Automatic or Autonomous Emergency Braking Market size was valued at USD 11.2 Billion in 2022 and is projected to reach USD 29.4 Billion by 2030, growing at a CAGR of 12.5% from 2024 to 2030.
The automatic or autonomous emergency braking (AEB) market is witnessing significant growth across various segments due to increasing concerns over road safety, advancements in technology, and stringent regulatory standards. AEB systems are designed to detect potential collisions and automatically apply the brakes if the driver fails to act in time, making them a crucial part of modern safety systems in vehicles. The growing adoption of these systems across multiple vehicle categories—such as passenger cars, light commercial vehicles (LCVs), and heavy commercial vehicles (HCVs)—reflects a larger trend towards increasing vehicle safety standards globally. As a result, the market is expanding rapidly, driven by both consumer demand for enhanced safety features and manufacturers’ efforts to comply with evolving regulations.
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The passenger car segment holds the largest share in the AEB market, driven primarily by increasing consumer demand for enhanced safety features and government regulations mandating the inclusion of such systems in new vehicles. The integration of AEB technology in passenger cars has proven to be an effective measure in reducing road accidents and fatalities. As automotive manufacturers continue to innovate and introduce more advanced driver-assistance systems, passenger cars are becoming increasingly equipped with technologies such as forward collision warning, automatic braking, and pedestrian detection systems, all of which play a vital role in preventing accidents. Furthermore, the growing awareness among consumers about vehicle safety has contributed to the widespread adoption of these systems in this segment, making it a key driver of market growth.
In addition to the regulatory push and consumer preference for enhanced safety, the continuous advancements in sensor technologies, such as LiDAR, radar, and cameras, have significantly improved the efficiency and accuracy of AEB systems in passenger cars. These developments allow AEB systems to operate more effectively in diverse driving conditions, such as low visibility or adverse weather. Furthermore, the increasing trend of incorporating autonomous and semi-autonomous driving features in passenger cars, such as adaptive cruise control and lane-keeping assistance, has also contributed to the rise in AEB adoption. As these systems become standard features in more affordable models, the passenger car segment is expected to dominate the market for the foreseeable future.
The light commercial vehicle (LCV) segment is experiencing rapid growth in the adoption of autonomous emergency braking systems due to the increasing focus on fleet safety and reducing operational costs. LCVs, such as vans and small trucks, are commonly used for delivery and logistics services, where road safety is critical to protecting drivers and goods. AEB systems in LCVs can significantly reduce the risk of collisions in congested urban areas, where these vehicles often operate. Furthermore, the integration of AEB technology in LCVs aligns with the growing trend of improving fleet management systems, as it helps minimize the risk of accidents, reduce insurance costs, and enhance overall operational efficiency for businesses.
The increasing focus on corporate social responsibility and regulatory pressure on fleet operators to enhance safety features has also contributed to the rising adoption of AEB systems in the light commercial vehicle segment. Governments across various regions are enforcing regulations that require commercial vehicles to include safety technologies such as AEB in their fleets, which is further accelerating market growth. In addition, the rise of e-commerce and last-mile delivery services is increasing the demand for LCVs equipped with advanced safety features, which are expected to make the market for AEB in light commercial vehicles grow at an impressive rate. The market is further bolstered by the development of cost-effective AEB systems that cater specifically to this segment.
The adoption of automatic emergency braking systems in heavy commercial vehicles (HCVs) has been slower compared to passenger cars and LCVs, but it is gradually gaining momentum due to the growing need for enhanced safety in commercial transport. HCVs, such as trucks and buses, are involved in long-haul operations and are often seen navigating busy highways and urban centers, where the risk of accidents is higher due to the vehicle's large size and limited maneuverability. AEB systems in HCVs play a crucial role in mitigating rear-end collisions, especially in situations involving driver fatigue, distracted driving, or poor weather conditions. Additionally, these systems help reduce the severity of accidents, improving safety outcomes for both drivers and other road users.
Although the implementation of AEB technology in heavy commercial vehicles faces challenges, such as higher implementation costs and compatibility with existing fleet infrastructure, the benefits it offers are undeniable. Regulatory bodies in several regions, including Europe and North America, are beginning to require AEB systems in new HCVs, which is further propelling the adoption of this technology in the sector. Moreover, as fleet operators increasingly prioritize safety and seek to minimize downtime due to accidents, the demand for AEB systems in HCVs is expected to grow. Innovations in AEB systems tailored specifically to the unique needs of heavy commercial vehicles, such as systems designed to detect pedestrians, cyclists, and large stationary objects, will drive the market further.
The AEB market is evolving with several key trends shaping its growth trajectory. One of the most significant trends is the increasing integration of artificial intelligence (AI) and machine learning (ML) technologies into AEB systems. These technologies enhance the ability of AEB systems to make more accurate decisions by processing large volumes of data from vehicle sensors, leading to faster response times and improved accuracy in detecting potential hazards. Another important trend is the rise of semi-autonomous and autonomous vehicles, which rely heavily on AEB systems as part of their broader safety framework. As self-driving technologies continue to mature, the demand for AEB systems that can seamlessly integrate with other vehicle functions is expected to increase.
Additionally, there is a growing emphasis on the development of cost-effective solutions for the commercial vehicle sector, particularly for light and heavy commercial vehicles. The adoption of AEB systems in these segments is increasingly driven by regulatory mandates, such as the European Union's requirement for new HCVs to include AEB systems. Manufacturers are also focusing on creating modular, scalable AEB systems that can be easily adapted to different vehicle sizes and types, ensuring wider adoption across the market. Furthermore, as consumer awareness of road safety grows, particularly in the aftermath of high-profile accidents involving commercial vehicles, AEB systems are becoming a critical factor in purchasing decisions, further propelling the market’s growth.
The AEB market presents numerous opportunities for growth, particularly in emerging markets where vehicle safety regulations are beginning to tighten. In regions like Asia-Pacific, where rapid urbanization is leading to an increase in road traffic accidents, the adoption of AEB systems is expected to grow substantially. Manufacturers can tap into this demand by offering affordable, reliable AEB solutions tailored to the unique needs of these markets. Additionally, opportunities abound in the development of advanced AEB technologies that can handle a wider range of scenarios, such as highway driving, urban stop-and-go traffic, and low-visibility conditions, further expanding the potential market for these systems. Another key opportunity lies in the commercial vehicle sector, where increasing fleet safety regulations and insurance cost pressures are driving demand for AEB-equipped vehicles.
Moreover, partnerships between automotive manufacturers and technology companies are creating new avenues for the development of next-generation AEB systems. These collaborations focus on integrating AEB with other driver assistance systems, such as adaptive cruise control and lane-keeping assist, to offer a more holistic solution for vehicle safety. The ongoing trend towards electric and autonomous vehicles also presents opportunities for AEB systems to evolve and become an integral part of the broader ecosystem of smart transportation solutions. As the industry moves towards a future of safer, more automated roadways, AEB systems will continue to play a central role in ensuring the safety of all road users.
1. What is Automatic Emergency Braking (AEB)?
Automatic Emergency Braking (AEB) is a safety feature that detects potential collisions and automatically applies the vehicle’s brakes if the driver fails to act in time.
2. Why is AEB important in modern vehicles?
AEB is crucial because it helps reduce the risk of accidents, improves road safety, and can prevent or mitigate the severity of collisions.
3. How does AEB work?
AEB uses sensors such as cameras, radar, or LiDAR to detect obstacles ahead and triggers the brakes if a collision is imminent and the driver does not react.
4. Is AEB standard in all vehicles?
While AEB is becoming increasingly common, it is not yet standard in all vehicles, though regulations in many regions are pushing for its widespread adoption.
5. How does AEB affect accident rates?
Studies have shown that AEB significantly reduces rear-end collisions, contributing to a decrease in overall accident rates and vehicle damage.
6. Is AEB effective in all driving conditions?
AEB systems are highly effective in many conditions but may face limitations in severe weather, such as heavy rain or snow, where sensors can be obstructed.
7. Can AEB prevent accidents with pedestrians?
Many modern AEB systems are equipped with pedestrian detection capabilities, which can prevent or reduce the severity of pedestrian-related accidents.
8. Will AEB become mandatory in all vehicles?
Several countries, including the EU and the U.S., are moving towards regulations that will make AEB mandatory in new vehicles, especially in commercial transport sectors.
9. How does AEB impact insurance premiums?
Vehicles equipped with AEB systems typically enjoy lower insurance premiums due to the reduced risk of accidents and collisions.
10. What are the future trends for AEB technology?
Future trends include further integration with autonomous driving systems, improved sensor technology, and expanded capabilities in complex driving environments.
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Top Automatic or Autonomous Emergency Braking Market Companies
ZF TRW
Continental AG
DENSO Corporation
Tesla Motors
Robert Bosch GmbH
Delphi Automotive
Autoliv Inc.
Magna International Inc.
Mobileye NV
Volvo Car Corporation
Ford Motor
Daimler
Audi
Volkswagen
Toyota Motor
Honda Motor
Regional Analysis of Automatic or Autonomous Emergency Braking Market
North America (United States, Canada, and Mexico, etc.)
Asia-Pacific (China, India, Japan, South Korea, and Australia, etc.)
Europe (Germany, United Kingdom, France, Italy, and Spain, etc.)
Latin America (Brazil, Argentina, and Colombia, etc.)
Middle East & Africa (Saudi Arabia, UAE, South Africa, and Egypt, etc.)
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Automatic or Autonomous Emergency Braking Market Insights Size And Forecast