The evolution of the vehicle cockpitAutonomous Vehicle Interior Design & Technology Symposium

Oct. 25, 2016

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Today’s story

• How is Visteon evolving?

• How is the industry evolving?

• How is the cockpit evolving?

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“The self-driving car raises more possibilities and more questions than perhaps any other transportation

innovation under present discussion.”

-Federal Automated Vehicles Policy, NHTSASeptember 2016

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Visteon at a glance

Leading portfolio and expertise, global footprint, strong balance sheet

Manufacturing locations22

11,000 Employees

18 Countries

Technical centers18

$3.25B 2015 annual sales

Company headquartersVan Buren Township,

Michigan, United States

As of April 2016

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Our Vision:A global leader in automotive cockpit electronics delivering a rich,

connected cockpit experience for all cars from luxury to entry segment.

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Broadest cockpit electronics portfolio in the industry

Complete cockpit electronics portfolio positions Visteon well for continued growth

Instrumentclusters

Head-updisplays

Telematics Cockpit domain controllers

Informationdisplays

AudioInfotainment

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Today’s story

• How is Visteon evolving?

• How is the industry evolving?

• How is the cockpit evolving?

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Key trends impacting auto electronics

Three key trends expected to drive significant changes in the automotive industry

75% of new cars connected by 2020Embedded 3G/4G connectivityWider acceptance of CarPlay and

Android Auto solutionsDemand for connected infotainment

solutions

Near-Term Mid-Term Long-Term

100% of new cars connected4G/5G embedded connectivityVehicle as mobile application platform Increased number and quality of

displays Increased number of 3rd party apps

Seamless connectivity between car and Cloud

Integrated traffic and vehicle management solutions

Integration with autonomous driving technology

2015-2020 2020-2025 2025-2030

Sensor-specific solutions for ADASRADAR/camera technologiesEmerging low-cost LIDAR sensorsV2X technology maturation

Semi-autonomous driving on highways and clearly marked roads

Multi-sensor fusion and computing software platforms

5-10% of new cars capable of semi-autonomous driving

Full autonomous driving technology available

10-20% of new cars capable of autonomous driving

Emerging car sharing and ride sharing services

Car and ride sharing become prevalent

Sharing model starts to impact global vehicle sales

Shared vehicles start to replace owned vehicles

20% of vehicles use shared model

Connected Car

Autonomous Driving

Shared Mobility

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Phoenix Infotainment – designed with three goals in mind

App developer friendly Highly secure Fully upgradeable

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The evolution to autonomous driving

• Distributed ADAS ECUs• Classical use case programing• Lacking algorithm developer-friendly architecture• Hardware non-fault tolerant• Discrete non-scalable system

• Centralized domain controller• Neural network technology• Open software environment for algorithmic

development• Secure and fail-safe hardware• Scalable toward L3/L4 autonomous driving

One domain controllerDistribution on multiple ECUsToday Future

Actuators

ECUs

Sensors

Actuators

Visteon domain controller

Sensors

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An approach to autonomous driving

Collaborative approach to rapid algorithm development based on neural networks

Fail-safe centralizeddomain hardware

Open frameworkdesigned for algorithmic

developers

Neural networks

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Today’s story

• How is Visteon evolving?

• How is the industry evolving?

• How is the cockpit evolving?

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• While reconfigurable clusters are becoming a standard, designers are looking for ways to enhance the driver’s experience

• Growing interest for technologies increasing depth of the image – enabling 3-D effects – for a more immersive experience

Increased depth for driver information

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Multi-layer display• Delivers depth with use

of transparent display over traditional display

Prism display• Delivers depth with use of

two displays and a semi-reflective “blade” in between

Auto-stereoscopic display• Uses switchable parallax

barriers to generate 3-D effect• Requires eye-tracking

information for smoother experience

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What is augmented reality HUD?

Conventional HUDVisual assistance system to increase driving safety and

user experience

Transition from- below line of sight -

into - driver’s direct vision -

overlaying- reality and information -

Augmented Reality HUDFurther enhances driver’s

experience and generates faster reliable decisions out of ADAS-

system data in real time

Augmented reality HUD – basic features

Lane departure warning Adaptive cruise control Intuitive navigation

SENSEData acquisition

INFORMHMI generation

CamerasExternal and internal

Car sensorsSpeed/acceleration,

steering angle

NavigationGPS/positioning

Data fusion• Data processing• Data fusion• AR decision making • Dynamic coordinates

positioning• Prediction function

AR HUD Image generation

• Real-time drawing• Dynamic object

creation• Warping pre-correction HUD

domainADASdomain

ANALYZEData fusion

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Trends in display integration in instrument panel: wider displays

Extra-wide information display, shared between driver and passenger5

BMW Concept Interactive Vision (CES 2016)

PSA Citroen CXperience (Paris 2016)

Mercedes F015(IAA 2015)

Avoiding driver distraction

• Wider information display, or dedicated passenger display, allows for additional content (entertainment, services) for passenger

• To avoid driver distraction, a privacy mode feature is then required (static or switchable)

Multiplication of displays requires increased focus on driver distraction avoidance6

Normal mode Privacy mode

Trends in display integration in instrument panel: seamless

• Designers wish to seamlessly integrate displays in instrument panel

• Freeform shapes, no visible display active areas

• Will touch still be the most adapted solution for user interaction?

Seamless display integration and emerging occupant interface technologies7

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Operational innovation and Industry 4.0

Responding to industry’s future challenges

• The 4th industrial revolution – leveraging connectivity, big data and advanced autonomous automation to drive current and future operational efficiency

Robotization

Materials Management

Digitization Big Data Management