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市场调查报告书

Level4、Level5 (L4、L5) 自动驾驶飞跃性的感应器创新

Breakthrough Sensor Innovations in L4 and L5 Autonomous Driving

出版商 Frost & Sullivan 商品编码 877677
出版日期 内容资讯 英文 45 Pages
商品交期: 最快1-2个工作天内
价格
Level4、Level5 (L4、L5) 自动驾驶飞跃性的感应器创新 Breakthrough Sensor Innovations in L4 and L5 Autonomous Driving
出版日期: 2019年06月25日内容资讯: 英文 45 Pages
简介

本报告针对在不远未来的Level4、Level5 (L4、L5) 实施自动驾驶技术调查、现在自动驾驶Level与L4、L5自动驾驶技术开发的未满足需求、LiDAR、雷达与感应器融合技术的自动驾驶感应器的进步、感应器进步与感应器融合技术进步对于实现自动驾驶产生的影响分析。

第1章 摘要整理

第2章 L4、L5的实施自动驾驶感应器种类

  • 自动驾驶的Level
  • 自动驾驶LIDAR技术的重要性
  • 自动驾驶雷达技术的重要性
  • 现在自动驾驶感应器融合技术的重要性
  • L4、L5自动驾驶用的内部感应器

第3章 L4、L5的自动驾驶展望

  • L4、L5自动驾驶的主要促进因素
  • L4、L5自动驾驶的主要参与企业
  • 各种部门对LiDAR与雷达感应器进步的影响
  • L4、L5自动驾驶对感应器影响的相关视角
  • L4、L5自动驾驶的感应器开发地区分析

第4章 L4、L5的自动驾驶范例分析

  • Volkswagen在德国的L4自动驾驶试驾
  • Audi的子公司Autonomous intelligence Driving (AID)与Aeva
  • Jaguar Land Rover与Waymo

第5章 L4、L5的自动驾驶创新影响评价

  • L4、L5实施自动驾驶的LiDAR技术与感应器的进步
  • L4、L5自动驾驶用雷达感应器的进步
  • L4、L5自动驾驶用感应器融合技术的进步

第6章 IP & 资金评价

  • L4、L5自动驾驶与创新资金分析
  • L4、L5自动驾驶的开发与合作、M&A
  • 商业用途的L4、L5自动驾驶开发主要变化

第7章 技术蓝图与策略考察

第8章 附录

目录
Product Code: D8C6

Advancement in Sensor Technologies encouraging L4 and L5 Autonomous Drivability

Level 4 autonomous vehicles or self driving vehicles have a high level of automation in which the vehicle can perform all driving tasks and monitor the driver's environment. The vehicle can operate without the driver's inputs or oversight under certain conditions, such as type of road or geographic area. Level 5 autonomous vehicles have full automation; the vehicle can perform all of the driving under all circumstances (types of roads and conditions) without any guidance or input from the driver. This research study aims to provide an in-depth view of the technologies which will enable L4 and L5 autonomous driving in the near future. The current level of autonomous driving and unmet needs in technology development for L4 and L5 autonomous driving are evaluated. The recent advancements in sensors for autonomous driving such as LiDAR and Radar, and sensor fusion technologies are also captured. The impact on the advancement of sensors and sensor fusion technologies toward the realization of driverless vehicles is also discussed in the report.

Further technology developments initiated by the key participants in terms of partnerships, M&As, and funding to accelerate the development of L4 and L5 autonomous vehicles is included along with the information on the related technology coupled with case studies related to autonomous driving are illustrated in the report. Regional analysis in terms of the analysis of concentrations in investments, R&D activity, advanced sensor manufacturing companies, and regional collaborations are included in the research study.

Key topics covered in the study:

  • The key technologies that contribute to the development of L4 and L5 autonomous driving.
  • The key participants, mergers & acquisitions, partnerships, and funding that are important for improving sensor technologies in fully autonomous driving.
  • Current case studies or pilot tests conducted by automotive manufacturers for L4 and L5 autonomous driving.
  • The challenges in the development and implementation of L4 and L5 autonomous driving in the near future.
  • The technology forecast for L4 and L5 autonomous driving for the period between 2019 and 2022.

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Research Process and Methodology
  • 1.3. Key Findings
  • 1.3. Key Findings (continued)

2.0. Types of Sensors Enabling L4 and L5 Autonomous Driving

  • 2.1. Levels of Autonomous Driving
  • 2.2. The Significance of LIDAR Technology in Autonomous Driving
  • 2.3. The Significance of Radar Technology in Autonomous Driving
  • 2.4. Significance of Sensor Fusion Technology in Current Autonomous Driving
  • 2.5. Interior Sensors for L4 and L5 Autonomous

3.0. Outlook on L4 and L5 Autonomous Driving

  • 3.1. Key Drivers of L4 and L5 Autonomous Driving
  • 3.2. Key Participants in L4 and L5 Autonomous Driving
  • 3.2. Key Participants in L4 and L5 Autonomous Driving (continued)
  • 3.2. Key Participants in L4 and L5 Autonomous Driving (continued)
  • 3.2. Key Participants in L4 and L5 Autonomous Driving (continued)
  • 3.2. Key Participants in L4 and L5 Autonomous Driving (continued)
  • 3.3. Impact of Advances of LiDAR and Radar Sensors on Diverse Sectors
  • 3.4. Viewpoints on the Impact of Sensors in L4 and L5 Autonomous Driving
  • 3.5. Regional Analysis of Development of Sensors for L4 and L5 Autonomous Driving

4.0. Case Studies on the Development of L4 and L5 Autonomous Driving

  • 4.1. Volkswagen Test Drives its L4 Autonomous Vehicle in Germany
  • 4.2. Audi's Autonomous intelligence Driving (AID) and Aeva
  • 4.3. Jaguar Land Rover and Waymo

5.0. Innovations Impact Assessment in L4 and L5 Autonomous Driving

  • 5.1. Advances in Sensors in LiDAR Technology Enabling L4 and L5 Driving
  • 5.2. Advances in Radar Sensors for L4 and L5 Autonomous Driving
  • 5.3. Advances in Sensor Fusion Technology for L4 and L5 Autonomous Driving

6.0. IP & Funding Assessments

  • 6.1. Funding Analysis in Initiatives towards L4 and L5 Autonomous Driving
  • 6.2. Partnerships and Mergers and Acquisitions in the Development of L4 and L5 Autonomous Driving
  • 6.3. Key Challenges in the Development of L4 and L5 Autonomous Driving for Commercial Applications

7.0. Technology Roadmap and Strategic Insights

  • 7.1. Technology Roadmap of L4 and L5 Autonomous Driving
  • 7.2. Analyst Insights

8.0. Appendix

  • 8.1. Key Contacts
  • 8.2. Key Patents
  • 8.2. Key Patents (Continued)
  • Legal Disclaimer