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市場調查報告書

商品編碼

1622040

汽車嵌入式市場:產品類型，用途，車輛類型，各地區，2024年～2031年

Automotive Embedded Market by Product Type, Application, Vehicle Type, & Region for 2024-2031

出版日期: 2024年09月11日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

2024-2031 年汽車嵌入式市場評估

先進技術越來越多地整合到車輛中，加上對連網和自動駕駛車輛的需求，正在推動汽車嵌入式市場的發展。 Verified Market Research 分析師表示，汽車嵌入式市場的估值預計將從 2024 年的 80 億美元增加到 2031 年的 134.5 億美元。

汽車嵌入式市場的快速擴張主要得益於人們對提高車輛安全性、燃油效率和使用者體驗的日益關注。此外，政府對車輛排放和安全標準的嚴格監管進一步推動了市場成長。這些因素推動市場從 2024 年到 2031 年的複合年增長率為 7.40%。

汽車嵌入式市場定義/概述

汽車嵌入式包括內建於車輛中以控制各種功能和系統的硬體和軟體組件。這些嵌入式系統旨在執行車輛生態系統內的特定任務，從引擎控制等基本操作到自動駕駛功能等高級功能。

汽車嵌入式系統通常包括微控制器、感測器、執行器和軟體，它們協同工作來管理和優化車輛性能、安全性和使用者體驗。隨著汽車變得更加互聯和智慧化，嵌入式系統在車輛設計和功能中的作用不斷擴大，推動資訊娛樂、ADAS（高級駕駛輔助系統）和電氣化等領域的創新。

推動汽車嵌入式市場成長的因素有哪些？

汽車產業向電動和混合動力汽車的轉變是嵌入式系統市場的關鍵驅動力。這些車輛需要先進的電池管理系統、電力電子控制和能量優化演算法，所有這些都嚴重依賴嵌入式技術。隨著世界各國政府實施更嚴格的排放法規並為電動車的採用提供激勵措施，汽車產業對先進嵌入式系統的需求預計將激增。

汽車產業中連網汽車和物聯網 (IoT) 的興起也是推動市場成長的關鍵因素。現代汽車越來越多地配備嵌入式系統，支援車輛對車輛 (V2V) 和車輛對基礎設施 (V2I) 通信，從而增強安全和交通管理能力。這些系統還促進無線 (OTA) 更新，使製造商能夠提高車輛性能並在車輛的整個生命週期中添加新功能。

此外，自動駕駛技術的發展正在突破車載嵌入式系統的極限。 ADAS（進階駕駛輔助系統）和全自動駕駛車輛需要大量感測器、高效能運算平台和複雜的軟體演算法來感知環境、做出決策並控制車輛。隨著汽車製造商和科技公司競相將自動駕駛功能推向市場，這一趨勢正在推動對嵌入式硬體和軟體開發的大量投資。

車載嵌入式技術的市場導入有哪些潛在影響？

汽車中安裝的嵌入式系統日益複雜，已成為市場的主要障礙。隨著整合的功能和特性越來越多，軟體錯誤和系統故障的風險也會增加，這可能會導致代價高昂的召回和安全問題。汽車製造商必須確保所有嵌入式系統無縫協作並滿足嚴格的安全性和可靠性標準。

網路安全是汽車嵌入式市場的另一個關鍵問題。隨著汽車變得更加互聯和依賴軟體，它們也成為網路攻擊的潛在目標。確保嵌入式系統免受駭客攻擊、資料外洩和未經授權的存取是一項重大挑戰，需要持續的投資和專業知識。對強大網路安全措施的需求增加了汽車嵌入式系統開發的複雜性和成本。

此外，汽車產業技術的快速進步給嵌入式系統供應商和汽車製造商都帶來了挑戰。汽車行業普遍存在的較長開發週期可能與嵌入式技術的快節奏發展相矛盾，從而導致在新車中實施過時系統的風險。在創新與全面測試和驗證的需求之間取得平衡是汽車嵌入式市場中持續存在的挑戰。

The increasing integration of advanced technologies in vehicles, coupled with the demand for connected and autonomous vehicles, is propelling the automotive embedded market. According to analyst from Verified Market Research, the automotive embedded market is projected to reach a valuation of USD 13.45 Billion by 2031,up from USD 8 Billion in 2024.

The rapid expansion of the automotive embedded market is primarily driven by the growing emphasis on vehicle safety, fuel efficiency, and enhanced user experience. Additionally, stringent government regulations regarding vehicle emissions and safety standards are further boosting market growth. These factors contribute to the market to grow at aCAGR of 7.40% from 2024 to 2031.

Automotive Embedded Market: Definition/Overview

Automotive embedded encompasses the hardware and software components integrated into vehicles to control various functions and systems. These embedded systems are designed to perform specific tasks within the vehicle's ecosystem, ranging from basic operations like engine control to advanced features such as autonomous driving capabilities.

Automotive embedded systems typically include microcontrollers, sensors, actuators, and software that work together to manage and optimize vehicle performance, safety, and user experience. As vehicles become increasingly connected and intelligent, the role of embedded systems in automotive design and functionality continues to expand, driving innovation in areas such as infotainment, advanced driver assistance systems (ADAS), and electrification.

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What Factors are Propelling the Growth of the Automotive Embedded Market?

The automotive industry's shift towards electric and hybrid vehicles is a significant driver for the embedded systems market. These vehicles require sophisticated battery management systems, power electronics control, and energy optimization algorithms, all of which rely heavily on embedded technologies. As governments worldwide implement stricter emissions regulations and offer incentives for electric vehicle adoption, the demand for advanced embedded systems in the automotive sector is expected to surge.

The rise of connected vehicles and the Internet of Things (IoT) in the automotive industry is another key factor driving market growth. Modern vehicles are increasingly equipped with embedded systems that enable vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication, enhancing safety and traffic management capabilities. These systems also facilitate over-the-air (OTA) updates, allowing manufacturers to improve vehicle performance and add new features throughout the vehicle's lifecycle, thus creating a continuous demand for robust embedded solutions.

Furthermore, the development of autonomous driving technologies is pushing the boundaries of automotive embedded systems. Advanced driver assistance systems (ADAS) and fully autonomous vehicles require an array of sensors, high-performance computing platforms, and complex software algorithms to perceive the environment, make decisions, and control the vehicle. This trend is driving significant investment in embedded hardware and software development, as automakers and technology companies compete to bring self-driving capabilities to market.

What are the Potential Impacts of Automotive Embedded Technology Adoption in the Market?

The increasing complexity of embedded systems in vehicles is a significant hurdle for the market. As more features and functions are integrated, the risk of software bugs and system failures grows, potentially leading to costly recalls and safety issues. This complexity also increases development time and costs for automakers, who must ensure that all embedded systems work seamlessly together and meet stringent safety and reliability standards.

Cybersecurity is another critical concern in the automotive embedded market. As vehicles become more connected and reliant on software, they also become potential targets for cyberattacks. Ensuring the security of embedded systems against hacking attempts, data breaches, and unauthorized access is a significant challenge that requires ongoing investment and expertise. The need for robust cybersecurity measures adds another layer of complexity and cost to automotive embedded system development.

Additionally, the rapid pace of technological advancement in the automotive industry creates challenges for embedded system suppliers and automakers alike. The long development cycles typical in the automotive industry sometimes conflict with the fast-paced evolution of embedded technologies, leading to the risk of implementing outdated systems in new vehicles. Balancing innovation with the need for thorough testing and validation remains an ongoing challenge in the automotive embedded market.

Category-Wise Acumens

What are the Drivers that Contribute to the Demand for Embedded Hardware?

According to VMR analysis, the embedded hardware segment is estimated to dominate the market in the product type category during the forecast period. The increasing sophistication of vehicle functions and features is driving demand for more powerful and specialized embedded hardware components. Advanced microcontrollers and processors are required to handle complex tasks such as real-time sensor data processing, artificial intelligence algorithms for ADAS, and high-resolution graphics for infotainment systems.

Moreover, the trend toward vehicle electrification is boosting demand for specialized embedded hardware. Electric and hybrid vehicles require sophisticated power management and control systems, including battery management systems (BMS) and power inverters, which rely on dedicated embedded hardware solutions. As the electric vehicle market grows, so does the demand for these specialized components.

Furthermore, the integration of multiple electronic control units (ECUs) in modern vehicles is driving the need for more robust and efficient embedded hardware. Automakers are increasingly adopting domain controller architectures, which consolidate multiple functions into centralized, high-performance computing platforms. This shift requires more powerful embedded processors and memory solutions, contributing to the growth of the embedded hardware segment.

What are the Potential Factors for the Growth of Infotainment & Telematics in the Market?

The infotainment & telematics segment is projected to experience significant growth in the automotive embedded market during the forecast period. Consumer demand for seamless connectivity and advanced entertainment options in vehicles is a primary driver for this segment. Modern infotainment systems offer features such as smartphone integration, voice control, and streaming services, requiring sophisticated embedded solutions to deliver a smooth and responsive user experience.

Telematics systems, which enable vehicle tracking, diagnostics, and communication with external networks, are becoming increasingly important for fleet management, usage-based insurance, and connected car services. These systems rely on embedded hardware and software to collect and transmit data, driving demand for specialized embedded solutions in this segment.

Additionally, the integration of artificial intelligence and machine learning capabilities in infotainment systems is opening new possibilities for personalized user experiences and predictive maintenance. These advanced features require more powerful embedded systems, further fueling growth in this segment. As vehicles evolve into mobile computing platforms, the infotainment & telematics segment is expected to remain a key focus area for innovation and investment in the automotive embedded market.

Country/Region-wise Acumens

What are the Key Factors that Contribute to Asia Pacific's Edge in the Market?

According to VMR analysts, the Asia Pacific region is estimated to dominate the automotive embedded market during the forecast period. The region's dominance is attributed to several factors, including the presence of major automotive manufacturing hubs in countries such as China, Japan, and South Korea. These nations have a strong focus on technological innovation and are at the forefront of electric vehicle development, driving demand for advanced embedded systems.

Furthermore, government initiatives promoting the adoption of electric vehicles and intelligent transportation systems in countries like China and India are creating a favorable environment for the growth of the automotive embedded market. These policies are encouraging automakers to invest in advanced technologies, including sophisticated embedded systems for improved vehicle efficiency and connectivity.

How Do Government Regulations Shape the Market Landscape in North America?

The North American region is expected to exhibit significant growth within the automotive embedded market during the forecast period. Stringent government regulations regarding vehicle safety and emissions are key drivers for the adoption of advanced embedded systems in this region. For instance, mandates for features such as automatic emergency braking and backup cameras have spurred the integration of more sophisticated ADAS systems in vehicles.

Moreover, the push for improved fuel efficiency and reduced emissions has led to increased adoption of engine management systems and powertrain control modules, which rely heavily on embedded technologies. The region's strong focus on autonomous vehicle development, particularly in the United States, is also driving investment in advanced embedded systems for perception, decision-making, and vehicle control.

The presence of major automotive and technology companies in North America, particularly in Silicon Valley, is fostering innovation in the automotive embedded space. Collaborations between traditional automakers and tech giants are accelerating the development and integration of cutting-edge embedded technologies in vehicles, further propelling market growth in the region.

Competitive Landscape

The automotive embedded market's competitive landscape is characterized by a mix of established automotive suppliers, semiconductor manufacturers, and software companies, all vying for market share in an increasingly technology-driven industry.

Some of the prominent players operating in the automotive embedded market include:

Robert Bosch GmbH

Continental AG

Aptiv PLC

Panasonic Corporation

Infineon Technologies AG

NVIDIA Corporation

NXP Semiconductors N.V.

Texas Instruments Incorporated

Renesas Electronics Corporation

Denso Corporation

Latest Developments

In March 2024, Continental AG announced the development of a new high-performance vehicle computer platform designed to support advanced driver assistance systems and autonomous driving functions. The platform integrates multiple ECUs into a centralized architecture, reducing complexity and improving overall system performance.

In January 2024, NVIDIA Corporation unveiled its next-generation automotive-grade system-on-chip (SoC) for autonomous vehicles, featuring enhanced AI processing capabilities and improved energy efficiency. The new chip is designed to power advanced in-vehicle infotainment systems and support Level 4 autonomous driving features.