· Chris Thompson · Hamilton Turner · Brian Dougherty · Douglas C. Schmidt



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White2011 Article WreckWatchAutomaticTrafficAcci
6 Concluding remarks
Reducing the time between when an accident takes place and when it is detected can reduce mortality rates by 6% [
10
]. Conventional in-vehicle accident detection and notification systems, such as OnStar, are effective in reducing the time gap before first responders are sent to the scene. These systems, however, are expensive and not available in all vehicles.
To further increase the usage of automatic accident detection and notification systems, smartphones can be used to indirectly detection accidents through their on- board sensors, such as accelerometers. Many challenges must be overcome, however, particularly the potential for false positives from accidentally dropped phones.
Due to the large volume of phantom (accidental)
calls to emergency services, reducing the false positive rate of smartphone accident detection is important.
Using a combination of context data, such as determining when a user is inside a vehicle, sensor data,
such as accelerometer and acoustic information, and intelligent sensor data filtering, accident detection systems can be created that are resistant to false positives.
For example, airbag deployment is only triggered at over Gs of acceleration. As shown by experiments in Section, accelerations above 4 Gs are unlikely for dropped phones.
In developing and evaluating our prototype accident detection and notification system, WreckWatch, we learned the following lessons:

Mobile Netw Appl (2011) 16:285–303
Accidents exert extreme forces on a phone that

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