市場調查報告書
商品編碼
1258829
到 2028 年的汽車軟件市場預測 - 按車輛類型、軟件層、EV 應用程序、應用程序、產品、組織規模和地區進行的全球分析Automotive Software Market Forecasts to 2028 - Global Analysis By Vehicle Type, Software Layer, EV Application, Application, Offering, Organization Size and By Geography |
根據 Stratistics MRC 的數據,2022 年全球汽車軟件市場規模將達到 217 億美元,預計到 2028 年將達到 504 億美元,預測期內增長 15.1%。複合年增長率。
汽車軟件是一種用於增強車輛功能的應用程序。 一個將改變移動業務未來的系統。 由於它們通常是高級雲解決方案,因此需要使用某種硬件。 由於嵌入式軟件和大型 IT 系統的集成、全球遠程團隊的創建以及所有行業中最快的周期時間,開發汽車軟件具有挑戰性。 汽車軟件產品線和版本是數量最多的。 汽車軟件包含可促進客戶運營的功能,包括無線更新 (OTA)、高級雲解決方案、額外的硬件連接等。 個性化、可靠性和適應性、行業專業知識
根據 OFV 的數據,電動汽車在挪威繼續佔據主導地位,2019 年電動汽車銷量佔電動汽車銷量的 42.4%,高於 2018 年的 31.2%。 這意味著電動汽車銷量同比增長近三分之一。 加上插電式混合動力車的銷量,2019 年挪威約 56% 的新車銷量配備了插頭。
聯網汽車的興起為生態系統中的利益相關者創造了新的收入機會。 許多非汽車業者正在加入聯網汽車和自動駕駛的競賽,以利用這一創收機會。 今天的汽車不再是基於硬件的移動設備。 ADAS、遠程信息處理和發動機管理系統等高級車輛應用的大部分電子內容將由域控制器、集成 ECU、HMI 和 AI 組成。 為了正常運行,必須使用大量代碼行對這些應用程序進行編程。 隨著車輛變得越來越複雜,這些應用程序的複雜性也在增加。 因此,設計具有更多代碼的系統的需求增加了對嵌入式軟件的需求。 由此產生的聯網汽車數量不斷增加,正在推動汽車軟件業務的發展。
5G 和無線連接所需的昂貴基礎設施正在影響汽車軟件業務的增長。 構建必要的軟件交互平台,例如物聯網、數據分析和雲,需要大量資金。 互聯汽車和 ADAS 系統需要軟件更新,以快速、靈活和可訪問的方式整合新內容。 OTA(空中下載)軟件更新是重中之重。 此外,由於沒有適當的連接選項,製造商正在推出額外的服務和應用程序,從緊急聯繫解決方案到安全警報消息,阻礙了市場增長。
設計要求和架構的變化正在影響軟件需求。 無線連接對於汽車軟件用戶體驗至關重要。 為了找到解決方案,各家電信公司正在努力開發 5G,以使汽車軟件更安全、更高效。 汽車正在成為網絡感知、軟件定義、超連接數據傳輸車輛,需要使用高科技連接平台。 了解這些影響和汽車行業的障礙將有助於加速聯網汽車的採用。 5G 將成為推動市場增長的關鍵推動因素,因為它將允許自動駕駛汽車和汽車軟件即時交互。
汽車領域的產品開發受到汽車軟件市場競爭和嚴格的二氧化碳排放法規的影響,產品變異、功能集成、個性化和新技術的引入正在取得進展。 因此,在日益複雜的開發環境中,產品變化、功能集成、個性化、新技術引入以及組織、技術和程序依賴性不斷增加。 複雜性的影響表現為一波又一波的缺陷報告、過高的設計工作以及不時爆炸的保修成本,阻礙了未來的汽車軟件市場。
汽車行業的需求和投資正在顯著下降。 受 COVID-19 的影響,汽車製造商和一些出行公司在汽車行業中受到的打擊最為嚴重。 宏觀經濟趨勢、消費者行為的變化、法規的發展等,也可能對汽車行業產生直接的長期影響。
由於能夠監控鋰離子 (Li-ion) 電池的電壓、溫度、電流、充電狀態 (SoC) 和電池平衡,預計電池管理領域將實現有利可圖的增長。 有效的車輛電池管理系統解決方案需要大量時間、經驗以及對需求、硬件和軟件的透徹理解。 電動汽車電池管理系統的主要功能是電池保護以防止在安全工作區外運行,以及電池監測以估計充電和放電期間二次電池的充電狀態(SoC)和健康狀態(SoH)。 ,通過電池平衡優化電池,提高電池壽命和容量,優化混合動力 (HEV)、插電式 (PHEV) 和全電動汽車的行駛裡程,推動預測期內的市場增長。
隨著汽車變得越來越複雜,從自動駕駛系統到電動汽車,安全和安保行業將在預測期內增長最快,因為公司正在努力解決安全和可靠性問題。預計該行業將以復合年增長率增長。 功能安全對於確保當今先進的電子產品在長時間內提供一致的性能而不會出現系統故障至關重要。 此外,隨著軟件和連接數量的增加,網絡攻擊的機會也在增加。 通過快速查找和修復漏洞和設計缺陷,工程師幫助交付安全可靠的產品,最大限度地縮短上市時間,最大限度地提高利潤率,並應對未來的網絡安全挑戰。合規性,進一步激活市場。
由於對創新軟件和系統的需求不斷增長,預計亞太地區在預測期內將佔據最大的市場份額。 在該地區觀察到的巨大技術進步一直是對汽車軟件需求不斷增長的關鍵因素。 公眾對技術創新日益增長的興趣也增加了對汽車軟件的需求。 智能交通系統和移動性的快速擴張,如中國和日本,正在推動該地區的汽車軟件市場。
預計歐洲在預測期內的複合年增長率最高,因為它是汽車軟件業務的重要增長區域。 預計在預測期內北美的需求量很大。 此外,政府關於服務商安全和保障的法規要求汽車製造商提供可實現免提通話的車載信息娛樂系統,這刺激了歐洲汽車軟件業務的擴張。 行業領先公司的存在和快速研發計劃是預測期內汽車軟件市場的關鍵增長因素。
2023 年 3 月,BlackBerry 和 Adob□□e 將合作將電子簽名的安全表單引入移動設備,合作協議還將允許 BlackBerry 轉售 Adob□□e Experience Manager Forms 軟件。
2023 年 3 月,黑莓宣布與一家領先的專利貨幣化公司達成一項高達 9 億美元的新專利出售交易,該交易不需要任何融資條件。 從一家管理資產超過 300 億美元的領先美國投資公司籌集資金。
2023 年 1 月,BlackBerry QNX 和 Texas Instruments 將聯合推出在線培訓學院,以加速嵌入式軟件開發人員的創新。
2022 年 12 月,Elektrobit 和 Airbiquity 合作為移動行業提供下一代 OTA 服務,使原始設備製造商更容易為其車隊採購和構建端到端 OTA 系統。
購買此報告的客戶將免費獲得以下定制之一。
According to Stratistics MRC, the Global Automotive Software Market is accounted for $21.7 billion in 2022 and is expected to reach $50.4 billion by 2028 growing at a CAGR of 15.1% during the forecast period. Automotive software is a type of application that is used to improve the functionality of automobiles. It is a system that will alter the future of the mobility business. Normally, it is a sophisticated cloud solution that must be linked to some kind of hardware. Automotive software development is difficult because it integrates embedded software with large IT systems, it is produced in a worldwide setting in remote teams, and it has one of the fastest cycle times of any industry. Automotive software product lines and versions are among the most numerous. Automotive software is full of features that allow clients to grow their operations and much more, such as over-the-air updates (OTA), advanced cloud solutions, additional hardware connectivity, and much more. Personalization, dependability and adaptability, and industry expertise
According to OFV Electric cars continue to dominate in Norway, as 2019 saw EV sales rise to 42.4%, up from 31.2% in 2018. This represents almost a 1/3 increase in EV sales from year to year. Adding in plug-in hybrid sales, about 56% of Norway's new car sales in 2019 had a plug.
The growing number of connected cars has created new revenue-generating opportunities for the ecosystem's stakeholders. Many non-automotive players have entered the race of linked cars and autonomous driving to capitalise on the financial opportunities. Vehicles today are no longer hardware-based moving devices. Domain controllers, consolidated ECUs, HMI, and AI will comprise the majority of electronic content for advanced vehicle applications such as ADAS, telematics, engine management systems, and so on. For proper operation, these apps must be programmed with a large amount of lines of code. As cars become more technologically adept, the complexity of these applications grows. As a result, systems must be designed with more codes, increasing the demand for embedded software. As a result, the growing number of linked cars is propelling the automotive software business.
The high-priced infrastructure necessary for 5G and wireless connectivity is having an impact on the growth of the automotive software business. A significant amount of capital will be required to construct the requisite software interaction platforms, which include IoT, data analytics, and cloud. Connected automobiles and ADAS systems require quick, flexible, and accessible methods of updating software to incorporate new content. Over-the-air (OTA) software updates have been given first priority. Furthermore, without suitable connectivity options, manufacturers are introducing additional services and applications spanning from emergency contacting solutions to safety alert messages thus hindering the market growth.
Transformation of design requirements and architectures is influencing software needs. Wireless connectivity is critical to the user experience of vehicle software, to find a solution, various telecom companies are working on the development of 5G to improve the safety and efficiency of car software. Automobiles are becoming network-aware, software-defined, and ultra-connected data transmitting vehicles, necessitating the use of a high-tech connectivity platform. Understanding these implications, as well as the hurdles for the automotive industry can help to accelerate the adoption of connected automobiles. Because autonomous vehicles and automotive software will be able to interact instantly, 5G will be a critical enabler thus enhances the market growth.
Product development in the automobile sector is influenced by variables such as rivalry in the automotive software market and rigorous CO2 emission requirements, which result in product variation, function integration, individualization, and novel technologies. These tactics enhance organisational, technical, and procedural reliance on increasingly complex development environments. The impacts of complexity emerge from time to time in the shape of waves of defect reports, exorbitant design efforts, and an explosion of warranty costs which hamper the automotive software market in the future.
The automotive industry is experiencing a significant reduction in demand and investment. Automotive Manufacturers and several mobility players have taken some of the most severe hits in the automobile industry as a result of COVID-19. Because of macroeconomic trends, shifting consumer behaviour, and regulatory developments, this could have a direct long-term impact on the automotive industry as well.
The Battery Management segment is estimated to have a lucrative growth, due to capable monitoring voltage, temperature, and current, as well as battery status of charge (SoC) and cell balancing of lithium-ion (Li-ion) batteries. An effective vehicle battery management systems solution necessitates a significant amount of time, experience, and a thorough understanding of requirements, hardware, and software. The main functions of an electric vehicle battery management system are battery protection to prevent operations outside its safe operating area, battery monitoring to estimate the rechargeable battery condition of charge (SoC) and state of health (SoH) during charging and discharging, and battery optimisation through cell balancing to improve battery life and capacity, thus optimising driving range for hybrid (HEV), plug-in (PHEV), and full electric vehicles thereby encouraging the growth of the market during the forecast period.
The Safety & Security segment is anticipated to witness the fastest CAGR growth during the forecast period; due to companies are managing safety and reliability problems as vehicle complexity increases, from automated driving systems to electrified automobiles. Functional safety is crucial for guaranteeing that today's sophisticated electronics deliver constant performance over time, without system failures. Because of the rising amount of software and connection, there are multiple opportunities for cyber attack. Engineers can provide safe and secure products, minimise time to market, maximise profit margins, and comply with forthcoming cyber security legislation by swiftly discovering and correcting vulnerabilities and design flaws further boosting the market.
Asia Pacific is projected to hold the largest market share during the forecast period owing to people's increasing need for innovative software and systems, the Asia Pacific area has emerged as the largest market to date. The tremendous technical improvements observed in this region are a crucial element in the increasing need for automotive software's. People's growing embrace of technology innovation has also increased demand for car software. The rapid expansion of intelligent transportation systems and linked mobility in nations such as China and Japan is driving this region's automotive software market
Europe is projected to have the highest CAGR over the forecast period, owing to significant growth area for the automotive software business. Throughout the projection period, North America is expected to have a high demand. Furthermore, favourable government rules dealing with driver safety and security issues mandate automakers to provide in-vehicle infotainment with hands-free linked calls, which fuels the expansion of the European automotive software business. The presence of prominent industry players, as well as their quick research and development programmes, has emerged as a crucial growth factor for the automotive software market over the projection period.
Some of the key players profiled in the Automotive Software Market include: Google, BlackBerry Limited, Airbiquity Inc., MontaVista Software LLC, Microsoft Corporation, Wind River Systems, HARMAN International, GlobalLogic Inc., Intellias Ltd., Robert Bosch GmbH, NVIDIA, NXP, Green Hills Software, Renesas Electronics and Autonet Mobile
In March 2023, BlackBerry and Adobe Partner to Deliver Secure Forms with Electronic Signatures on Mobile, Furthermore, the partnership agreement allows BlackBerry to resell Adobe Experience Manager Forms software.
In March 2023, BlackBerry Announces New Patent Sale Transaction with Leading Patent Monetization Company for Up to $900 Million, The transaction is not subject to any financing conditions. Funding has been secured from a leading US-based investment firm, with in excess of $30 billion of assets under management.
In Jan 2023, BlackBerry QNX and Texas Instruments Collaborate to Launch Online Training Academy to Jump-Start Embedded Software Developer Innovation, a comprehensive online software developer enablement program designed to turbocharge software
In Dec 2022, Elektrobit and Airbiquity Partner to Enable the Next Generation of Over-The-Air Services for the Mobility Industry, it easier for OEMs to source and build an end-to-end OTA system for their vehicle fleets.
All the customers of this report will be entitled to receive one of the following free customization options:
Note: Tables for North America, Europe, APAC, South America, and Middle East & Africa Regions are also represented in the same manner as above.