BAIC Safety Features – Everything You Need To Know
Vehicle safety has undergone significant evolution over the years, with modern cars now boasting unprecedented levels of safety features and technology. Thanks to advancements in engineering, rigorous research, development, and implementation of cutting-edge safety technologies, newer vehicles are built better and have more safety features to protect drivers, passengers and pedestrians.
BAIC is at the forefront of such developments with a comprehensive suite of active and passive safety systems in BAIC cars designed to prevent accidents before they occur. The Group has always taken the safety performance of vehicles as the core of product development.
As can be expected from a brand of its class, we see the implementation of bigger and bolder technologies across its models. BAIC safety features include
- State-of-the-art intelligent driving assistance systems
- Integration of performance indicators of collision safety into the vehicle development process
- Compliance with global safety regulations
BAIC invests heavily in research and development, utilising advanced simulation techniques, crash testing facilities, and prototype evaluations. Engineers work tirelessly to optimise vehicle structures, incorporate high-strength materials, and integrate sophisticated BAIC safety systems to enhance occupant protection and mitigate injury risks in the event of a collision.
It’s with good reason that models like the Beijing X55 continue to inspire confidence with impressive C-NCAP 5-star ratings and C-IASI Safety Index G standard compliance. Here are some modern safety features you’ll likely spot across the BAIC range.
BAIC Safety Feature | Explanation of Safety Feature |
---|---|
Anti Lock brakes (ABS) | ABS) is a vital safety feature in modern vehicles, preventing wheels from locking up during hard braking. They maintain traction and control by pulsating the brakes rapidly, ensuring you can steer and manoeuvre safely in emergencies. |
Traction control | Ever had a car slip on a wet road, only to suddenly regain control? That’s the Traction Control System (TCS) in action. Essentially, it helps your vehicle accelerate and navigate turns on any surface without losing control by preventing excessive wheel spin and detecting grip loss in one or more wheels. |
Electronic stability control | ESC represents another important advancement in vehicle safety. This system intervenes automatically by reducing engine power and applying brakes to individual wheels if it senses that your car is at risk of losing stability or skidding out of control. |
Brake assist system (BAS) | This is an adaptive safety system designed to maximise brake force during emergency scenarios. It aims to significantly reduce braking distance and enable quicker stops in urgent situations. |
Electronic brake-force distribution (EBD) | EBD automatically adjusts the braking force applied to each wheel based on various factors such as road conditions, vehicle speed, and loading. Its primary goal is to ensure intelligent control of brake balance and overall braking force. |
Blind-spot monitoring | Blind-spot warning systems utilise proximity technology, like radar sensors located at the rear bumper corners, to alert drivers of vehicles hidden from view. This technology prevents drivers from mistakenly assuming it’s safe to proceed, enhancing overall safety on the road. |
Tyre pressure sensors | A tyre pressure sensor is a device installed in a vehicle’s tyres to monitor air pressure levels. It continuously checks for pressure imbalances and alerts the driver if levels fall below a certain threshold, helping ensure safety and optimal tyre performance. |
Hill-start assist control (HAC) | This safety feature is designed to prevent a car from rolling backwards when starting on an incline. It automatically applies the brakes momentarily after the driver releases the brake pedal and before pressing the accelerator, helping to maintain stability and ease the transition from brake to acceleration on steep slopes. |
Hill-descent control | Similarly, hill descent control helps drivers maintain control and a safe speed when descending steep inclines. It automatically applies the brakes as needed to prevent the vehicle from accelerating too quickly, enhancing stability and reducing the risk of skidding or loss of control on downhill slopes. |
Rear parking sensors | These emit audible or visual alerts to warn the driver of nearby objects when parking to prevent collisions and improve parking accuracy. |
ISOFIX child seat anchors | BAIC prioritises the real-world usability of its vehicle models, ensuring that they excel in terms of safety performance for child safety seats and safety belt anchorage. |
Even standard safety features like airbags and seatbelts are designed to work more effectively than before. BAIC views safety as the most essential technology, one that users demand most and represents the highest level of technological excellence integrated into every aspect of travel.
Driving Safety Assurance With BAIC
While BAIC car safety has come a long way in the past decade, ongoing research and development continue to enhance safety measures. As technology progresses, we will continue to reap the rewards of the ever-changing BAIC safety tech, as we work toward the goal of improving road safety and enhancing the driving experience for all road users.