The development of intelligent driving is set to significantly boost the demand for sensors. Ultrasonic radar, millimeter-wave radar, and multi-camera systems are already being used in high-end vehicles. As autonomous technology advances, environmental awareness capabilities will evolve rapidly, enhancing the synergy between different systems. Although sensors represent just a part of autonomous vehicles, their market potential is vast.
According to Yole Développement, a leading French market research firm, intelligent driving relies heavily on cameras (long-range, surround, and stereo) and radar (ultrasonic, millimeter-wave, and lidar). The most advanced smart cars currently have up to 17 sensors for autopilot, and this number is expected to rise to 29 by 2030.
Leading institutions such as HIS, MarketsandMarketsResearch, PlunkedtResearch, and MicroMarketMonitor predict that by 2020, the global markets for automotive cameras, millimeter-wave radar, and night vision systems will enter a period of rapid growth.
Sensors play a crucial role in autonomous driving, with camera technology serving as the "eyes" of the system. Car cameras form the foundation for many ADAS (Advanced Driver Assistance Systems) functions, including lane departure warning (LDW), forward collision warning (FCW), traffic sign recognition (TSR), and pedestrian detection. Cameras are essential for visual processing and are widely used due to their affordability and versatility.
The market for car cameras has been growing steadily. In 2015, it was valued at 6.2 billion yuan, and it's projected to reach 13.3 billion yuan by 2020, with a compound annual growth rate of 16%. Similarly, the millimeter-wave radar market is expected to grow from 22.9 billion yuan in 2015 to 57.6 billion yuan by 2020, at a CAGR of 20%. Night vision systems are also gaining traction, with a projected market size of 51.4 billion yuan by 2020, up from 29.3 billion yuan in 2015.
Car cameras are becoming more affordable, making multi-camera setups a growing trend. Tesla’s Autopilot 2.0 system, for example, uses eight cameras, highlighting the shift toward more comprehensive sensor coverage. These cameras are strategically placed to provide front, side, rear, and interior views, enabling full ADAS functionality.
One notable trend is the replacement of traditional rearview mirrors with side-view cameras, which help eliminate blind spots and improve driver safety. This innovation is being adopted by several automakers, including BMW with its Mirrorless concept car. Regulatory changes in countries like Japan and the U.S. are also supporting this shift.
Panoramic parking systems use multiple cameras to create a 360-degree view, helping drivers navigate tight spaces and avoid collisions. These systems rely on image stitching technology to provide a clear, real-time overview of the vehicle's surroundings.
The camera industry chain includes components such as lenses, CMOS sensors, and DSP chips. While smartphone camera growth has slowed, the automotive sector is emerging as a key driver of demand. Companies like Sony, Samsung, and OmniVision dominate the CMOS sensor market, but domestic manufacturers are beginning to gain ground.
Lenses, another critical component, are produced by companies like Sunny Optical, which holds a significant share in the automotive lens market. Module packaging, though complex, is also seeing increased participation from domestic firms.
As the demand for intelligent driving continues to rise, the car camera market is poised for substantial growth, offering new opportunities for both established and emerging players in the industry.
Wireless Charging Coils,10W Wireless Charging Coil,Wireless Charging Coil For Cell Phone,Car Wireless Charging Coils
Shenzhen Sichuangge Magneto-electric Co. , Ltd , https://www.scginductor.com