Clustering Roadway Departures from Impaired Driving Studies using Derived Features and Shape-Based Methods

Ryan Miller; Arsal Shaikh; Tannishtha Mukherjee; Chris Schwarz; Timothy Brown

doi:10.1177/03611981261441282

Back

Clustering Roadway Departures from Impaired Driving Studies using Derived Features and Shape-Based Methods

Journal article

Peer reviewed

Clustering Roadway Departures from Impaired Driving Studies using Derived Features and Shape-Based Methods

Ryan Miller, Arsal Shaikh, Tannishtha Mukherjee, Chris Schwarz and Timothy Brown

Transportation research record

04/28/2026

DOI: 10.1177/03611981261441282

View Online

Abstract

Lane departures remain a major contributor to fatal traffic accidents despite the increasing adoption of lane departure warning systems. Existing research has focused on the detection and mitigation of lane departures, while the characteristics of departures and their potential relationships with categories of driver impairment have received less attention. We apply a variety of unsupervised clustering approaches to a comprehensive set of lane departures from three drug-impaired driving studies involving combinations of cannabis and low-dose alcohol, alcohol, and cannabis. We find that departures are more frequent in active-drug conditions, ranging from 26% to 222% increases in mean departures per minute of driving depending on the study and condition. Across all studies, departures are most effectively grouped into two clusters based on duration and peak lateral deviation, with average silhouette scores of the most effective approaches being 0.778, 0.759, and 0.871, respectively, indicating high degrees of cohesion within clusters and separation between them. After clustering on the principal components derived from driving data from before, during, and after each departure we find clusters that differ significantly in their relative proportions of alcohol-dosed drivers (p < 0.001). Shape-based approaches also identify two clusters of departures that differ in duration, maximum deviation, and timing of peak deviation. These clusters contain a significantly different composition of dosing conditions in the combined alcohol and cannabis study (p = 0.015). Our results suggest lane departures can be effectively profiled and that leveraging their characteristics may benefit driver monitoring systems targeting the detection of drug-impaired driving.

Engineering

Technology

Transportation

Engineering, Civil

Science & Technology

Transportation Science & Technology

Details

Title: Subtitle: Clustering Roadway Departures from Impaired Driving Studies using Derived Features and Shape-Based Methods
Creators: Ryan Miller - Grinnell College
Arsal Shaikh - Grinnell College
Tannishtha Mukherjee - Grinnell College
Chris Schwarz - University of Iowa, The National Advanced Driving Simulator
Timothy Brown - University of Iowa
Resource Type: Journal article
Publication Details: Transportation research record
DOI: 10.1177/03611981261441282
ISSN: 0361-1981
eISSN: 2169-4052
Publisher: Sage
Number of pages: 13
Language: English
Electronic publication date: 04/28/2026
Academic Unit: The National Advanced Driving Simulator; Pharmaceutical Sciences and Experimental Therapeutics; Driving Safety Research Institute; Industrial and Systems Engineering; Injury Prevention Research Center
Record Identifier: 9985161442102771

Metrics

1 Record Views