Intelligent Vehicle Safety Systems Program

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Intelligent Vehicle Safety Systems Program
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IVSS Program Status

• Started 2004 with a total budget of 90 million
• Covering 7 core technology areas
• Now 16 approved projects at a value of 34 million
• Approved projects involving 16 companies, 5
  universities and 4 institutes
• Open to foreign companies with a Swedish partner

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IVSS Core Technologies Projects (1)

• Crashworthiness Biomechanics
• Inertial Navigation Sensor for Crash Dummies (4)
• Active and Passive Safety for Ultra-light Roof
  Modules (4)
• Pedestrian Injury Mitigation System (3)
• Driver Support HMI
• Workload Estimation Dialogue Management (3)
• Intersection Accidents Analysis and Prevention
  (2)
• Optimized System Integration for Safe Interaction
  in Vehicles OPTIVe (5)
• Communication Platforms
• The Safe Communication Platform (5)
• Intelligent Road Infrastructure Telematics
• Vehicle Control by Using Preview Information (3)

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IVSS Core Technologies Projects (2)

• Sensor-rich Embedded System
• Sensor Data Fusion for Automotive Safety Systems
  SEFS (3)
• Dependable Systems
• Cost Efficient Dependable Electronic Systems
  CEDES (5)
• Autoval - Validation Methods and Safety-Related
  Automotive Electronics (5)
• Fault Detection and Isolation for Fault Tolerant
  Architectures (3)
• Vehicle Dynamic Safety Systems
• Road Friction Estimation RFE (5)
• Driver Apprehension of Vehicle Response (3)
• Integrated Retardation Control IRC (2)
• Systems for Collision Avoidance (2)

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driver support human machine interface systems
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• HMI standardisation
• selective prioritised
• driver information

reduced number of HMI components sensor fusion
driver in control individual adaptation to
driver and driver situation
6
communication platforms external/internal to
the vehicles
2

• automatic sorting and categorising
• of information
• operates in 3 modes
• advisory, warning and control

railroad / tram collision avoidance corporate
collision and warning
7
sensor rich embedded systems
3
rollover detection vehicle stability detection of
occupants and/or their positions drowsiness
detection night vision pressure sensors for
tires transmissions brakes wheel speed steering
angle pedal position sunlight and rain / moisture
sensors etc.

• sensors needs range from
• external objects/vision enhancement
• (other vehicles, persons, animals, traffic signs
  etc.)
• to internal vehicle states
• (tire pressure, friction monitoring, vehicle
  stability etc.)

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intelligent road infrastructure telematics
4

• increasing cooperation between
• government authorities, IT-community and
• transport industry in making integrated
• transport systems faster, more reliable
• and as a safe infrastructure
• intelligent transport systems new
• possibilities for traffic planning control
• active traffic observation and information
• smart guidance - find the most suitable
• way to the destination

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dependable systems
5

• all systems can depend to start
• quickly and run safely for a long time
• improved predictable error detection
• and failure tolerant architecture
• completely problem free ownership
• experience

10
vehicle dynamic safety systems
6

• keep the driver on top
• of sudden events
• driver and vehicle always
• considered as one system

reduce driver task load provide relevant and
timely information about traffic/road/weather
condition provide relevant information to other
traffic
11
crashworthiness, biomechanics and design of
vehicles for crash avoidance and injury
prevention
7

• intelligent / adaptive systems solutions
• prevent and predict accidents
• active injury prevention
• ability to adapt to varying accident scenarios
• pedestrian protection, smart airbags,
• rollover sensors etc.