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Global and China Commercial Vehicle Telematics Industry Report 2020 - ResearchAndMarkets.com

·5-min read

The "Global and China Commercial Vehicle Telematics Industry Report, 2020" report has been added to ResearchAndMarkets.com's offering.

Center console integrated display designs from dual-screen and triple-screen to quint-screen display, for example, have been adopted by quite a few OEMs in 2020, besides the usual console and cluster designs.

Outperforming the conventional one in intelligence and comfort, the intelligent cockpit is born with the availability of more and more electronics in the vehicle and caters to the user's needs better. It is evolving apace alongside rapid advances in new intelligence technologies and new materials.

It is analytically judged from major suppliers and their cockpits configured to new models as well as the cockpit configuration of concept cars launched in recent years that automotive intelligent cockpit design will be headed in the directions below:

  • Intelligent cockpit will bear richer versatilities

  • Multi-channel, fused interaction will become a mainstay in human-vehicle interaction

  • 3D, multiple screen, large-size display and diversified layout will hold the trends for intelligent cockpit display

  • "User experience"-centric cockpit scenario-based interaction modes will become pervasive

  • The maturing new materials for intelligent surfaces will likely enable every surface with interaction ability

  • Touch feedback will be a key technology for higher level of safety

  • Software system will play as a key means to differentiate cockpits

Key Topics Covered:

1 Design Ideas and Trends of Automotive Intelligent Cockpit

1.1 Status Quo of Intelligent Cockpit Design and Layout

1.1.1 Overview of Automotive Intelligent Cockpit

1.1.2 Development Trends of Automotive Cockpit

1.1.3 Statistics of Cockpits Configured into Main New Vehicle Models, 2020

1.1.4 Cockpit Configurations of Vehicle Models

1.2 Design Trends of Automotive Intelligent Cockpit

2 Design Trends of Automotive Intelligent Cockpit Display

2.1 Cockpit Display Design

2.2 Design Trends of Cockpit Display

3 Design Trends of Human-Machine Interaction (HMI) for Automotive Intelligent Cockpit

3.1 Status Quo of Automotive Cockpit HMI Design

3.1.1 Overview of Automotive HMI

3.1.2 Development Course of Automotive HMI Modes

3.1.3 Main HMI Modes of Foreign and Chinese OEMs

3.1.4 Automotive HMI Design Approach

3.1.5 Automotive HMI Design Flow

3.1.6 Design and Development Workflow of Automotive HMI

3.1.7 Tools to Use in Automotive HMI Design

3.1.8 HMI Design Integration Software Tool of Main Companies

3.1.9 HMI Design Providers of Main OEMs

3.2 Design Trends of Cockpit HMI

3.3 Main Cockpit HMI Design Providers

3.3.1 ThunderSoft

3.3.2 CANDERA

3.3.2.1 CGI

3.3.2.2 CGI Studio

3.3.2.3 CGI Largely in Support of Software, Hardware and Ecosystem

3.3.2.4 Cases

3.3.3 Altia

3.3.4 Qt Design

3.3.5 EB HMI Development Platform

3.3.5.1 HMI Development Platform

3.3.5.2 Cases

3.3.6 Neusoft HMI Design

3.3.7 Valeo HMI Business

3.3.8 Visteon HMI Business

3.3.9 Bosch HMI

3.3.10 Faurecia HMI

4 Application and Design Trends of Automotive Smart Surface

4.1 Overview of Smart Surface Technology

4.1.1 Overview of Smart Surface

4.1.2 Features of Smart Surface Products

4.1.3 Main Components of Smart Surface

4.1.4 Smart Surface Technological Process

4.1.5 Smart Surface Industry Chain

4.1.6 Products of Main Smart Surface Suppliers

4.2 Design Trends of Smart Surface

4.3 Application Cases of Smart Surface

4.4 Main Providers of Smart Surface Technology Solutions

4.4.1 Covestro's Smart Surface Solutions

4.4.1.1 Cases

4.4.2 Canatu

4.4.2.1 Smart Surface Solutions

4.4.2.2 3D Shaped Touch Coupled with Translucent Fabrics

4.4.2.3 3D Shaped Touch Transparent Control Switch

4.4.2.4 Cases

4.4.3 TactoTek's Smart Surface Products

4.4.3.1 Smart Surface Technology

4.4.3.2 Main Automotive Partners and Customers

4.4.4 Yanfeng's Smart Surface Technology

4.4.5 Continental's Smart Surface Materials

4.4.6 Faurecia's Smart Surface Technology

5 Application and Design Trends of Automotive Intelligent Cockpit Ambient Lighting

5.1 Interior Ambient Lighting Development

5.1.1 Overview of Automotive Ambient Lighting

5.1.2 Classification of Automotive Ambient Lighting

5.1.3 Composition of Automotive Ambient Lighting

5.1.4 Applications of Automotive Ambient Lighting

5.1.5 Interior Ambient Lighting Control Technology

5.1.6 Main Vehicle Body Network Architectures of Interior Ambient Lighting

5.1.7 Evolution of Interior Ambient Lighting

5.1.8 Interior Ambient Lighting Design Flow

5.1.9 Interior Ambient Lighting Industry Chain

5.2 Development Trends of Interior Ambient Lighting

5.3 Interaction Cases of Interior Ambient Lighting

6 Application Trends of Automotive Smart Haptic Feedback Technology

6.1.1 Overview of Haptic Feedback Technology

6.1.2 Demand for Haptic Feedback Technology

6.1.3 Haptic Feedback Modes

6.1.4 Haptic Feedback Technology Industry Chain

6.1.5 Haptic Feedback Products of Main Providers

6.1.6 Haptic Feedback Products of Main Tier1 Suppliers

6.1.7 Main OEMs' Application of Haptic Feedback Technology

6.1.8 Cases

6.2 Main Automotive Haptic Feedback Providers

6.2.1 Tanvas' Versatile Surface Haptic Technology

6.2.2 Borea

6.2.2.1 Patented Haptic Feedback Technology

6.2.2.2 Automotive Haptic Feedback Products

6.2.3 TDK PowerHap

6.2.3.1 Brand-new Products

6.2.3.2 Product Planning

6.2.4 Continental's Haptic Feedback Technology

6.2.4.1 Haptic Feedback Technology

6.2.4.2 Haptic Interaction Display

6.2.4.3 Morphing Control

6.2.5 Bosch's Haptic Feedback Technology

6.2.6 Joyson Electronics' Haptic Feedback Technology

7 Other Emerging Cockpit Interaction Technologies

7.1 Diversified Steering Wheel Designs

7.2 Car Audio

7.3 Intelligent Health Cockpit Layout

For more information about this report visit https://www.researchandmarkets.com/r/twnfks

View source version on businesswire.com: https://www.businesswire.com/news/home/20210128005719/en/

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