ADAS Semiconductors Market

ADAS Semiconductors Market Size

The global ADAS semiconductors market size was estimated at USD 11.3 billion in 2024. The market is expected to grow from USD 11.6 billion in 2025 to USD 41.4 billion in 2034, at a CAGR of 15.2%, according to latest report published by Global Market Insights Inc.

The ADAS semiconductors market is evolving at a very high pace around the world because of the existence of stricter safety regulations, increased demand for automated driving capabilities and increased adoption of the advanced driver-assistance systems. Car manufacturers are incorporating such elements as high-performance microcontrollers, image signal processors, radar chips, lidar interface ICs, and AI accelerators to enhance real-time decision-making and perception and actuation, as well as energy efficiency and reliability.

In May 2025, Qualcomm partnered with BMW to build its Snapdragon Ride Flex platform. This collaboration integrated infotainment and ADAS capabilities to be one semiconductor architecture, easing of systems, enhancing computing capabilities, and reducing cost of vehicles. Software-defined systems, over-the-air updates, and cybersecurity are other areas that companies are looking to make ADAS platforms more adaptable and robust.

The Tier-1 suppliers and automakers are advancing technologies such as sensor fusion, predictive analytics, and AI-driven systems to comply with safety requirements that are tougher. Finer packaging enhanced thermal conductivity and low power semiconductors are assisting systems with heavy data loads and satisfy regulations like Euro NCAP, NHTSA and UNECE.

The semiconductor supply chain was revealed as a vulnerable area by the COVID-19 pandemic, yet it encouraged companies to diversify and outsource. Following the outbreak of the pandemic, the development of autonomous movement and electrification have promoted increased investments in automotive chips. New models such as subscription-based models, semiconductor-as-a-service and chipset integration partnerships have enabled companies to provide more scalable and flexible solutions.

Cameras, radar, and lidar semiconductors are on the rise as adaptive cruise control, lane-keep assistant, and driver-monitor systems have become features of the market. Telematics, V2X connectivity, and AI accelerators are also a priority among OEMs and technology providers to build the next generation of ADAS systems.

The ADAS semiconductors market is mature in North America and Europe, and the competition is focused on the performance of computers, safety certification, and collaboration with OEMs. Companies are also competing in terms of reliability of chips used, integrating systems into systems and meeting the functional safety standards.

Additionally, the Asia-Pacific region has been the most rapidly developing market with a high rate of vehicle electrification, smart cities, and rising consumer demands on safety technologies. China, Japan, and South Korea are on the forefront and have excellent government backing and supply chains. In addition, India and Southeast Asia are becoming growth markets, particularly with the use of more ADAS features in mid-cost vehicles.

ADAS Semiconductors Market Trends

Hybrid computing platforms and AI-based chips are being more commonly implemented by automakers in their ADAS platforms. Such technologies allow decrease of the cost of the system, enhance energy consumption, and address the safety and emission regulations at the global scale. They also enhance safety and dependability of urban driving and offer a gradual approach towards increased levels of automation without directly going to full autonomous vehicles.

For example, in March 2025, NVIDIA launched its DRIVE Thor platform in collaboration with multiple OEMs. This centralized system-on-chip (SoC) combines ADAS and infotainment functions, helping automakers simplify operations, improve computing performance, and prepare their vehicles for future driver-assist features. These partnerships allow automakers to move to unified platforms while cutting down on hardware requirements.

Telematics, V2X connectivity and IoT-enabled chips are also transforming the semiconductor industry. Such technologies enable processing of vehicle data in real time, predictive diagnostics, and monitoring of the drivers. These developments allow automakers to enhance sensor integration, minimize delays, enhance safety, and ensure system consistency, and they lower the maintenance costs of connected vehicles.

Flexible business models like semiconductor-as-a-service and chipset designs are making it easier for manufacturers and Tier-1 suppliers to access advanced ADAS platforms without large upfront costs. These models allow scaling based on demand, reduce unused capacity, and adapt to different vehicle types and regional safety standards. This helps automakers lower R&D risks, manage costs, and efficiently roll out ADAS systems in various markets.

ADAS Semiconductors Market Analysis

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Based on component, the ADAS semiconductors market is divided into processors, sensors, memory, power management ICS, connectivity & interface, and others. The processors segment dominated the market, accounting for around 25% in 2024 and is expected to grow at a CAGR of over 17% through 2034.

• The sensor segment dominates the ADAS semiconductor market since sensors are fundamental to advanced driver-assistance systems. Functions such as adaptive cruise control, blind spot detection, and autonomous emergency braking are based on different sensors, such as cameras, radar, ultrasonic, and LiDAR, which are used to monitor the surroundings of the vehicle in real time. The use of multi-sensor configurations to enhance precision and dependability is increasing the number of sensors applied to each car, and this is fueling their market developments.
  
• Moreover, safety standards in Europe, North America, and China are also accelerating the use of radar and camera systems as a standard equipment in new automobiles. More sophisticated, high-resolution sensors are also needed with higher degrees of automation (Levels 3-4). The sensor segment remains to dominate the ADAS semiconductor market with their critical role in all ADAS applications.
  
• For example, in April 2024, Mobileye announced its EyeQ6 Lite SoC to speed ADAS updates globally. It enables a 1200-megapixel, 120 degree-field view cameras, and is set up to drive high-tech driving assists in 46 million cars.
  
• The processor segment is projected to have the highest CAGR due to the increasing demand of high-performance computing to facilitate more advanced ADAS capabilities and gradual increase of vehicle autonomy. The automotive industry is moving towards vehicles that have centralized domain controls and AI-oriented SoCs able to process complex sensor fusion, make decisions in real-time, and perform more advanced algorithms like deep learning and computer vision.
  

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Based on application, the ADAS semiconductors market is segmented into adaptive cruise control (ACC), blind spot detection system (BSD), park assistance, lane departure warning system (LDWS), tire pressure monitoring system (TPMS), autonomous emergency braking (AEB), adaptive front lights (AFL), and others. The adaptive cruise control (ACC) segment dominates the market accounting for around 22% share in 2024, and the segment is expected to grow at a CAGR of over 16.5% between 2025 and 2034.

• The adaptive cruise control (ACC) is the segment that has the greatest market share in the ADAS semiconductor market, though it is not the highest component within the unit, as it is not the most popular with consumers, and is not widespread among users. ACC is radar, camera, and processor combination, which automatically regulates the speed of vehicles depending on traffic and can provide comfort and safety.
  
• It has become standard in high-end automobiles mass-market automobiles are extensively and progressively mounted with ACC as a reaction to governmental pressure as well as to client demand of safer vehicle handling and OEM plans to differentiate vehicles with superior driver-assistance bundles.
  
• ACC is also used as a base feature in more advanced automation systems, usually paired with lane-keeping systems to create Level 2 partial automation. This is necessary in vehicles that aim at high levels of ADAS compliance. The increasing rate of penetration of radar sensors, advances in AI-based perception, and the trend towards advanced safety are all assurances that ACC will remain the leader in ADAS usage in both semiconductor demand and revenue share.
  
• For example, in January 2024 Bosch introduced an AI-based ACC system that was combined with real-time traffic monitoring to increase driving safety and fuel efficiency. It is an artificial intelligence-based system that can modify different traffic conditions to give the driver more responsive and efficient experience.
  
• The blind spot detection system (BSD) segment will possess a CAGR of approximately 8.7% owing to the growing concern on vehicle safety and the augmented regulatory pressures in the advanced driver-assistance systems in the international markets. BSD systems have a camera and radar sensors to observe the areas around the vehicle and the rear to avoid collisions during changes of lanes and mergers. BDS is increasingly becoming an optional or standard equipment in more passenger and commercial vehicles as consumer awareness of traffic safety increases among consumers.
  

Based on vehicle, the ADAS semiconductor market is segmented into passenger cars, and commercial vehicles. Passenger cars segment dominate the market with around 70% share in 2024, driven by high vehicle production, widespread ADAS adoption, regulatory safety mandates, and rising consumer demand for advanced driver-assistance features.

• Passenger cars segment dominates the ADAS semiconductor market because passenger cars constitute the greatest percentage of all vehicles manufactured in the world. OEMs are starting to equip mid- and high-end passenger cars with more sophisticated driver-assistance systems like adaptive cruise control, lane departure warning, and blind spot detection with millions of units being manufactured every year. It is also being driven by regulatory requirements in some parts of the world such as Europe, North America and China which require the use of mandatory safety features in passenger cars.
  
• Moreover, the consumer needs in passenger vehicles in safety, comfort, and convenience are on the increase, which makes the manufacturers provide more advanced ADAS functionalities. The high density of sensors, processors and other associated semiconductors in passenger cars causes increased semiconductor content per car compared to commercial cars. This volume, regulation and consumer preference will guarantee passenger cars prevail in the ADAS semiconductor market in terms of revenues and units deployed.
  
• For example, in September 2025, Mercedes-Benz established Athos Silicon, a new company based in Santa Clara, California. This spin-off is concerned with the creation of low-power, high-reliability chips to serve the emerging uses of automobiles, such as self-driving cars and drones, as the rise of semiconductor technology in passenger cars.
  
• Commercial vehicle segment will register the highest CAGR of approximately 16.6% because of the growing use of advanced driver-assistance systems (ADAS) to enhance fleet safety, regulatory compliance, and operational efficiency. Commercial trucks and buses are introducing new features such as adaptive cruise control, blind spot, and collision preventive systems to minimize accidents, increase comfort in drivers and fuel efficiency.
  
• Furthermore, with the increasing attention to electrification and autonomous delivery vehicles in logistics and street transportation, semiconductor material per vehicle is becoming faster.
  

Based on end use, the ADAS semiconductors market is divided into OEM, aftermarket. The OEM segment dominated the market, accounting for around 72% share in 2024.

• The OEM segment holds the highest market share in the ADAS semiconductor market due to advanced driver-assistance systems are built into vehicles directly during production. Tier-1 suppliers collaborate with original equipment manufacturers to design and install semiconductors to implement features of adaptive cruise control, lane departure warning system, blind spot detection, and autonomous emergency braking. Such factory-fit method assures flawless integration, reliability, and observation of safety measures, which is paramount to consumer satisfaction and regulatory acceptance.
  
• Furthermore, the OEMs are gradually incorporating more ADAS capabilities in standard or optional package offers, pushing the content of semiconductor per vehicle. OEMs control semiconductor purchases as consumers increase their demand on safety and comfort features, and as regulatory requirements in areas such as Europe, North America, and China, are enforced. Their control of vehicle architecture and long-term adoption strategies see to it that the OEM market share of the ADAS semiconductor market is constantly the highest.
  
• For instance, in September 2024, Valens Semiconductor announced three automotive design-wins with major European OEMs of its VA7000 MIPI A-PHY chipsets. These victories confirm that Valens is a major provider of ADAS connectivity solutions with a statement on the relevance of OEMs in the semiconductor supply chain.
  
• Moreover, the Aftermarket segment will grow most rapidly due to the rising retrofitting of advanced driver-assistance systems (ADAS) in older cars that were not initially fitted with the technologies. The increasing consumer awareness regarding the safety of vehicles, in combination with governmental support of collision avoidance systems, leads to the demand of aftermarket solutions like adaptive cruise control, blinding spot detection, and parking assistance.
  

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US dominated the ADAS Semiconductors market in North America with around 85% share and generated USD 2.91 billion in revenue in 2024.

• The U.S. leads the North American ADAS semiconductors industry because of its robust automotive research and development, first-mover safety technologies, and government-enforced safety requirements. Major car manufacturers (GM, Ford, and Tesla) are actively progressing in the use of sophisticated radar, camera, and AI-powered chips in their vehicles to respond to the increased demands of consumers to safety and assistive driving.
  
• Government initiatives like the New Car Assessment Program (NCAP) by NHTSA promote the use of safety features like automatic breaking mechanisms and lane control in their cars, which drive the high-performance ADAS semiconductor.
  
• Moreover, the main factors that will enhance semiconductor adoption are stricter vehicle safety policies, consumer awareness, and the drive towards partially autonomous driving. In North America, the U.S. has become the competitive market with innovations like the AI accelerators, sensor fusion chip, and secure automotive connectivity ICs developing at a rapid rate so that automakers can reduce the latency, enhance real-time decision-making, as well as reduce the overall cost of the system.
  
• For examples, in September 2025, Qualcomm and BMW unveiled the Snapdragon Ride Pilot autonomous driving system, a joint venture that generates ADAS capabilities on the BMW iX3. It is based on Qualcomm Snapdragon Ride SoCs and a developed software stack.
  
• Canada is the fastest-growing ADAS semiconductor market due to the rising levels of vehicle electrification, the growth of urban transport infrastructure, and the presence of government-funded smart mobility initiatives. Automotive manufacturers and suppliers are also investing in sensor-based systems and AI-based processors to aid in the implementation of the advanced driver-assistance features in both highly priced and mass-market cars.
  
• For example, in March 2025, NXP reported a partnership with Canadian Tier-1 suppliers to install its S32G vehicle network processors in new EV and ADAS platforms. The move proves the increasing momentum of the Canadian market and its interest in the integration of semiconductors that can improve the security, reliability, and connectivity of vehicles.
  

The ADAS semiconductors market in Germany is expected to experience robust growth between 2025 and 2034.

• Europe accounts for around 27% of the market in 2025 and is expected to grow at a CAGR of over 12.2% due to the strictness of safety regulations, the growing need for advanced driver-assistance systems, and investments in connected and autonomous vehicle technology. The increased fusion of radar, LiDAR and camera-based sensors is enabling safer, semi-autonomous driving solutions at a faster pace.
  
• Germany dominate the ADAS semiconductor market because the country has a powerful automotive sector, high penetration of high-end and electric vehicles, and active government policies that promote road safety and automation of vehicles. The OEMs and Tier-1 suppliers in the country are embracing high-performance SoCs, AI accelerators, and sensor fusion chips to boost the ADAS functionalities across vehicle categories.
  
• Major automakers and suppliers, including Bosch, Continental, Infineon, and NXP Semiconductors, are investing in next-generation ADAS, sensor platforms, and software stacks to meet EU safety directives (Euro NCAP, UNECE regulations) and city traffic surveillance programs. Government support for connected and autonomous vehicle testing is an additional spur to semiconductor usage.
  
• For example, in February 2025, Infineon was given the green light in terms of funding in the EU Chips Act. By 2022 to 2027, the company will have invested in a total of 2.3 billion euros in innovation projects in its plants in Germany and Austria, with emphasis in the automotive electronics and sensor technologies.
  
• Furthermore, the advancements in AI-based perception processors, edge computing cards, and over-the-air software updates are enhancing real-time decision-making in vehicles, minimizing faults, and enabling improved safety. These elements in combination with the automotive innovation ecosystem in Germany cement its leadership in the European market.
  
• The UK region is expected to grow rapidly for the ADAS semiconductors market due to their growing use in EV and autonomous vehicle pilot projects, as well as more sophisticated mobility programs. Vehicles equipped with ADAS solutions are becoming more efficient, safe, and connected through investments in vehicle-to-everything (V2X) communication, smart urban transport infrastructure, AI-based perception systems.
  

The ADAS semiconductors market in China is expected to experience rapid growth between 2025 and 2034.

• Asia-Pacific accounts for more than 30% of the market in 2025 and is the fastest-growing region with a CAGR of around 19.7%. This expansion is fueled by major investments in intelligent delivery infrastructure, the creation of urban micro-hubs, and the use of novel delivery vehicles, like electric vans, cargo bikes, and three-wheelers.
  
• China rules the APAC ADAS semiconductors market because it has the largest automotive manufacturing base, fastest moving electric and autonomous vehicle adoption, and best government efforts supporting smart mobility programs. Chinese OEMs and technology firms are currently working to introduce sophisticated driver-assistance systems (ADAS) into new car models to promote safety and performance in the traffic, as well as regulatory compliance.
  
• Also, the mass usage of not only the electric vans and three-wheelers but also autonomous delivery robots in the city logistics continuously imposes a high demand on the powerful ADAS semiconductors. The emphasis of the country towards innovation, R&D as well as local manufacturing of semiconductors also guarantees quicker development cycles, cost effectiveness, and trustworthy supply chains of these essential components.
  
• China has e-commerce development, high density cities, and smart cities, which further augment its market in ADAS semiconductor industry. Firms like NIO, XPeng and SAIC are working with semiconductor firms to deploy sensor platforms, radar, and AI ADAS chip to fleet vehicles. Government spending on infrastructure, vehicle-to-everything (V2X) communication and regulatory requirements on vehicle safety drive adoption, which makes China the regional leader.
  
• For example, in February 2025, Nullmax and Renesas Electronics signed a strategic alliance in Shanghai. The partnership aims at providing competitive solutions on ADAS in the world market, by using the semiconductor expertise of Renesas and the AI technology of Nullmax.
  
• Moreover, India is experiencing the fastest growth in the APAC ADAS semiconductors market due to rising vehicle electrification, increasing adoption of advanced driver-assistance systems in passenger and commercial vehicles, government initiatives promoting smart mobility, and expanding investments from both domestic and international semiconductor manufacturers.
  

The ADAS semiconductors market in Brazil is expected to experience significant and promising growth from 2025 to 2034.

• Latin America has approximately 8% of the market of ADAS semiconductors in 2025 with a CAGR of approximately 16.8% driven by rising automotive safety regulations, expanding EV adoption, and increasing investments in connected mobility solutions across Brazil and Mexico.
  
• Brazil leads the Latin American market due to its large and growing automotive industry, strong regulatory framework, and rising consumer demand for safer and smarter vehicles. The country has seen accelerated adoption of ADAS features such as adaptive cruise control, lane-keeping assistance, and automatic emergency braking, supported by government safety mandates and alignment with international automotive standards. This regulatory push is encouraging both local and global automakers to integrate semiconductor-based ADAS solutions into their vehicle portfolios for the Brazilian market.
  
• Additionally, Brazil’s growing investments in electric and connected vehicles are further fueling semiconductor demand. Collaborations between global semiconductor players and Brazilian automakers, alongside ongoing smart mobility initiatives in urban centers like São Paulo, are creating opportunities for wider deployment of ADAS technologies. This combination of regulatory pressure, consumer preference shifts, and innovation-driven partnerships positions Brazil as the leader in ADAS semiconductor adoption across Latin America.
  
• Mexico is the fastest-growing market for ADAS semiconductors in Latin America, driven by expanding automotive manufacturing hubs, strong exports to the U.S., rising consumer demand for safer vehicles, and government initiatives encouraging adoption of advanced automotive electronics and smart mobility solutions.
  

The ADAS semiconductors market in UAE is expected to experience significant and promising growth from 2025 to 2034.

• Middle East and Africa constitute approximately 5% of the market of ADAS Semiconductors in 2024 and are growing steadily driven by rising vehicle safety regulations, smart city initiatives, luxury car demand, and increasing OEM investments in connected and autonomous mobility solutions.
  
• The UAE is the market leader in the MEA ADAS semiconductors market because of its advanced automotive ecosystem, strong focus on smart mobility, and government-led initiatives to transform transportation infrastructure. The country has launched ambitious projects such as Dubai’s Smart City and Autonomous Mobility Strategy, which aim to integrate connected vehicles and driver-assistance technologies into daily transport. These initiatives create a favorable environment for the deployment of ADAS semiconductor solutions across both passenger and commercial vehicles.
  
• Additionally, the UAE’s high demand for premium and luxury vehicles, many of which come equipped with advanced ADAS features, strengthens its leadership in the region. Strategic collaborations between international semiconductor players and local mobility stakeholders further support the adoption of cutting-edge ADAS technologies. terms of implementing next-generation electric ADAS Semiconductors systems.
  
• In September 2025, Abu Dhabi's Integrated Transport Centre launched its first pilot program for autonomous delivery vehicles in collaboration with K2 and EMX, the logistics arm of 7X. This initiative, supervised by the Smart and Autonomous Systems Council, marks the first issuance of an official license plate for a self-driving delivery vehicle in the UAE. The pilot aims to enhance urban logistics and support the city's vision of a smart, sustainable transport system.
  
• The market in ADAS semiconductors in Saudi Arabia is experiencing tremendous growth due to the nation’s rapid adoption of advanced driver-assistance technologies, rising investment in smart city projects, and strong government initiatives to promote connected and autonomous vehicles.
  

ADAS Semiconductors Market Share

• The top 7 companies in the ADAS semiconductors industry are Robert Bosch, Continental, Denso, Huawei, VALEO, ZF, and NVIDIA, contributed around 42% of the market in 2024.
  
• Bosch focuses on vertically integrated ADAS solutions, combining in-house radar, camera, and sensor development with software platforms. The company leverages partnerships with global OEMs, invests heavily in AI and sensor fusion R&D, and emphasizes scalable, modular semiconductor solutions for both passenger and commercial vehicles, aiming to lead in safety and autonomous driving technologies across multiple regions.
  
• Continental’s strategy revolves around offering end-to-end ADAS solutions, including high-performance semiconductors, sensors, and software. They emphasize platform standardization to simplify integration across vehicle models, strengthen OEM collaborations, and invest in AI-enabled perception and control chips. Continental also targets electric and autonomous vehicle segments while expanding production capabilities to meet increasing demand in Europe, North America, and Asia-Pacific.
  
• Denso leverages its strong ties with Japanese and global automakers to provide reliable, high-efficiency ADAS semiconductors. Its strategy focuses on energy-efficient chips optimized for hybrid and electric vehicles, integration of radar and camera modules, and continuous R&D in AI and sensor fusion, positioning itself as a preferred partner for both premium and mass-market ADAS deployments.
  
• Huawei emphasizes AI-optimized SoCs, 5G-enabled V2X communication chips, and high-performance computing platforms for ADAS. Their strategy integrates telecom expertise into automotive electronics, targeting connected, semi-autonomous, and autonomous vehicles. Huawei focuses on China and expanding internationally, forming strategic partnerships with OEMs to deliver scalable, software-defined semiconductor solutions.
  
• Valeo concentrates on vision-based ADAS sensors, LiDAR integration, and cost-effective semiconductor modules. Its strategy includes vertical integration of sensors and processors, modular architectures for multiple vehicle segments, and global OEM partnerships. Valeo prioritizes scalability, mass production, and solutions for mid-range vehicles to expand ADAS adoption beyond premium models.
  
• ZF focuses on ADAS semiconductors as part of its larger automated driving and chassis control solutions. Their strategy integrates sensors, processors, and control units with software-defined platforms, emphasizing safety, redundancy, and functional integration. ZF targets commercial and passenger vehicles, leveraging partnerships with OEMs to accelerate deployment in autonomous and semi-autonomous applications.
  
• NVIDIA’s strategy is centered on AI-powered computing platforms for ADAS and autonomous vehicles. It delivers GPUs, SoCs, and AI software stacks enabling perception, path planning, and sensor fusion. NVIDIA partners with OEMs and Tier-1 suppliers to provide scalable, software-defined platforms, focusing on high-end, autonomous, and EV segments to capture premium semiconductor market share.
  

ADAS Semiconductors Market Companies

Major players operating in the ADAS semiconductors industry are:

• Continental
• Denso
• Huawei
• Mobileye (Intel)
• NVIDIA
• Qualcomm
• Robert Bosch
• Tesla
• VALEO
• ZF Friedrichshafen
  
• Companies prioritize developing high-performance, AI-optimized processors, radar, camera, LiDAR, and sensor fusion chips. Emphasis is placed on energy efficiency, modular architectures, and software-defined platforms to support real-time perception, autonomous driving, and integration with electric and hybrid vehicle systems.
• Collaboration with OEMs, Tier-1 suppliers, and software providers is central to scaling ADAS adoption. Strategic alliances, co-development agreements, and joint R&D programs help streamline integration, reduce time-to-market, and ensure compliance with evolving safety regulations across diverse vehicle platforms.
  
• The strategy targets global growth by penetrating emerging markets, mid-tier vehicle segments, and commercial fleets while maintaining leadership in premium passenger vehicles. Companies focus on scalable solutions, cost optimization, and tailored semiconductors for region-specific regulations, EV adoption, and autonomous driving trends.
  

ADAS Semiconductors Industry News

• In April 2025, Bosch announced its scalable ADAS suite at Auto Shanghai 2025, introducing a modular product family for worldwide markets.  The offer includes entry, mid, and high-end products and specific in-house developed radar sensors and an 8MP camera.  Mid-range production with Chinese OEMs will commence in mid-2025.
  
• In April 2025, Valeo announced it had partnered with Renault group to equip the new Renault grand koleos with the Valeo smart safety 360 (VSS360) system.  The Turnkey Level 2/2+ driver assistance (DA) solution block is focused on improving driving safety and supporting parking assistance with a smart front camera and advanced radars, detection algorithms, and intelligent features related to the modes of next-generation mobility.
  
• In January 2025, Garmin unveiled its latest innovation, Unified Cabin 2025, at the Consumer Electronics Show in Las Vegas, U.S. Key features of the solution include Ultra-Wide Band (UWB) technology for Child Presence Detection (CPD), enhanced blind spot vision, improved computer vision, augmented reality capabilities, and additional advanced functionalities.
  
• In January 2025, Infineon Technologies AG announced the creation of a new business unit aimed at consolidating its sensor and radio frequency operations. Named SURF (Sensor Units & Radio Frequency), this unit falls under the Power & Sensor Systems (PSS) division and is intended to drive growth in the sensors market.
  
• In December 2024, On Semiconductor and DENSO CORPORATION announced an expansion of their long-term collaboration on ADAS technologies. As part of this initiative, DENSO plans to acquire On Semiconductor shares on the open market to strengthen the existing partnership and advance joint ADAS development efforts.
  

The ADAS semiconductors market research report includes in-depth coverage of the industry with estimates & forecasts in terms of revenue ($Bn) and shipment (Units) from 2021 to 2034, for the following segments:

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Market, By Component

• Processors
• Sensors
• Memory
• Power Management ICs
• Connectivity & Interface
• Others

Market, By Application

• Adaptive Cruise Control (ACC)
• Blind Spot Detection System (BSD)
• Park Assistance
• Lane Departure Warning System (LDWS)
• Tire Pressure Monitoring System (TPMS)
• Autonomous Emergency Braking (AEB)
• Adaptive Front Lights (AFL)
• Others

Market, By Vehicle

• Passenger cars
  • Hatchbacks
  • Sedans
  • SUVs
  • MPVs
• Commercial vehicles
  • Light commercial vehicles (LCVs)
  • Medium commercial vehicles (MCVs)
  • Heavy commercial vehicles (HCVs)

Market, By End Use

• OEM
• Aftermarket

Market, By Level of Autonomy

• Level 1 (Driver assistance)
• Level 2 (Partial automation)
• Level 3 (Conditional automation)
• Level 4 (High automation)
• Level 5 (Full automation)

The above information is provided for the following regions and countries:

• North America
  • US
  • Canada
• Europe
  • Germany
  • UK
  • France
  • Italy
  • Spain
  • Russia
  • Nordics
• Asia Pacific
  • China
  • India
  • Japan
  • Australia
  • South Korea
  • Philippines
  • Indonesia
• Latin America
  • Brazil
  • Mexico
  • Argentina
• MEA
  • South Africa
  • Saudi Arabia
  • UAE