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Driver Monitoring Systems

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Driver monitoring systems are expected to gain new momentum as critical support systems for human-machine interactions (HMI) related to active safety (ADAS) and autonomous driving as well as user interface enhancements to create smart dashboards and contextual HMI in an in-vehicle environment are increasingly characterized by information overload. Eye tracking will be the key technology to achieve this, combining inward facing infrared cameras and sophisticated analytics and algorithms. Other interior camera use-cases will include personalization, security, health tracking, and fatigue detection. Eye tracking will gradually replace traditional driver monitoring technologies based on steering wheel angle sensors, outward facing cameras, and vehicle sensor analytics.

This study describes driver monitoring use cases and applications, issues and challenges, main solutions and vendors and includes shipment, revenue, and installed base forecasts.

Table of Contents

Table of Contents

  • 1. DMS TO OFFER A WIDE RANGE OF APPLICATIONS AND USE CASES
    • 1.1. Driver Monitoring System Types
    • 1.2. DMS Applications and Use Cases
      • 1.2.1. Drowsiness and Fatigue Detection
      • 1.2.2. Distraction Detection
      • 1.2.3. Alcohol and Drugs
      • 1.2.4. Health Tracking
      • 1.2.5. Personalized Settings
      • 1.2.6. Security and Safety
      • 1.2.7. Driver-ADAS Interaction Management
      • 1.2.8. Manual to Automatic Handover in Co-pilot Type Autonomous Vehicles
      • 1.2.9. User Interface: Smart Dashboard
      • 1.2.10. Warning of Other Drivers
    • 1.3. Issues and Impact
      • 1.3.1. Privacy Concerns
      • 1.3.2. Impact on Auto Insurance Premiums
      • 1.3.3. Costs
      • 1.3.4. HMI Issues
      • 1.3.5. Accuracy and Reliability
      • 1.3.6. Intellectual Property
  • 2. DRIVER MONITORING TECHNOLOGIES
    • 2.1. Interior Facing Cameras
      • 2.1.1. Driving Behavior Monitoring
      • 2.1.2. Facial Recognition Algorithms
      • 2.1.3. Eye Tracking
      • 2.1.4. Biometric Data
      • 2.1.5. Others
    • 2.2. Exterior Facing Cameras
    • 2.3. Steering Wheel Technologies
    • 2.4. Telematics-based Technologies
    • 2.5. Biometric Sensors
    • 2.6. Gas Sensors
  • 3. DMS FORECASTS
  • 4. DRIVER MONITORING SOLUTIONS AND VENDORS
    • 4.1. Car OEMs
      • 4.1.1. Mercedes-Benz Attention Assist
      • 4.1.2. Ford Driver Alert
      • 4.1.3. GM Eye Tracking
      • 4.1.4. Volvo Driver Alert Control and Driver State Estimation
      • 4.1.5. Skoda Fatigue Detection
      • 4.1.6. Volkswagen
      • 4.1.7. SEAT Fatigue Detection
      • 4.1.8. Toyota Driver Monitoring
    • 4.2. Suppliers
      • 4.2.1. Takata
      • 4.2.2. Smart Eye
      • 4.2.3. Seeing Machines
      • 4.2.4. Panasonic
      • 4.2.5. Visteon HMeye
      • 4.2.6. Continental Driver Focus
      • 4.2.7. SmartDrive
      • 4.2.8. Lytx
      • 4.2.9. NVIDIA
      • 4.2.10. Bosch
      • 4.2.11. Tobii
      • 4.2.12. LumeWay
      • 4.2.13. Aisin
      • 4.2.14. Vigo
      • 4.2.15. TI
      • 4.2.16. Holux
      • 4.2.17. Anti Sleep Pilot
    • 4.3. Research Institutes

Charts

  1. DMS OEM System Shipments by Technology, World Market, Forecast: 2013 to 2020
  2. DMS OEM System Shipment Revenues by Technology, World Market, Forecast: 2013 to 2020
  3. DMS OEM System Installed Base by Technology, World Market, Forecast: 2013 to 2020
  4. DMS OEM System Shipments by Application, World Market, Forecast: 2013 to 2020
  5. DMS OEM System Shipments by Region, World Market, Forecast: 2013 to 2020

Figures

  1. Mercedes-Benz Attention Assist
  2. Ford Driver Alert
  3. Volvo Driver Alert Control
  4. Driver State Estimation
  5. VW Fatigue Detection
  6. Toyota Driver Monitoring Fatigue Detection
  7. Takata Driver Monitoring System
  8. Panasonic Steering Wheel Grip Sensing
  9. Continental Driver Focus Eye Tracking Concept
  10. SmartRecorder 3 System
  11. DriveCam
  12. Holux DFD-100B Fatigue Detection