市場調查報告書
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1276717
汽車操作系統全球市場規模、份額和行業趨勢分析報告:2023-2029 年各車型、應用、類型和地區的前景和預測Global Automotive Operating System Market Size, Share & Industry Trends Analysis Report By Vehicle Type (Passenger Cars, Light Commercial Vehicles, and Heavy Commercial Vehicles), By Application, By Type, By Regional Outlook and Forecast, 2023 - 2029 |
汽車操作系統市場規模預計將在 2029 年達到 225 億美元,並有望在預測期內以 9.1% 的複合年增長率增長。
您的操作系統內核可以找到所有必要的工具來控制您的軟件和硬件。 配置內核的兩種主要方式是單片內核和微內核操作系統。 單體內核在內核區域實現操作系統的所有基本功能,例如操作系統服務和系統調用。 單片內核操作系統的代表是Linux。 稱為管理程序的不顯眼的軟件平台用於管理許多操作系統平台及其應用程序。 信息娛樂和功能安全功能,如用於備用監視器的主機顯示器 (HUD),需要管理程序。
COVID-19 影響分析
市場增長和趨勢受到 COVID-19 大流行的顯著影響。 然而,針對 COVID-19 疫苗的開發幫助了汽車和運輸部門。 此後,許多公司在全球接種疫苗的地區恢復了生產,並採取了嚴格的安全措施來保護員工。 為 OEM 提供創新技術和解決方案的重要公司也在努力通過各種策略修復 COVID-19 的損害。 因此,汽車行業的崛起預計將推動未來幾年市場的增長。
市場增長因素
汽車中安裝的 ECU 和域控制器的增加
Cockpit 通過 Cockpit Domain Controller 具備智能感知和交互能力。 這有助於改善用戶的交互體驗。 由於車載信息娛樂的發展和 ADAS 功能的廣泛採用,未來駕駛艙域控制器的重要性預計會增加。 座艙域要正常工作,需要域控制器所需的RTOS(實時操作系統)、虛擬機、GPU、通用OS(Android、Linux)、CPU等。 因此,對操作系統的需求增加了。 基於上述情況,汽車操作系統市場有望在整個預測期內增長。
軟件定義汽車簡介
與硬件定義的汽車相比,軟件定義的汽車有幾個優勢。 例如,遠程信息處理、車輛診斷和其他與車輛娛樂系統相關的軟件的更改需要訪問經銷商。 然而,在軟件定義的汽車中,用戶將能夠下載無線 (OTA) 升級以獲取安全補丁、信息娛樂增強功能、動力總成和駕駛動態等關鍵功能的監控和調整。 在預測期內,對此類軟件定義車輛的需求不斷增長,將推動汽車操作系統市場的發展。
市場約束
缺乏基本的、不間斷的 4G/5G 連接
採用 5G 技術的陰雲形象正在阻止一些概念上的進步轉化為現場使用,不僅在發展中國家,而且在富裕國家的邊緣和主要城市也是如此。. 因此,缺乏一致和無縫的通信限制了 ADAS 功能、信息娛樂系統、駕駛艙域等的可能性。 例如,ADAS 需要基本的基礎設施,例如維護良好的車道、乾淨的道路和 GPS 連接才能正常運行。 此外,由於高速公路上的網絡連接不佳,汽車無法連接到雲數據或其他車輛。 由於這些限制,預計汽車操作系統市場在預測期內不會擴大。
按類型劃分的前景
汽車操作系統市場按類型劃分為 QNX、Linux、Windows、Android 等。 2022 年,QNX 細分市場在汽車操作系統市場的收入份額最高。 由於其廣泛的硬件兼容性和對集群 UI 框架的行業領先支持,QNX 一直是汽車製造商最流行的操作系統之一。 QNX 還用於多種其他應用,例如 ADAS 功能、駕駛艙控制和車載娛樂系統。
按車型預測
車載操作系統市場按車型分為乘用車、輕型商用車和重型商用車。 在 2022 年的汽車操作系統市場中,輕型商用車 (LCV) 細分市場的收入份額很大。 歷史上,物流行業對貨車的需求一直非常強勁。 在新興市場,汽車製造商正在提供更多 LCV 車型。 許多發達國家對輕型商用車的最新技術的需求越來越大。
使用展望
按應用劃分,汽車操作系統市場分為 ADAS 和安全系統、車身控制和舒適系統、通信系統、互聯服務、信息娛樂系統、發動機管理和動力總成、車輛管理和遠程信息處理等。 到 2022 年,汽車操作系統市場的車身控制和舒適系統部分佔據了相當大的收入份額。 通過使用車身控制模塊控制能量流,可以避免電氣系統因一次消耗大量能量的功能而過載。 在任何時候,最重要的特徵都會獲得最高的能量,並優先於所有其他特徵。
區域展望
按地區分析了北美、歐洲、亞太地區和 LAMEA 的汽車操作系統市場。 亞太地區將在 2022 年佔據汽車操作系統市場的最大收入份額。 近年來,該地區已成為汽車製造中心。 印度、日本、中國和韓國是汽車製造和銷售份額最大的四個國家。 出於這個原因,汽車產量隨著時間的推移而增加,以滿足國內和國際需求。
The Global Automotive Operating System Market size is expected to reach $22.5 billion by 2029, rising at a market growth of 9.1% CAGR during the forecast period.
An automotive operating system (automotive OS) is a platform for developing and managing all vehicle domain services and applications. It facilitates close, cross-company collaboration and comprises a software factory and a base layer. In addition, automotive OS is a framework for infotainment that automakers include in vehicles. Without a phone, drivers can use an interface made for the vehicle screen by downloading appropriate apps simply into their vehicles.
Every automotive OS differs significantly in terms of program size, functionality, complexity, the effort required for creation, needed hardware, lifetime maintenance, pricing, and support effort. A typical operating system might include as few as a few hundred lines of code or as many as tens of millions for popular OSes like Linux and Windows. The ecosystem and capabilities of the OS are also crucial for creating the software and app platforms needed for software-defined vehicles. For the finest OS to serve the expanding software-defined vehicles of the future, a sizable ecosystem and infrastructure are therefore necessary.
The OS kernel finds all the essential tools for controlling the software and hardware. The two primary methods of structuring the kernel are the monolithic kernel and the microkernel OS. All essential OS features, such as OS services and system calls, are in the kernel area under a monolithic design. The leading monolithic kernel operating system is Linux. A modest software platform called a hypervisor is used to manage many OS platforms as well as their apps. Infotainment and functional-safety features, such as a head-unit display (HUD) for a backup monitor, requires hypervisors.
COVID-19 Impact Analysis
Market growth and trends were significantly impacted by the COVID-19 pandemic. Yet the development of COVID-19 vaccinations was helpful for the car and transportation sectors. Following that, many companies began to resume production in areas worldwide where people had received vaccines while taking strict safety measures to protect employees. In addition, significant businesses that provide innovative technology & solutions to OEMs have also made a significant effort to repair the damage brought on by COVID-19 using a variety of strategies. Consequently, the rise of the automotive industry is expected to fuel the market's growth in the years to come.
Market Growth Factors
The increasing number of ECUs and domain controllers in automobiles
The cockpit has intelligent sensing and interaction capabilities owing to the cockpit domain controller. This contributes to a better interactive experience for users. The significance of cockpit domain controllers is anticipated to keep increasing due to evolving in-vehicle infotainment and expanding ADAS feature adoption. The Real-Time Operating System (RTOS), virtual machines, GPU, general-purpose OS (Android and Linux), and CPU, among others, are needed by domain controllers for the cockpit domain to operate properly. Operating system demand will rise as a result. Considering all the aforementioned factors, the market for automotive operating system is expected to grow throughout the forecast period.
Introduction of vehicles defined by software
When compared to hardware-defined vehicles, software-defined vehicles provide several benefits. For example, telematics, car diagnostic, and other software changes involving vehicle entertainment systems will demand a visit to the dealership. However, with software-defined vehicles, users can download over-the-air (OTA) upgrades that address security patches, infotainment enhancements, and monitoring and tuning essential features like the powertrain and driving dynamics. The market for automotive operating systems will be driven by this increase in demand for software-defined vehicles throughout the forecast period.
Market Restraining Factors
Lack of basic and uninterrupted 4G/5G connectivity
A cloudy image of the adoption of 5G technology is impeding the transformation of some conceptual advancements to on-the-ground use in developing nations as well as in the periphery and main cities of wealthy nations. Thus, a lack of consistent and seamless communication will limit the possibilities for ADAS features, infotainment systems, cockpit domains, etc. For instance, ADAS needs fundamental infrastructures like well-marked lanes, orderly roadways, and GPS connectivity to function properly. Furthermore, because of the poor network connectivity on highways, automobiles are not connected to cloud data or other vehicles. These constraints are anticipated to limit the market for automotive operating system' expansion prospects during the projected time.
Type Outlook
Based on type, the automotive operating system market is categorized into QNX, Linux, Windows, Android, and others. The QNX segment garnered the highest revenue share in the automotive operating system market in 2022. Because of its compatibility with a wide range of hardware and support from industry-leading cluster UI frameworks, QNX has traditionally been one of the most popular OS among automakers. QNX is also utilized in several other applications, including ADAS features, cockpit controls, and in-car entertainment systems.
Vehicle Type Outlook
On the basis of vehicle type, the automotive operating system market is divided into passenger cars, light commercial vehicles, and heavy commercial vehicles. The light commercial vehicles (LCV) segment recorded a significant revenue share in the automotive operating system market in 2022. Van demand has historically been very strong in the logistics industry. In the developing market, automakers now provide more LCV models. Modern technologies for light commercial cars are increasingly in demand throughout many developed nations.
Application Outlook
On the basis of application, the automotive operating system market is fragmented into ADAS & safety systems, body control & comfort systems, communication systems, connected services, infotainment systems, engine management & powertrain, vehicle management & telematics, and others. The body control & comfort systems segment acquired a substantial revenue share in the automotive operating system market in 2022. Energy flow can be controlled by a body control module, preventing overloading of the electrics caused by too many functions using a lot of energy at once. At any given time, the most crucial function receives the best energy possible and takes precedence over all other functions.
Regional Outlook
Region wise, the automotive operating system market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The Asia Pacific segment garnered the largest revenue share in the automotive operating system market in 2022. This region has been a center for vehicle manufacturing in recent years. The four countries with the biggest shares of manufacture and sales of automobiles are India, Japan, China, and South Korea. Due to this, the volume of vehicles produced has increased over time, satisfying domestic and international demand.
The major strategies followed by the market participants are Partnerships. Based on the Analysis presented in the Cardinal matrix; Apple, Inc., Microsoft Corporation and Google LLC are the forerunners in the Automotive Operating System Market. Companies such as NVIDIA Corporation, Siemens AG, BlackBerry Limited are some of the key innovators in Automotive Operating System Market.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Apple, Inc., NVIDIA Corporation, Google LLC (Alphabet, Inc.), Red Hat Inc. (IBM Corporation), Microsoft Corporation, Siemens AG, BlackBerry Limited, Tata Motors Limited (Tata Group), Wind River Systems, Inc. (Aptiv Global Operations Limited) and Green Hills Software, AB.
Recent Strategies Deployed in Automotive Operating System Market
Partnerships, Collaborations, and Agreements:
Feb-2023: Green Hills Software entered into collaboration with Lattice Semiconductor, a leader in low-power programmable. The collaboration would enable the company to provide safe and secure solutions for embedded Industrial and Automotive applications.
Jan-2023: NVIDIA partnered with Hon Hai Technology Group (Foxconn), a leader in technology manufacturing. The partnership would combine the strengths of both companies and enable them to develop an automated and autonomous vehicle platform that offers intelligent driving solutions.
Jan-2023: Wind River joined hands with GuardKnox, an automotive cybersecurity software provider. With this collaboration, the company aimed at enabling automakers to use flexible and cost-effective solutions that would decrease complexities and shorten time-to-market for new automotive applications and features.
Nov-2022: Google formed a partnership with Renault Group, a French automobile manufacturer. The partnership is aimed at accelerating the digital transformation of Renault Group by bringing the expertise of company in the cloud, AI, and Android to offer a secure, highly-personalized experience.
Oct-2022: Siemens Smart Infrastructure formed a partnership with Volta Trucks, a manufacturer and services provider of full-electric commercial vehicles. The partnership is aimed to provide and scale eMobility charging infrastructure. Moreover, the company intends to develop Transportation as a Service solution for the Volta Trucks' customers.
Aug-2022: Green Hills Software teamed up with Andes Technology, a leading RISC-V CPU IP vendor. with this collaboration, the company aimed to provide an integrated and optimized platform for safe and secure computing on Andes Technology.
Jun-2022: Blackberry Limited entered into a partnership with TTTech Auto, a safety solution provider for cars. Both companies would integrate Blackberry's QNX Neutrino Real-Time Operating System (RTOS) and TTTech Auto's safe vehicle software platform MotionWise for the advancement of driver assistance systems and software-defined vehicles.
May-2022: BlackBerry Limited joined hands with Magna International Inc., a global automotive supplier. Through this collaboration, the company would provide its QNX software including the QNX OS for Safety, QNX Software Development Platform, QNX Platform for ADAS, for system-level integration, performance optimization, and solution validation.
May-2022: Red Hat, Inc., teamed up with General Motors, an American multinational automotive manufacturing company. The collaboration aimed to expand an ecosystem of innovation around the Red Hat In-Vehicle Operating System, which offers a Linux operating system foundation for GM's Ultifi software platform evolution.
Feb-2022: Google entered into a partnership with Mercedes-Benz, a German luxury and commercial vehicle automotive brand, for creating a next-generation digital luxury car experience. With this partnership, the company would offer its AI and data capabilities to create an enhanced customer experience and advance autonomous driving.
Feb-2022: Tata Motors' JLR partnered with NVIDIA, a US-based software company. The partnership involves developing and providing automated driving systems equipped with AI-enabled services. This partnership aligns and supports the automotive manufacturer company to realize its strategy, and further create a benchmark in technology, sustainability, and quality.
Feb-2021: Google came into collaboration with Ford, an American multinational automobile manufacturer. The company's Android operating system would be integrated into Ford and Lincoln vehicles to design new consumer services and modernize internal operations.
Dec-2021: BlackBerry Limited teamed up with BMW Group, a manufacturer of luxury vehicles and motorcycles. Through this collaboration, the company aims to develop technology for the automotive manufacturer's next-generation vehicles.
Product Launches and Product Expansions:
Sep-2022: NVIDIA launched DRIVE Thor, a centralized computer for safe and secure autonomous vehicles. The new DRIVE Thor enables IVI and advanced driver-assistance systems to run domain isolation that would allow concurrent time-critical processes to work without interruption and it also supports multi-domain computing for automated driving and IVI.
Apr-2021: NVIDIA unveiled the next-generation AI-enabled processor for autonomous vehicles, NVIDIA DRIVE Atlan. This product is the latest addition to NVIDIA's centralized compute roadmap for autonomous vehicles, and it integrates AI & software with enhancements in networking, computing, and security for extraordinary levels of performance & security.
Acquisition and Mergers:
Aug-2022: Siemens Smart Infrastructure completed the acquisition of Brightly Software, a leading U.S.-based software-as-a-service. This acquisition advances SI to a foremost standing in the software market for facilities and built infrastructure.
Market Segments covered in the Report:
By Vehicle Type
By Application
By Type
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures