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CHANGES IN THE CORRELATION BETWEEN EYE
ANDSTEERING MOVEMENTS INDICATE DRIVER
DISTRACTION
ABSTRACT:
Driver distraction represents an increasingly important contributor to crashes and
fatalities. Technology that can detect and mitigate distraction by alerting distracted drivers
could play a central role in maintaining safety. Based on either eye measures or driver
performance measures, numerous algorithms to detect distraction have been developed.
Combining both eye glance and vehicle data could enhance distraction detection. The goal of
this paper is to evaluate whether changes in the eye–steering correlation structure can indicate
distraction.
Drivers performed visual, cognitive, and cognitive/visual tasks while driving in a
simulator. The auto- and cross-correlations of horizontal eye position and steering wheel
angle show that eye movements associated with road scanning produce a low eye–steering
correlation. However, even this weak correlation is sensitive to distraction. Time lead
associated with the maximum correlation is sensitive to all three types of distraction, and the
maximum correlation coefficient is most strongly affected by off-road glances. These results
demonstrate that eye–steering correlation statistics can detect distraction and differentiate
between types of distraction.
EXISTING SYSTEM:
DRIVER distraction is an important safety problem. Analysis of naturalistic data
suggests distraction contributes to approximately 43% of motor vehicle crashes and 27% of
near crashes. Analysis of fatal crashes shows that driver distraction contributed to an

2. increasing proportion of crashes (i.e., 10% in 2005 and 16% in 2009, for a total of 5474
distractionrelatedfatalities in 2009). This increase may reflect the rapidly developing in-vehicle
technology and other electronic devices that place additional demands on drivers and
might lead to distraction and diminished capacity to perform driving tasks. This situation
threatens safe driving. Technology that can detect and mitigate distraction by providing
drivers with feedback and alerts could play a central role in maintaining safety.
PROPOSED SYSTEM
In this paper, we are going to detect distraction based on visual behavior or driving
performance. Identifying driver distraction in real time to predict dangerous situations
associated with breakdowns in lane keeping control is a critical challenge in these systems’
design. For this purpose, it would be useful to define the relationship between visual behavior
and vehicle control. Distraction might change the relationship between glance patterns and
steering that lead to breakdowns in vehicle control, resulting in lane departures. Changes in
this visual behavior–vehicle control relationship might indicate distraction. Thus, it is crucial
to evaluate this relationship for normal (non-distracted) driving and examine if it changes
with distraction.
The perception–action control process plays a central role in driving, and a strong
eye–steering correlation associated with this control process has been observed on curvy
roads. This paper evaluates the eye–steering correlation on a straight road with the
assumption that it might show a qualitatively and quantitatively different relationship
compared with curvy roads and that it might be sensitive to distraction.
HARDWARE REQURIMENT
 Steering Angle Sensor
 Arm Microcontroller
 Bluetooth
 Pc
 Android Mobile Phone
SOFTWARE REQURIMENT

3.  Visual Studio
 Flash Magic
BLOCK DIAGRAM
Steering Angle ARM Controller
PC with .NET Application
Bluetooth
Sensor