Advanced Driver Assistance Systems, Safety Features for Your Fleet!

Advanced Driver Assistance System or ADAS cameras are the latest technology used in modern vehicles to improve driver safety and comfort. ADAS features such as automatic emergency braking systems, adaptive speed regulation, and blind spot detection can assist drivers in various situations that require extra attention, reducing the risk of accidents and injuries.

In this article, we will take an in-depth look at Advanced Driver Assistance System cameras, including the types of ADAS cameras available, how ADAS cameras work, and the benefits of using ADAS cameras in vehicles. In addition, we will also discuss the best ADAS cameras on the market today and some tips on choosing a vehicle with ADAS features that suits your needs.

Hopefully this article TransTRACK can provide useful information and help you understand about ADAS cameras and their effect on driving safety.

Definition of Advance Driver Assistance System (ADAS)

Advanced Driver Assistance Systems (ADAS) are electronic systems and technologies designed to assist drivers while driving by providing warnings, correcting or taking over control of the vehicle in potentially dangerous situations. ADAS systems typically use sensors, cameras, radar and computers to monitor the vehicle’s surroundings, collect data, and provide appropriate warnings or actions to the driver.

Some common ADAS features include customizable cruise control, automatic emergency braking, lane departure warning, blind spot detection, adaptive speed regulation, and automatic parking. The main goal of ADAS is to improve road safety and reduce traffic accidents, reduce driver stress, and improve vehicle efficiency.

What are the features in ADAS technology?

ADAS (Advanced Driver Assistance Systems) technology includes various features designed to improve driving safety and convenience. Here are some of the key features in ADAS technology:

Lane Departure Warning (LDW)

This system warns the driver if the vehicle starts to move out of its lane without activating the turn signals.

Adaptive Cruise Control (ACC)

This feature allows the vehicle to maintain the speed set by the driver and automatically adjusts the speed to that of the vehicle ahead, maintaining a safe distance.

Forward Collision Warning (FCW)

This system detects a potential collision with a vehicle or object ahead and warns the driver to avoid an accident.

Automatic Emergency Braking (AEB)

AEB works with FCW, and if the driver does not respond to the warning, the system automatically applies the brakes to reduce the impact or prevent an accident.

Blind Spot Detection (BSD)

This feature warns the driver of vehicles in the blind spot area by providing a warning signal.

Parking Assistance

This feature assists the driver in parking by providing visual or audible guidance to avoid obstacles when parking in tight spaces.

Traffic Sign Recognition

This system can detect and identify traffic signs such as speed limits, stop signs, or other markings, and display the information on the vehicle dashboard.

All these features work together to improve the safety of drivers, passengers and other road users by providing proactive assistance or warnings.

How does the ADAS system work?

ADAS (Advanced Driver Assistance Systems) systems work by combining various sensor technologies and data processing algorithms to provide assistance to drivers. The following is an explanation of how the ADAS system works in general:

1. Main Sensors

The ADAS system uses various types of sensors to gather information about the vehicle’s surroundings. These sensors include:

• Cameras are used to detect objects, read traffic signs, and monitor road markings. Cameras are often used in features such as Lane Departure Warning (LDW) and Traffic Sign Recognition.
• Radar measures the distance and speed of objects around the vehicle, especially objects in front of the vehicle, such as in Adaptive Cruise Control (ACC) and Forward Collision Warning (FCW) features. Radar is especially effective in bad weather conditions, such as fog or rain.
• LiDAR (Light Detection and Ranging)  LiDAR uses lasers to map the 3D environment around a vehicle. This provides highly accurate data on the distance and size of objects around the vehicle, and is helpful in automated maneuvers such as parking.
• Ultrasonic Sensors  Ultrasonic sensors are used to detect objects that are very close to the vehicle, often used in Park Assistance systems or to detect vehicles in blind spot areas.

2. Data Processing and Decision Making by the ECU (Electronic Control Unit)

All the data collected by these sensors is then processed by the ECU, which is the brain of the ADAS system. The ECU uses algorithms to analyze the information received from the sensors and make decisions about the actions that need to be taken. Examples of actions that could be taken include:

• Alerting the driver (e.g., warning if the vehicle is leaving the lane or approaching the vehicle in front too quickly).
• Adjusts vehicle speed (for example, automatically slows down the vehicle to maintain a safe distance in ACC).
• Automatically activating the brakes (in the case of AEB if there is a risk of collision).

The ECU also interacts with various other vehicle systems (such as the braking system, automatic driver or steering system) to implement the decisions made.

3. ADAS System Interaction with Drivers

ADAS systems serve to support drivers, not replace them. Therefore, there is constant interaction between the driver and the ADAS system:

• Alerts or Notifications: The system provides feedback to the driver through various means, such as sound, dashboard display, or vibration of the steering wheel or seat to alert the driver of potential hazards.
• Manual and Automatic Controls: While the ADAS system may make some decisions automatically, the driver retains full control and can disable or change feature settings as needed. For example, the driver can manually set the ACC speed or interrupt the automatic brakes in AEB if deemed necessary.
• Some ADAS systems, especially the more advanced ones such as automated driving, require the driver to remain alert and ready to take over control of the vehicle if the system fails or is in an unmanageable situation.

Overall, ADAS technology operates in a highly integrated manner, where sensors detect the surrounding environment, the ECU processes the data and makes decisions, and the driver receives appropriate feedback or control. The system aims to improve driving safety and comfort by assisting the driver, but still requires the driver’s attention and involvement to ensure safety.

What are the benefits of ADAS for drivers?

ADAS (Advanced Driver Assistance Systems) technology provides significant benefits to drivers in terms of safety, efficiency, convenience, and support for drivers with special needs. Here are some of the key benefits of ADAS for drivers:

• Improves Road Safety: ADAS provides automated warnings and interventions, such as AEB and FCW, to reduce the risk of accidents, keeping drivers safe in various road conditions.
• Reducing the Risk of Accidents Due to Human Error: Features such as Adaptive Cruise Control (ACC) and Lane Departure Warning (LDW) help avoid accidents by maintaining a safe distance and ensuring drivers stay in their lanes, reducing driver error.
• Improves Driving Efficiency and Comfort: ADAS improves driving comfort, such as with Adaptive Cruise Control that regulates speed automatically and Parking Assistance that makes parking easier, reducing stress while driving.
• Supporting Elderly or Disabled Drivers: Technologies such as Blind Spot Detection (BSD) and Lane Keeping Assist are especially useful for elderly drivers or those with physical limitations, helping them drive more easily and safely.

Advance Driver Assistance System Function

The main function of the Advanced Driver Assistance System (ADAS) is to assist drivers in driving more safely and efficiently. Some of the most common ADAS functions include:

Automatic emergency braking (AEB)

ADAS can detect vehicles or objects in front of the vehicle and provide warnings to the driver. If the driver does not respond to the warning, the system will take automatic braking action to avoid a collision.

Adjustable cruise control

ADAS can automatically maintain vehicle speed and distance from the vehicle in front. This feature helps drivers save energy and reduce fatigue during long-distance travel.

Lane Departure Warning (LDW)

ADAS can alert the driver if the vehicle starts to change lanes without realizing it.

Blind spot detection

ADAS can detect vehicles or objects in blind spots around the vehicle and alert the driver to avoid collisions.

Adaptive speed regulation (Adaptive Cruise Control – ACC)

ADAS can automatically adjust the vehicle speed and distance to the vehicle in front and match the speed with the speed of the vehicle in front to avoid collisions.

Automatic parking

ADAS can assist drivers when parking by guiding the vehicle into the parking lot and out of the parking lot by itself.

These functions can help drivers avoid accidents, reduce stress, improve vehicle efficiency and ensure driver and passenger safety. However, while ADAS can help drivers drive more safely, drivers should still pay attention to their surroundings and not rely entirely on the technology.

Types of Advanced Driver Assistance System

Advanced Driver Assistance System (ADAS) is a constantly evolving technology and more and more features are being added to it. Here are some common types of ADAS:

Automatic emergency braking (AEB) system

This feature allows the vehicle to detect vehicles or objects in front of it and take automatic braking action if necessary to avoid a collision.

Blind spot detection

The system uses sensors and cameras to detect vehicles in blind spots and alert the driver if a vehicle is there.

Lane departure warning system (LDW)

This system alerts the driver if the vehicle starts to change lanes without realizing it.

Driver Fatigue Warning system

The system uses sensors and cameras to monitor the driver’s activity and alert the driver if there are signs of fatigue.

Adaptive speed regulation system (Adaptive Cruise Control – ACC)

The system maintains the vehicle speed and distance to the vehicle in front automatically and adjusts the speed to the speed of the vehicle in front to avoid collisions.

Rear collision warning system

The system uses sensors to detect vehicles behind and warn the driver if there is a danger of a rear-end collision.

Automatic parking system

This system guides the vehicle into the parking lot and out of the parking lot by itself.

Rear camera system (Rearview Camera)

This system provides rear vision when reversing and assists the driver in parking or maneuvering in tight areas.

Speed warning system

This system alerts the driver if the vehicle exceeds the posted speed limit.

Pedestrian detection system

The system uses cameras and sensors to detect pedestrians around the vehicle and provide warnings or automatic braking actions to avoid collisions.

The combination of these types of ADAS can help drivers drive more safely and efficiently, and also help reduce the risk of accidents.

Fleet Management Company with the Best ADAS in Indonesia

Here are some of the fleet management companies with the best Advanced Driver Assistance System in Indonesia:

PT. Trans Indo Teknologi (TransTRACK)

TransTRACK is the largest fleet management company in Indonesia and presents vehicles equipped with ADAS features such as automatic emergency braking systems, collision warning systems, and blind spot detection.

PT Serasi Autoraya (TRAC)

TRAC is the second largest fleet management company in Indonesia and also has vehicles equipped with ADAS features, such as automatic emergency braking system, collision warning system, and lane departure warning system.

PT Trans Mover Indonesia

The company has a fleet of buses equipped with various types of ADAS features, such as automatic emergency braking systems, collision warning systems, and blind spot detection.

PT Steady Safe

Steady Safe is a fleet management company that focuses on vehicle and driver safety. The vehicles provided are equipped with various types of ADAS, such as automatic emergency braking systems, collision warning systems, adaptive speed regulation systems, and others.

PT Adi Sarana Armada Tbk

The company has a fleet of buses equipped with various types of ADAS features, such as automatic emergency braking systems, collision warning systems, and lane departure warning systems.

Keep in mind that even if a fleet management vehicle is equipped with ADAS features, drivers should still pay attention to road conditions and the surrounding environment and practice safe and responsible driving.

For those of you who want your fleet to use ADAS cameras, you can use TransTRACK products that have ADAS cameras. This TransTRACK ADAS camera will point to the road and give a warning if there is an object in front of the vehicle, the vehicle is too close to the road shoulder, or the vehicle in front is already running first.

In this article, we have talked about ADAS cameras, which are a new technology used in modern vehicles to improve driver safety and convenience. ADAS cameras can help drivers in various situations, such as avoiding collisions, maintaining distance from the vehicle in front, avoiding collisions while parking, and others.

Although ADAS cameras are very useful in improving driver safety and convenience, drivers must still remain vigilant and pay attention to road conditions and the surrounding environment. ADAS cameras cannot replace the driver’s role in driving safely and responsibly.

When choosing a vehicle with ADAS features, be sure to consider your needs, budget, and available ADAS features. Also, make sure to choose a trusted automotive or fleet management company that has proven to have quality ADAS vehicles.

Hopefully this article will be useful for you in understanding ADAS cameras and their effect on driving safety. Don’t forget to also use TransTRACK products for the safety of your fleet and yourself in driving!