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汽车感测器:技术创新的影响、路线绘制

Automotive Sensors - Innovation Impact and Roadmapping

出版商 Frost & Sullivan 商品编码 763645
出版日期 内容资讯 英文 55 Pages
商品交期: 最快1-2个工作天内
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汽车感测器:技术创新的影响、路线绘制 Automotive Sensors - Innovation Impact and Roadmapping
出版日期: 2018年12月27日内容资讯: 英文 55 Pages
简介

感测技术是先进系统得以实现的主要因素,用以确保汽车的安全性与控制性。汽车制造业者将电子系统活用在提升汽车车辆性能与乘客的安全与舒适,感测器和执行器则是为了汽车性能最佳化与提升耐用性、可信性而整合进了汽车控制系统。

本报告调查了各种汽车感测器的市场,并统整了市场背景、影响扩大引进感测器的因素、主要感测技术与重要性、各种创新动态、影响、筹资计画、策略性同盟与实际安装案例、成长机会分析、未来展望等。

第1章 执行摘要

第2章 技术环境分析

  • 技术的重要性
  • 良好募资计画、产业标准的准则:实现扩大引进感测器的因素
  • 自动驾驶汽车技术的成长动态:推动引进感测器至汽车的因素
  • LiDAR技术:实现自动驾驶的主要因素
  • 图像感测器:ADAS的充分因素
  • 触控感测技术:汽车独有的触觉体验
  • 非触控感测技术:汽车的新一代互动功能

第3章 汽车感测器中的创新生态系统

  • 以LiDAR系统为基础的棱镜光学使自动驾驶成为可能
  • 适合各种条件的Solid State LiDAR
  • 非安全性&被动式用途的MEMS汽车感测器
  • 自动驾驶汽车ADAS系统的图像感测技术
  • 即时测速都卜勒光达(Doppler lidar)
  • 为了省电绘制而生的iDAR系统
  • 用在自动驾驶汽车的MEMS惯性测量
  • 用在局部触觉的压电触觉回馈
  • 使用CNB技术的透明触控感测
  • 在噪音环境下仍可精确辨识的语音辨识感测器
  • 实现自动驾驶汽车感测器技术的其他创新者
  • 汽车部门的主要创新者

第4章 给汽车感测器提供资金、R&D的计画

  • Green Beam Laser、Robot Car
  • 有机图像感测器、弯曲图像感测器
  • 减少噪音干扰的磁力感测器
  • RoboSens:在中国对LiDAR技术投入最多资金者
  • VC资金:支援LiDAR感测技术开发
  • Peratech□BeBop Sensors:接受加速产品开发与实现市场普及的资金
  • 对机器视觉机器视觉的投资:推动引进物体辨识
  • 给Lunewave的边缘感测技术及Vayyar Imaging感测技术开发的融资

第5章 策略性同盟、实际安装案例

  • 感测器制造业者与汽车供应商的合作:推动引进
  • Volvo Cars:LiDAR引进与自动驾驶汽车开发
  • Sony:ADAS、自动驾驶汽车用CMOS图像感测技术
  • 实现多种汽车用途的CMOS图像感测器、语音辨识感测器
  • Bosch、Ultrahaptics
  • Airbus:混合现实(MR)训练装置
  • NAVYA AUTONOM CAB:整合Velodyne、Valeo的LiDAR
  • 检查酒精值的触控感测系统

第6章 未来成长机会、策略展望

  • 未来的汽车感测器路线图
  • 分析家见解:汽车感测器技术竞争状况、全球引进计画
  • 分析家见解:汽车感测器主要技术、未来市场机会

第7章 连络资讯

目录
Product Code: D88B

LiDAR is Driving Opportunities in Autonomous Driving

Sensor technology is a key enabler of advanced systems used in vehicle safety and control in the automotive sector. Automotive manufacturers are leveraging electronics systems for enhancing the vehicle performance, passenger safety and comfort. Sensors and actuators are being integrated into automotive control systems to achieve performance optimization and enhance the durability and reliability of the vehicle.

Sensing technologies such as LiDAR (Light Detection and Ranging), image, touch, touchless, gesture recognition, inertial, pressure, micro-electromechanical system (MEMS), magneto-resistive and biometric-sensors and gyros are covered in this report.

The innovation report discusses sensor-based innovations in automotive industry and captures the impact of current and future applications in vehicles.

Key topics include:

  • Technology and market dynamics
  • Technology capabilities of various sensors
  • Key sensor innovations and its impact
  • Funding scenario
  • Growth opportunities
  • Companies to Watch
  • Roadmap

Table of Contents

1.0. EXECUTIVE SUMMARY

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.2. Research Methodology (continued)
  • 1.3. Key Findings - Focused R&D Gears Advancement in Sensor Technologies

2.0. TECHNOLOGY LANDSCAPE ASSESSMENT

  • 2.1. Technological Significance
  • 2.2. High Funding Scenario And Harmonization Of Industrial Standards Is Enabling High Adoption Of Sensors
  • 2.3. Growing Trend Towards Autonomous Vehicle Technologies Increases Adoption Of Sensors In Vehicles
  • 2.4. LiDAR Technology - Key Enabler of Autonomous Driving
  • 2.5. Image Sensors - Nurturer of ADAS Applications
  • 2.6. Touch Sensor Technology - A Unique Haptic Experience in Automobiles
  • 2.7. Touchless Sensor Technology - Next Generation Interaction Feature in Automobiles

3.0. INNOVATION ECOSYSTEM IN AUTOMOTIVE SENSORS

  • 3.1. LiDAR System Based on Prism Optics that Enables Autonomous Driving
  • 3.2. Solid State LiDAR that can Adapt to Different Application Requirements
  • 3.3. MEMS Automotive Sensors for Non-safety and Passive Applications
  • 3.4. Image Sensing Technology for ADAS Systems in Autonomous Vehicles
  • 3.5. Doppler LiDAR for Instantaneous Velocity Measurement Necessary for Safe Autonomous Driving
  • 3.6. iDAR System for power Efficient Mapping
  • 3.7. MEMS-based Inertial Measurement for Autonomous Vehicles
  • 3.8. Piezoelectric Haptic Feedback for Localized Touch Sensations
  • 3.9. Transparent Touch Sensors using CNB (Carbon Nanobud) Technology
  • 3.10. Voice Recognition Sensors for Precision Recognition in the Presence of Acoustic Noise
  • 3.11. Other Innovators Enabling Autonomous Vehicle Sensor Technologies
  • 3.12. Key Innovators in the Automotive Segment

4.0. FUNDING AND RESEARCH & DEVELOPMENT SCENARIO IN AUTOMOTIVE SENSORS

  • 4.1. Green Beam Lasers And Robot Cars
  • 4.2. Organic Image Sensors and Curved Image Sensors
  • 4.3. Magnetic Sensors with Reduced Interference Noise
  • 4.4. RoboSens Raises Highest Funding in China for LiDAR Technology
  • 4.5. Venture Capitalists (VC) Funding Aids Development of LiDAR Sensing Technologies
  • 4.6. Peratech and BeBop Sensors Receive Funding to Accelerate Product Development and Enable Market Penetration
  • 4.7. Funding for Machine Vision Sensors Encourages Adoption of Object Recognition in Automotive Industry
  • 4.8. Financing for Lunewave Edge Sensor Technology and Vayyar Imaging Enable Sensor Technology Development

5.0. STRATEGIC ALLIANCES AND IMPLEMENTATION CASES

  • 5.1. Partnerships Between Sensor Manufacturers and Automotive Suppliers Encourage Adoption of Sensors
  • 5.2. Lidar Adoption in Volvo Cars will Enable Autonomous Vehicle Development
  • 5.3. Sony makes Advances in CMOS Image Sensor Technology for Use in ADAS and Autonomous Vehicles
  • 5.4. CMOS Image Sensors and Voice Recognition Sensors enable Several Automotive Applications
  • 5.5. Bosch Enables Haptic Feedback Gesture by Teaming with Ultrahaptics
  • 5.6. Airbus' Focus on the Development of Mixed Reality Trainer
  • 5.7. NAVYA AUTONOM CAB integrates LiDARs from Velodyne and Valeo to enable autonomous driving
  • 5.8. Alcohol Detection Touch Sensor System to be Installed in Automobile Dashboards

6.0. FUTURE GROWTH OPPORTUNITIES AND STRATEGIC PERSPECTIVES

  • 6.1. Future Roadmap for Automotive Sensors
  • 6.2. From the Analyst's Desk: What is the Nature of Competition and Global Adoption Scenario for Automotive Sensors Technology?
  • 6.3. From the Analyst's Desk: What are Key Attractive Technologies and Future Opportunities for Automotive Sensors?

7.0. INDUSTRY CONTACTS

  • 7.1. Industry Contacts
  • Legal Disclaimer
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