wheel. These systems use the same wheel speed sensors as the anti-lock braking systems, and individual wheel braking systems are deployed through TCS to control when one tire spins faster than the others.

Electronic Stability Control helps prevent loss of control in curves and emergency steering maneuvers by stabilizing the car when it begins to veer off its intended path. The system can lessen the car’s speed and activate individual brakes to prevent understeer and oversteer, working automatically to help the driver maintain control of the car during hard steering maneuvers.

Parking sensors, whether electromagnetic or ultrasonic, alert drivers of obstacles while parking by scanning the vehicle’s surroundings for objects. Audio warnings notify the driver of the distance between the vehicle and its surrounding objects, and the faster the audio warnings are issued, the closer the vehicle gets to the object. Automatic Parking Assist controls parking functions, including steering, braking, and acceleration, to assist drivers in parking. This technology uses sensors, radars, and cameras to take autonomous control of parking tasks, helping drivers safely and securely store their vehicles without damaging them or other cars parked nearby.

Driver Emergency Stop Assist facilitates emergency counteract measures if the driver falls asleep or does not perform any driving actions for a long period of time. The system will send audio, visual, and physical signals to the driver. If the driver does not wake up after these signals, the system will stop safely, position the vehicle away from oncoming traffic, and turn on the hazard warning lights.

Hill Descent Control is a driver assistance system that helps maintain a safe speed when driving down a hill and allows a controlled hill descent in rough terrain without any brake input from the driver. This system works by pulsing the braking system and controlling each wheel independently to maintain traction down the descent.

Lane Centering Assistance is currently the highest level of Lane Monitoring technology and proactively keeps the vehicle centered within the lane it is traveling in. It utilizes automatic steering functionality to make constant adjustments based on road marking information from the front-mounted camera. The Lane Departure Warning System warns the driver when the vehicle begins to move out of its lane on freeways and arterial roads by using cameras to monitor lane markings. The system sends an audio or visual alert to the driver but does not take control of the vehicle to help sway the car back into the safety zone.

Blind Change Assistance informs the driver of potential hazards when changing lanes on roads and highways with several lanes. The vehicle will notify the driver through an audio or visual alert when a car is approaching from behind or is in the vehicle’s blind spot. Rain sensors detect water and automatically trigger electrical actions such as the raising of open windows and the closing of open convertible tops. A range sensor can also take in the frequency of rain droplets

The technology of traffic sign recognition enables vehicles to identify the various signs on the road, such as speed limit, turn ahead, or stop. This is achieved by analyzing the sign’s shape, such as hexagons and rectangles, as well as its color, to determine its meaning for the driver. However, factors such as poor lighting conditions, extreme weather, and partial obstructions can negatively impact the system’s accuracy.

Vehicle communication systems are computer networks that allow vehicles and roadside units to exchange information, such as safety warnings and traffic updates. These systems come in three forms: vehicle-to-vehicle, vehicle-to-infrastructure, and vehicle-to-everything. Vehicle-to-vehicle communication enables the wireless exchange of information about speed, location, and heading, while vehicle-to-infrastructure communication allows wireless data exchange between vehicles and road infrastructure. Vehicle-to-everything (V2X) communication refers to the parsing of information between a vehicle and any entity that may impact the vehicle and vice versa.

Automotive night vision systems use various technologies, such as infrared sensors, GPS, LIDAR, and radar, to enable drivers to see obstacles and pedestrians in low-visibility situations, such as at night or during heavy weather. There are two categories of night vision implementations: active systems that project infrared light and passive systems that rely on thermal energy. Some premium vehicles offer night vision systems as optional equipment.

The rearview camera provides real-time video information about the vehicle’s surroundings, helping drivers navigate when reversing. The camera, located in the rear of the car, is connected to a display screen that shows what is happening in the area behind the vehicle.

Omniview technology provides a 360-degree view of a vehicle’s surroundings through a video display generated by four wide-field cameras located in the front, back, left rear view mirror, and right outside mirror of the vehicle. This technology uses bird’s-eye views to create a composite 3D model of the vehicle’s surroundings.

Blind spot monitoring involves cameras that monitor the driver’s blind spots and notify the driver if any obstacles come close to the vehicle. The system uses a sensor device to detect other vehicles to the driver’s side and rear, and the warnings can be visual, audible, or vibrating.

Driver drowsiness detection aims to prevent collisions caused by driver fatigue. The vehicle obtains information such as facial patterns, steering movement, driving habits, turn signal use, and driving velocity to determine if the driver is exhibiting signs of drowsy driving. If drowsy driving is suspected, the vehicle will typically sound an alert and may vibrate the driver’s seat.

Intelligent speed adaptation assists drivers in adhering to the speed limit by using GPS to detect the vehicle’s location and link it to a speed zone database, allowing the vehicle to know the speed limit on the road. Some systems adjust the vehicle’s speed to the relative speed limit, while others only warn the driver when they are going over the speed limit.

Adaptive light control systems automatically adjust headlights based on the vehicle’s direction, swiveling to illuminate the road ahead. These systems also automatically dim the headlights to a lower beam when oncoming traffic approaches and brighten them once the traffic has passed.

Automatic emergency braking systems use sensors to detect an imminent forward collision and apply the brakes without waiting for the driver to react. Some emergency braking systems also take preventive safety measures, such as tightening seat belts, reducing speed, and engaging adaptive steering to avoid a collision.

So, where is the future of car technology headed?

It’s easy to get lost in the realm of science fiction, but to truly understand where we’re headed,. We need to focus on the innovations that are already here. From better infotainment and improved safety to enhanced sustainability and a more comfortable driving experience, the future of car technology is all about refining the familiar.

Advanced Driver Assistance Systems (ADAS) is already experiencing a major transformation. These cutting-edge systems are revolutionizing the way we drive, and major car manufacturers have already integrated them into their vehicles. While the full impact of ADAS on road safety is yet to be realized, we’re confident that staying ahead of the curve in this field will be crucial to the driver’s legal and financial well-being.

By harnessing the power of ADAS and other advanced technologies, we can make driving safer, more sustainable, and more enjoyable for everyone. So let’s embrace the future with open arms and steer ourselves towards a brighter tomorrow on the roads.