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Key Focus Areas for Driving Interface Systems for Passenger Cars
Key Focus Areas for Driving Interface Systems for Passenger Cars
Leveraging Electronic Innovation to Enhance Vehicle Dynamics in Manual and Automated Modes
20-Apr-2015
North America
Description
New developments in terms of the increasing consumer need for better ride and handling have shifted the focus from chassis development to safety, data recognition, and real-time information by utilising maps from GPS navigation systems, image recognition based on cameras, LIDAR and radar, and data points acquired via V2V and V2I communications. In addition, there is growing interest in autonomous driving systems. Through integrated control involving the cooperative inter-operation of these technologies with chassis control systems, numerous OEMs and tier 1 companies are developing systems that further enhance road safety, performance, and driving comfort, as required by present-day consumers.
Table of Contents
Executive Summary—Key Findings
Driving Interface Technology Adoption Drivers
Key Findings and Future Outlook
Executive Summary—Associated Multimedia
Research Scope
Research Aims and Objectives
Key Questions this Study will Answer
Research Background
Research Methodology
Key OEM/Participant Groups Compared in this Study
Product/System Segmentation
ETS System Definitions
Key Facts about the Driving Interface Systems Market
Driving Interface Technology Adoption Drivers
ETS Adoption Drivers
Road Surface Condition Sensing Adoption Drivers
Pedals Adoption Drivers
ETS—Summary
ETS—Technology
ETS—Key Performance Goals
ETS—Technology Trends
Technology Alternatives and Key Attributes
Technology Alternatives and OEM Preference
Case Study: JaguarDrive Selector
Case Study: Automated Manual Transmission (AMT) by Prodrive
Case Study: AMT by Prodrive (continued)
Purchase Criteria—Importance versus Satisfaction
Pedals—Summary
Pedals—Key Considerations
Pedal Sensors—Technology Alternatives and Key Attributes
Technology Alternatives for Pedal Sensors—Inductive Sensors
Technology Alternatives for Pedal Sensors—Magnetic Sensors
Comparative Analysis of Different Pedal Position Sensor Technologies
Key Pedal Technologies
Applications of Haptic Feedback
Case Study—Nissan Haptic Gas Pedal
Human Factors in Fully Automated Vehicles
Technology Architectural Alternatives and Key Attributes
Purchase Criteria by Driveline and Transmission
Road Surface Condition Sensing—Summary
Road Surface Condition Sensing Technology—Key Performance Goals
Technology Alternatives and Key Attributes
Comparative Analysis of Sensor and Camera-based Surface Condition Sensing
Comparative Analysis of Connectivity-based Surface Condition Sensing
Important Aspects to Improve the Driving Experience
Key Conclusions and Future Outlook
The Last Word—3 Big Predictions
Legal Disclaimer
Relevant Research
Market Engineering Methodology
Popular Topics
| No Index | No |
|---|---|
| Podcast | No |
| Author | Kamalesh Mohanarangam |
| Industries | Automotive |
| WIP Number | M984-01-00-00-00 |
| Is Prebook | No |