下一代汽车开发解决方案：新标准推动软件重大变革

在过去几年中，全球汽车行业对供应商为高端自动驾驶汽车构建新平台的兴趣、资金和活动呈爆炸式增长。 与此同时，汽车製造商开始探索用于安全集成汽车系统的新架构、软件和工具。

在这份报告中，我们分析了汽车开发解决方案——汽车软件和开发工具——的全球市场，包括最新的市场趋势、最终用户趋势、供应商战略趋势，以及市场趋势的定量和定性分析。,按子市场（汽车物联网/嵌入式操作系统、ASST、需求管理（RM）工具、物联网云服务）等进行的详细市场趋势分析。

内容

执行摘要

全球市场概览

• 近期趋势
• 新汽车标准
• 伙伴关係

比较预测：按软件类型

• IoT（物联网）/嵌入式 OS（操作系统）
• ASST（自动化软件安全测试）工具
• MBSE（基于模型的系统工程）
• 需求管理 (RM)
• 物联网远程监控云服务

竞争格局

• 供应商见解
• AWS
• BlackBerry QNX
• dSPACE
• eSOL
• ETAS
• Green Hills Software
• HARMAN
• HERE Technologies
• MathWorks
• NVIDIA
• Red Hat (IBM)
• Siemens
• Synopsys
• Wind River

最终用户注意事项

• 互联汽车行业发展和增长的障碍
• 为打造未来客户而投资的技术
• 使用 AUTOSAR 实现软件架构标准化
• 工程师提前推进项目

分析定义

关于VDC Research

The automotive industry has experienced an explosion of interest, funding, and activity in the past few years as vendors have started to piece together new platforms for high-end autonomous vehicles. In parallel, auto makers have begun to explore new architectures, software, and tools for securely consolidating automotive systems.

This new research examines the market for automotive software and development tools, quantifying and qualifying market dynamics through an in-depth discussion of recent events, end-user trends, and vendor strategy. Submarkets analyzed include automotive IoT & embedded Operating Systems (OSs), Automated Software & Security Testing (ASST), Requirements Management tools (RM), and IoT Cloud Services.

Table of Contents

Executive Summary

• Key Findings

Global Market Overview

• Recent Developments
• Emerging Automotive Standards
• Partnerships

Comparative Forecast by Software Type

• IoT & Embedded Operating Systems
• Automated Software & Security Testing (ASST) Tools
• Model-Based Systems Engineering (MBSE)
• Requirements Management (RM)
• IoT Remote Monitoring & Control Cloud Services

Competitive Landscape

• Vendor Insights
• AWS
• BlackBerry QNX
• dSPACE
• eSOL
• ETAS
• Green Hills Software
• HARMAN
• HERE Technologies
• MathWorks
• NVIDIA
• Red Hat (IBM)
• Siemens
• Synopsys
• Wind River

End User Insights

• Obstacles to Development & Growth of the Connected
• Vehicle Industry
• Technologies to Invest in for Building Future Customers
• Software Architecture Standardization Through AUTOSAR Helps
• Engineers Keep Projects Ahead Of Schedule

Report Definitions

About VDC Research

Report Exhibits

• Exhibit 1: Global Revenue of Automotive Software & Development Tools
• Exhibit 2: Global Revenue of Automotive Software & Development Tools, by Type
• Exhibit 3: Global Portion of Automotive Software & Development Tools, by Type
• Exhibit 4: Global Revenue of Automotive IoT & Embedded OS
• Exhibit 5: Previous, Current, & Expected Primary OS in Automotive In-Vehicle Projects, by OS Source
• Exhibit 6: Global Revenue of Automotive Automated Software & Security Testing Tools
• Exhibit 7: Global Revenue of Automotive Model-Based Systems Engineering Tools
• Exhibit 8: Global Revenue of Automotive Requirements Management
• Exhibit 9: Global Revenue of Automotive IoT Remote Monitoring & Control Cloud Services
• Exhibit 10: Global Shipments of Automotive Development Software Segmented by Leading Vendors, 2021
• Exhibit 11: Biggest Obstacle to the Development and Growth of the Connected

Vehicle Industry

• Exhibit 12: Certification/Process Standard(s) Adhered to on Current Project
• Exhibit 13: Technologies Respondent's Organization Is Most Interested in Investing in and/or Building for Future Customers
• Exhibit 14: Current Project's Schedule

Excel Exhibits

2022 IoT & Embedded Engineer Survey Exhibits

• Exhibit 1: Primary Country of Residence
• Exhibit 2: Type of Most Current or Recent Project
• Exhibit 3: Personally Involved with Engineering of Embedded Technology
• Exhibit 4: Type of Purchase by Respondent's Organization
• Exhibit 5: Primary Industry Classification of Project
• Exhibit 6: Type of Aerospace & Defense Application for Most Recent Project
• Exhibit 7: Type of Automotive In-Vehicle Application for Most Recent Project
• Exhibit 8: Type of Communications & Networking Application for Most Recent Project
• Exhibit 9: Type of Consumer Electronics Application for Most Recent Project
• Exhibit 10: Type of Digital Security Application for Most Recent Project
• Exhibit 11: Type of Digital Signage Application for Most Recent Project
• Exhibit 12: Type of Energy and Utilities Application for Most Recent Project
• Exhibit 13: Type of Gaming Application for Most Recent Project
• Exhibit 14: Type of Industrial Automation Application for Most Recent Project
• Exhibit 15: Type of Media & Broadcasting Application for Most Recent Project
• Exhibit 16: Type of Medical Device Application for Most Current Project
• Exhibit 17: Type of Mobile Phone
• Exhibit 18: Type of Office/Business Automation Application for Most Recent Project
• Exhibit 19: Type of Transportation Application for Most Recent Project
• Exhibit 20: Type of Retail Automation Application for Most Recent Project
• Exhibit 21: Type of Non-Manufacturing/Services Application for Most Recent Project
• Exhibit 22: Certification/Approval Standards Required for Current Project
• Exhibit 23: Highest Design/Development Assurance Levels (DAL) Required for Project Software (Aerospace)
• Exhibit 24: Highest Software Integrity Levels (SIL) Certification Required for Project Software
• Exhibit 25: Highest Automotive Software Integrity Levels for Project Software
• Exhibit 26: Capabilities/Features of Current Project
• Exhibit 27: Capabilities/Features Expected in a Project Three Years From Now
• Exhibit 28: Type of Real-Time Deadlines for Current Project
• Exhibit 29: Application's Shortest Response Deadline to a Time-Critical Input or Event
• Exhibit 30: Estimated Length for Current Project (In Months)
• Exhibit 31: Current Project's Schedule
• Exhibit 32: Estimated Number of Years Current Project will be Manufactured Once Complete
• Exhibit 33: Estimated Number of Years of Useful Life for Product Once Deployed
• Exhibit 34: Attributions of Delays to Project
• Exhibit 35: Engineering Tasks Personally Involved
• Exhibit 36: Estimated Percent of Time Spent on Engineering Tasks
• Exhibit 37: Does Organization Have Formal Policies and Procedures for Testing the Security of IoT Devices?