Global Adaptive Cruise Control (ACC) Market, By Vehicle Type (Passenger Cars, and Commercial Vehicles), By Sensor Technology (Image Sensor, Radar Sensor, Ultrasonic Sensor, Lidar Sensor, and Others), By Demand Category (OEM Vs Aftermarket), By region, By Company, Forecast & Opportunities, 2028 2028
Published Date: April - 2025 | Publisher: MIR | No of Pages: 320 | Industry: Automotive | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request Customization| Forecast Period | 2024-2028 |
| Market Size (2022) | USD 15 Billion |
| CAGR (2023-2028) | 8% |
| Fastest Growing Segment | Radar |
| Largest Market | North America |
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Market Overview
Global Adaptive Cruise Control (ACC) Market is worth USD 15 Billion in 2022 and is expected to forecast strong growth during the forecast period with a CAGR of 8%.
Adaptive Cruise Control is a sophisticated driver assistance system that automatically controls a vehicle's speed to keep a safe distance behind the leading vehicle, utilizing sensors like radar and cameras. The technology falls into the overall development toward semi-automatic and autonomous car-driving. ACC market had gained acceptance in many markets based on the rising anxiety towards road safety, traffic flow, and ability to prevent human-induced accidents. Government and regulative bodies within governments were even contemplating endorsing advanced driver assistance technology in a quest for greater safety on the road. This had a positive effect on ACC system adoption, as they were viewed as a step in the direction of attaining these objectives. Auto makers were integrating ACC technology into cars to respond to consumers' desire for enhanced safety and convenience features. Luxury auto brands tended to pioneer the adoption of ACC and other sophisticated driver assistance systems, with certain of these technologies slowly filtering down into less expensive vehicles as the technology developed and the cost of manufacturing came down. Further, developments in sensor technology, machine learning algorithmic capability, and vehicle-to-vehicle communication were propelling innovation in the ACC market. These improvements were designed to increase the accuracy and dependability of ACC systems, allowing cars to adjust to a broader range of driving environments and situations.
Key Market Drivers
Advances in Sensor Technology and Automation
The technology advancement of radar, LiDAR (Light Detection and Ranging), and cameras has greatly enhanced the accuracy and dependability of ACC systems. The sensors deliver real-time information regarding the surroundings of the vehicle, and this makes the system react to the motion of lead vehicles. This development has been central to enabling ACC systems to better handle different driving scenarios, such as heavy traffic and highway cruising.
Safety Enhancement
One of the main motivations for ACC adoption is the desire for improved road safety. ACC systems reduce the dangers of rear-end collisions by automatically slowing the vehicle to keep a safe distance. The system can respond faster than a human driver, lessening the chance of accidents due to slow reactions or distraction. With road safety issues remaining a worldwide priority, ACC technology is in line with initiatives to reduce accidents and save lives.
Traffic Congestion Mitigation
Growing urbanization and traffic congestion have created pressure for solutions that ease traffic congestion and enhance traffic flow. ACC systems assist in keeping a steady distance from the leading vehicle, allowing smoother traffic flow. During congested traffic, ACC is able to manage stop-and-go traffic, minimizing stress for the driver and helping toward a more efficient overall traffic flow.
Consumer Demand for Convenience and Comfort
Customers are opting more for cars with advanced driver assistant technology that improves convenience and comfort. ACC technology provides a less stressful driving experience, particularly on long road trips. One can program a desired speed and following gap, and the ACC system will take control of speed changes while keeping safe distances from other cars. This is desired by those who prefer a less stressful driving experience.
Toward Autonomous Driving
ACC serves as a steppingstone toward fully autonomous driving. As technology advances, ACC systems can be integrated with other features like lane keeping assist, automatic lane changes, and self-parking capabilities. Automakers and tech companies are investing in research and development to achieve higher levels of autonomy, and ACC plays a crucial role in this trajectory.
Regulatory Support and Standards
Governments and regulators across regions are acknowledging the prospect of safety advantage of ACC systems and other cutting-edge driver assist technologies. They have established guidelines and standards to promote their usage and ensure effective operation. Regulator backing brings a transparent policy for manufacturers to create and introduce ACC systems according to safety and performance standards.
Competitive Advantage for Automakers
Car manufacturers are employing ACC technology to differentiate their products in a competitive industry. Making advanced safety features such as ACC available can entice safety-minded consumers and enhance the reputation of a brand. As ACC is increasingly being used, manufacturers will be forced to make it a standard or optional feature to stay competitive
Key Market Challenges
Restrictions in Complicated Driving Situations
ACC systems work well in the case of maintaining a safe distance in relatively stable highway conditions. They can fail in more sophisticated situations, such as heavy traffic with constant lane changes, highway merging, and driving through intersections. The system's capability to predict and respond suitably to such dynamic conditions can be constrained, resulting in uncomfortable or unsafe driving experiences.
Human-Machine Interaction and Handover
ACC technology is used in a semi-autonomous state, where drivers remain responsible to be attentive and resume control when needed. The issue is with switching between ACC control and driver control. Drivers, if they rely too much on the ACC system and are disconnected from the driving process, may not be ready to take control in critical situations. Identifying proper means of keeping drivers active and being able to easily resume control when needed is of the essence.
Interoperability with Other Advanced Systems
New cars feature a multitude of sophisticated driver assistance systems such as lane departure warning, automatic emergency braking, and others. It is difficult to make these systems complement one another and not interfere with each other. ACC systems should be harmoniously coordinated with other systems in order to form a global safety net without leading to confusion and unnecessary actions.
Regulatory Variability
Regulations and standards for ACC systems and other advanced driver assistance technologies vary across countries and regions. Automakers must navigate complex regulatory requirements to ensure that their systems meet safety and performance standards. This can result in delays and added development expense as manufacturers modify their systems to comply with regional regulations.
User Education and Expectations
Many drivers might not fully understand the capabilities and limitations of ACC systems. Overestimating the system's capabilities can lead to complacency and reduced vigilance while driving. It's essential for manufacturers and regulatory bodies to provide clear and accurate information to users about how ACC works, when it should be used, and what its limitations are.
Weather and Environmental Factors
ACC systems are highly dependent on sensors such as radar and cameras to detect the road and traffic conditions. Inclement weather, including heavy rainfall, snow, fog, or glare, could impair the functioning of these sensors, reducing their accuracy and, in turn, the reliability of the system to operate.
Important Market Trends
Integration with Advanced Driver Assistance Systems (ADAS)
ACC is being combined with other ADAS features, including lane keeping assist, automatic emergency braking, and blind-spot detection. The combination of these technologies provides a more integrated and comprehensive driver assistance system that improves safety and convenience. As cars become more autonomous, integrating these technologies can assist in delivering a smoother and safer ride.
Transition to Higher Levels of Automation
The direction towards increased levels of vehicle autonomy, such as shown in levels 3 to 5 of the SAE level of automation, is affecting ACC. ACC is developing to address more complicated driving situations and assume more responsibility, such as lane-changing and freeway driving autonomously. This direction fits in with the general industry movement toward autonomous driving capability.
Artificial Intelligence and Machine Learning
Machine learning and artificial intelligence are being used to enhance the performance of ACC systems. These technologies enable ACC systems to learn from real-world driving experience and adjust to different driving conditions, making them more capable of predicting and reacting to sophisticated situations. Machine learning even enables ACC systems to fine-tune driving behavior according to personal driver habits.
Connected Vehicles and V2X Communication
Vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2X) communication are making ACC systems able to receive real-time information from other vehicles and infrastructure components such as traffic lights. This information sharing improves ACC's capability to predict changes in traffic flow, road conditions, and possible hazards, resulting in safer and more efficient driving.
Customization and User Experience
New ACC systems include personalized settings in which drivers can customize parameters such as following distance and responsiveness of acceleration. The trend addresses varied driver preferences and improves their general experience with technology. Personalization options ensure ACC systems accommodate different driving styles and comfort levels.
Data Collection for Improved Safety Insights
ACC systems produce enormous volumes of driving data, which can be used to analyze safety and improve. This data can be analyzed by manufacturers to learn about driving habits, possible collision situations, and system performance. All this information helps in the improvement of ACC algorithms and the creation of safer driving behavior.
Segmental Insights
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Vehicle Type
Among passenger cars, motorcycles, and commercial vehicles, it is passenger cars that dominate the global market for adaptive cruise control systems. This can be attributed to the ever-increasing demand for comfort and convenience features in personal vehicles. As consumers seek more automated systems to alleviate driver workload, especially in heavy traffic or during long drives, the popularity of adaptive cruise control continues to rise. Furthermore, the heightened awareness of vehicle safety, coupled with stringent safety regulations enforced by governments worldwide, has further accelerated the adoption of advanced driver-assistance systems like adaptive cruise control in passenger vehicles. This trend highlights the continuous evolution and integration of cutting-edge technologies in the automotive industry to enhance both driver experience and road safety.
Sensor Type Insights
Among the sensor technologies used in adaptive cruise control, radar sensors hold the highest market share globally. This is primarily attributed to their exceptional reliability and accuracy, even in challenging weather conditions such as rain, fog, or snow. Radar sensors showcase robustness and demonstrate remarkable detection capabilities for both stationary and moving targets. With their ability to effectively measure the distance, speed, and angle of multiple objects, radar sensors have become the preferred choice for automotive safety systems like adaptive cruise control. Their versatility and precision make them an indispensable component in enhancing road safety and driver-assistance technology.
Regional Insights
North America is currently at the forefront of adopting Adaptive Cruise Control (ACC) in vehicles. This can be attributed to several factors. Firstly, the region's innovative automotive sector is constantly pushing for advancements in technology and safety features. Secondly, the high consumer purchasing power in North America allows for a greater affordability and accessibility of vehicles equipped with ACC. Thirdly, stringent regulations regarding vehicular safety in the region have encouraged the adoption of advanced driver assistance systems like ACC. Moreover, the presence of leading car manufacturers in North America plays a pivotal role in driving this trend. These manufacturers have recognized the benefits of ACC and have made it a standard feature in their vehicles. This not only increases the availability of ACC-equipped cars but also instills a sense of trust and reliability among consumers. With all these factors combined, it is no surprise that North America is leading the way in the adoption of ACC. The region's commitment to innovation, strong consumer demand, and the support of leading car manufacturers have created an environment where ACC has become increasingly prevalent on the roads.
Recent Developments
- In 2023, Volkswagen has unveiled its compactSUV “T-Cross” which comes with adaptive cruise control technology.
- In 2023, Ford has launched its BlueCruisetechnology for their Mustang Mach-E models which is an adaptive cruise controltechnology.
Key Market Players
- Robert Bosch GmbH
- Continental AG
- ZF Friedrichshafen AG
- Denso Corporation
- Delphi Automotive LLP
- Hyundai Mobis
- Aptiv PLC
- Autoliv Inc.
- Valeo S.A
|
By Vehicle |
By Sensor Technology |
By Demand Category |
By Region |
|
Passenger Cars Commercial Vehicles |
Image Sensor Ultrasonic Sensor Lidar Sensor Others |
OEM Aftermarket |
Asia-Pacific Europe & CIS North America South America Middle East & Africa |
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