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Market Research Report

Impact of Autonomous Driving on Steering Development Technology in Europe and North America, 2017

Published by Frost & Sullivan Product code 596068
Published Content info 62 Pages
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Impact of Autonomous Driving on Steering Development Technology in Europe and North America, 2017
Published: December 1, 2017 Content info: 62 Pages
Description

Level 5 Autonomous Vehicles to Collapse Traditional Steering Value Chains by Rendering Mechanical Linkages and Steering Wheels Redundant

Electric power steering (EPS) is more of less a standard fitment across most of the vehicle models. However, autonomous driving poses several interesting challenges to the steering technology community. First, once vehicles start to operate by themselves, steering systems will expect to cater to loss-of-assist mitigation in order to provide a safety net as and when the EPS powerpack fails to provide assist for steering the vehicle. This will therefore force steering suppliers to migrate from fail safe systems to fail operational systems for steering.

Second, autonomous driving does not require humans to drive the vehicle, in which case the use of steering wheel is made redundant. This then allows OEMs and steering suppliers to concentrate on technologies that will help either eliminate the steering wheel or allow the steering to retract to the dashboard if not required. Keeping these in mind OEMs have showcased future cockpit concepts, but to realize such concepts steer-by-wire must be the system of choice for OEMs.

However, the major stumbling block for the steering suppliers is the regulatory compliance. As per regulation automatically controlled steering function (ACSF) becomes operational, this shall be indicated to the driver and the control action shall be automatically disabled if the vehicle speed exceeds the set limit of 10 km/hr by more than 20 percent or the signals to be evaluated are no longer being received. Any termination of control shall produce a short but distinctive driver warning by a visual signal and either an acoustic signal or by imposing a tactile warning signal on the steering control. Regulations like these and the Vienna convention (UN ECE R79) which does not allow for hands off driving are being modified in order to incorporate autonomous functionality of vehicles.

Table of Contents
Product Code: MD82-18

Table of Contents

1. EXECUTIVE SUMMARY

  • Executive Summary-Highlights
  • Technology Migration to SbW
  • Key Findings
  • SbW vs. EPS vs. EHPS vs. HPS
  • Key Conclusions and Future Outlook

2. RESEARCH SCOPE, OBJECTIVES, BACKGROUND, AND METHODOLOGY

  • Research Scope
  • Research Aims and Objectives
  • Key Questions this Study will Answer
  • Research Background
  • Research Methodology

3. PRODUCT SEGMENTATION AND DEFINITIONS

  • Product Segmentation
  • Product Definition
  • Society of Automotive Engineers (SAE) Definitions
  • Vehicle Segmentation

4. REGULATIONS

  • UNECE- Reg. 79
  • UNECE- Reg. 79 (continued)
  • Amendments to UNECE- Reg. 79
  • ISO 26262 (Part of IEC 61508)

5. STEERING SYSTEM REQUIREMENTS FOR AUTONOMOUS DRIVING

  • Fail-safe System versus Fail-operational System
  • Migration from Fail-safe to Fail-operation Steering System
  • Future Steering System Development with Driver Out-of-the-Loop

6. LOSS-OF-ASSIST MITIGATION

  • Loss-of-Assist Mitigation Solutions
  • Approaches to Mitigate Loss-of-Power Steering Assist
  • Approaches to Mitigate Loss-of-Power Steering Assist (continued)

7. MEGA TRENDS IMPACTING STEERING TECHNOLOGY AND WHEEL

  • Roadmap of Automated Driving Systems by Region
  • Roadmap of Active and Passive Safety Systems
  • Mega Trends Influencing Steering Technology and Wheel
  • Car Cockpits and Cabins of the Future-Top 5 Mega Trends

8. IMPACT OF AUTONOMOUS DRIVING ON STEERING MODULE

  • Enabling Technologies for Autonomous Driving
  • SbW, Autonomous Driving and Electric Vehicles
  • Steering Wheel-Concepts of the Future
  • Steering Wheel-Concepts of the Future (continued)

9. STEER-BY-WIRE

  • Comparison of SbW Systems
  • SbW-Future System Architecture
  • Effects of Autonomous Driving on SbW

10. FUTURE STEERING SYSTEMS

  • Migration of Steering System Requirements and Automation Levels
  • Future Scenarios For Autonomous Driving Deployment
  • Hybrid Steering Systems
  • Case Study-Jaguar's take-with-you Smart Steering Wheel Concept
  • Case Study-VW's Retractable Steering Wheel Concept

11. GROWTH OPPORTUNITIES AND COMPANIES TO ACTION

  • Growth Opportunity-Investments and Partnerships from OEMs/TSPs
  • Strategic Imperatives for Success and Growth

12. CONCLUSIONS AND FUTURE OUTLOOK

  • Key Conclusions and Future Outlook
  • The Last Word-3 Big Predictions
  • Legal Disclaimer

13. APPENDIX

  • Abbreviations and Acronyms Used
  • Market Engineering Methodology
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