汽车产品开发创新的战略洞察

Strategic Insights into Innovation in Automotive Product Development

出版日期: 2023年06月15日 | 出版商:

Frost & Sullivan | 英文 84 Pages | 商品交期: 最快1-2个工作天内

价格

简介目录

数字孪生、生成设计、虚拟原型和混合实境等颠覆性技术正在改变产品开发流程并加快上市时间。

技术发展的迅猛发展正在推动汽车行业的变革。本增长机会分析探讨了正在彻底改变行业的尖端技术。人工智能生成设计、量子模拟、混合实境、数字孪生、虚拟原型、智能工厂、虚拟工作空间和机器视觉系统等数字驱动因素加速了汽车产品开发，减少时间和成本，并提高可持续性。

本报告探讨了人工智能生成设计如何帮助设计师和工程师生产优化的汽车零部件，同时减少多次设计迭代。分析量子模拟的影响，展示模拟和优化化学反应、材料特性和空气动力学等关键方面的能力，最终导致更高效的发动机、电池和轻质材料的开发。它还展示了增强现实（AR）和虚拟现实（VR）如何实现快速设计迭代和全球协作，更深入地研究智能工厂和虚拟工作空间对汽车生产的影响，并强调这些发展如何提高效率、生产力和协作。

这份全面的分析涵盖了在汽车产品开发中引入数字驱动因素所带来的影响、时间表和关键成果。总之，您将深入了解汽车行业正在发生的变革性创新。通过利用数字驱动器的力量，汽车原始设备製造商已经能够彻底改变其产品开发流程。

汽车设计创新
使用人工智能进行生成设计
汽车行业的人工智能生成设计：10个应用领域
生成设计示例
人工智能生成设计：领先的软件提供商
通用汽车与 Autodesk 合作开发人工智能生成设计
量子模拟
汽车原始设备製造商探索量子模拟
ModeFRONTIER：ESTECO 的工程
如何将客户的意见纳入汽车设计
基于仿生学的汽车设计
用于虚拟产品设计的混合实境
汽车中的混合实境工具及其应用
产品设计中的混合实境：宝马案例研究
现代汽车在虚拟宇宙中的应用
产品开发中的数字孪生 (DT)
产品开发中的数字孪生合作伙伴关係
产品设计创新：要点

汽车原型阶段的创新

原型设计的创新
汽车设计中的虚拟样机
汽车设计中虚拟样机的趋势
虚拟样机软件提供商的能力
汽车原型 3D 打印
主要 OEM 利用 3D 打印进行原型开发
原型创新的关键要点

製造创新

製造创新
机器视觉系统
机器视觉系统OEM的努力
虚拟工作空间
虚拟工作空间OEM的努力
虚拟工作空间案例研究：福特
智能工厂的发展
熄灯製造（全自动化製造）
製造创新关键

产品开发创新分析

汽车产品开发分类
技术应用时间表
可持续产品开发领域
汽车产品发展阶段技术状况分析
创新对汽车价值链的影响：未来情景分析

充满增长机会的宇宙

增长机会1：增强客户参与
增长机会2：加速新产品开发
增长机会2：加速新产品开发
增长机会 3：用于原型开发的虚拟工具
增长机会 3：用于原型开发的虚拟工具
附件清单
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简介目录

Product Code: PEBF-44

Disruptive Technologies, such as Digital Twins, Generative Design, Virtual Prototyping and Mixed Reality, to Transform Product Development Processes and Ensure Quicker Time to Market

A surge in technical developments is fueling change in the automotive sector. This growth opportunity analytics investigates cutting-edge technologies revolutionizing the industry. Digital drivers, such as AI-generative design, quantum simulation, mixed reality, digital twins, virtual prototyping, smart factories, virtual workspaces, and machine vision systems are speeding up automotive product development, reducing time and costs, and promoting sustainability.

This analysis investigates how AI-generative design enables designers and engineers to produce optimized automobile components while reducing multiple design iterations. The impact of quantum simulation is analyzed, showcasing its ability to simulate and optimize critical aspects, such as chemical reactions, material properties, and aerodynamics, ultimately leading to the development of more efficient engines, batteries, and lightweight materials. It explores mixed reality's disruptive potential, demonstrating how augmented reality (AR) and virtual reality (VR) enable quick design iteration and worldwide collaboration, and deep dives into the influence of smart factories and virtual workspaces on automotive production, highlighting how these developments improve efficiency, productivity, and collaboration.

This comprehensive analysis covers the impact, timeline, and major outcomes achieved through the implementation of digital drivers in automotive product development. In conclusion, it offers a profound understanding of the transformative innovations taking place in the automotive industry. By harnessing the power of digital drivers, automotive OEMs have been able to revolutionize their product development processes.

Strategic Imperatives

Why Is It Increasingly Difficult to Grow?
The Strategic Imperative 8™
The Impact of the Top 3 Strategic Imperatives on Innovation in Automotive Product Development
Growth Opportunities Fuel the Growth Pipeline Engine™

Growth Opportunity Analysis

Scope of Analysis
Growth Drivers
Growth Restraints

Growth Environment

Select OEM's Product Development Innovation Activities
Technology Application Timeline
Sustainable Product Development Areas
Technology Landscape Analysis Across Automotive Product Development Phases
Select Examples of Generative Design
Automotive OEMs Exploring Quantum Simulation
Mixed Reality Tools and their Application Areas in Automotive
Virtual Prototyping Software Provider Capabilities
Machine Vision Systems: OEM Initiatives

Automotive Product Development Overview

Innovation in Automotive Product Development: An Overview
Product Development Areas and Key Digital Technologies
Transformation in Product Development: Present to Future
Existing Challenges in Automotive Product Development
Addressing Challenges in Product Development
Product Development Innovation Activities of Select OEMs

Innovation in the Automotive Design Phase

Innovation In Automotive Design
AI-enabled Generative Design
Ten Application Areas of AI-generative Design in Automotive Industry
Examples of Generative Design
AI-generative Design: Select Software Providers
General Motors & Autodesk AI-generative Design Partnership
Quantum Simulation
Automotive OEMs Exploring Quantum Simulation
ModeFRONTIER: ESTECO Engineering
Methods to Receive Customer Input for Vehicle Design
Biomimicry-based Automotive Design
Mixed Reality for Virtual Product Design
Mixed Reality Tools and their Application Areas in Automotive
BMW Case Study of Mixed Reality for Product Design
Hyundai in Metaverse Applications
Digital Twins (DT) in Product Development
Select Partnerships in Digital Twins Related to Product Development
Innovation in Product Design: Key Takeaways

Innovation in Automotive Prototyping Phase

Innovation in Prototyping
Virtual Prototyping in Automotive Design
Trends in Virtual Prototyping in Automotive Design
Virtual Prototyping Software Provider Capabilities
3D Printing for Vehicle Prototype
Select OEMs Leveraging 3D Printing for Prototype Development
Innovation in Prototyping: Key Takeaways

Innovation in Manufacturing Phase

Innovation in Manufacturing Segmentation
Machine Vision Systems
Machine Vision Systems: OEM Initiatives
Virtual Workspaces
Virtual Workspaces: OEM Initiatives
Virtual Workspaces Case Study: Ford
Growth of Smart Factories
Lights-out Manufacturing
Innovation In Manufacturing: Key Takeaways

Analysis of Product Development Innovation

Automotive Product Development Categorization
Technology Application Timeline
Sustainable Product Development Areas
Technology Landscape Analysis Across Automotive Product Development Phases
Future Scenario Analysis of the Effect of Innovation on the Automotive Value Chain