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INRIX

INRIX Highlights AI Infrastructure Intelligence at Neudata's New York Summer Data Summit 2026 - INRIX Cities Can Reduce Emissions Without New Infrastructure - INRIX Late Night Football Leads to Lighter Rush Hour in England - INRIX Transparency as a Product Feature: Introducing INRIX Speeds Updates - INRIX Applying for a FHWA/INFRA Grant Track 2? Here’s How INRIX Can Help - INRIX World Cup – INRIX Traffic Report (June 12-June 28) - INRIX INRIX to Be Recognized at AWS Government Competency Leadership Circle - INRIX How Traffic Engineers Use Probe-Based Signal Analytics to Improve Signal Performance - INRIX World Cup – INRIX Traffic Report (June 16-June 21) - INRIX World Cup – INRIX Traffic Report (June 15) - INRIX INRIX World Cup Traffic Report – Day 1 Prediction for June 11, 2026 - INRIX World Cup – INRIX Traffic Report (June 12-June 15) - INRIX How Shippers, Carriers, and 3PLs Can Reduce Delivery Risk Using Big Data Basemap and INRIX Partner to Expand On‑Demand Access to High‑Precision Transportation Data Through DataCutter From Necessity to Lifestyle: A Year of Bike Commuting INRIX at NACTO Designing Cities 2026: Advancing the Future of Urban Mobility Mobility as a Hazard Signal: Lessons from Tornado-Prone Alabama Why Friday Commutes Are Falling First in the Bay Area’s Supercommuter Belt Memorial Day Doesn’t Just Change Traffic — It Changes Where Crash Risk Happens How Agencies Are Using Signal Analytics to Improve Traffic Operations Why Automated, AI‑Based Traffic Bulletins Beat Manual Reporting Construction Everywhere — But I-90 Became the Biggest Problem INRIX Celebrates NCTCOG’s TexITE Award for Advancing Data-Driven Signal Timing - INRIX How Cities Use Micromobility Data to Make Better Policy Freight Feels the Fuel Squeeze First: INRIX Data Shows Fleets Trimming Distance and Speed Expanding Right-of-Way Intelligence Beyond the Curb and Onto the Sidewalk What Cities Can Learn from Each Other: The Value of Micromobility Benchmarking Five More Innovative Ways to Reduce Traffic Congestion and Improve Mobility Fuel Prices Are Rising, But Driving Behavior Looks Steady Teaching An Old LLM New Tricks: An Innovation Week Project What’s New in INRIX IQ: Signal Analytics, Mission Control & Data Downloader Updates From Data Collection to Public Trust: Why Transparency Matters in Shared Mobility Building a Hybrid Signal Performance Strategy for State DOTs From Data to Decisions: How Ride Report is Powering the Future of Multimodal Mobility What Happens When You Let Traffic Signals Pick Your College Basketball Tournament Finals? Are Drivers Slowing Down to Save Fuel as Prices Rise in March 2026? INRIX Recognized as a 2026 Artificial Intelligence Excellence Award Winner Turning Mobility Data Into Infrastructure Intelligence Detecting Data Center Construction Through Real-World Mobility Signals From Smart Streets to Smarter Cities: Validating and Scaling Traffic Volume Estimation in NYC Getting the Most Out of Micromobility Equity Initiatives with Ride Report
Detecting Vehicle Abandonment During Wildfire Evacuations
Ashley Babani · 2026-03-13 · via INRIX

At the Transportation Research Board (TRB) Annual Meeting, our research team presented findings from our project for the 2025 INRIX x MetroLab Challenge during the poster session hosted by INRIX.

The project brought together transportation engineers and urban planners from Utah State University, UNC Chapel Hill, UCLA, Cal Poly, and the University of Maryland, united by a shared focus on mobility, equity, and data-driven methods. Our work addressed a critical but understudied challenge in emergency transportation planning: vehicle abandonment during wildfire evacuations. 

The Problem: When Evacuations Grind to a Halt

During large wildfire evacuations, congestion can escalate rapidly. In some cases, evacuees are forced to abandon their vehicles and continue on footan outcome that not only endangers individuals but also severely disrupts evacuation traffic and emergency response operations. This issue gained national attention during the Palisades wildfires in January 2025, when media coverage documented evacuees leaving cars behind on major corridors. 

Why We Chose This Project 

Our team selected this project in direct response to those reports of vehicle abandonment. While vehicle abandonment is often mentioned anecdotally after disasters, it is rarely measured quantitatively. Understanding its spatial and temporal patterns is essential for improving evacuation design, traffic management, and emergency response strategies. 

The 2025 INRIX x MetroLab Challenge provided a unique opportunity to test whether high-resolution trajectory data could be used to move beyond anecdotes and toward actionable insights. 

Data and Methods: Turning Trajectories into Signals 

The backbone of our analysis was INRIX trajectory data, which allowed us to observe individual vehicle movements over time. We identified potential vehicle abandonment by detecting trips that ended and did not resume during the evacuation period. A major challenge was distinguishing truly abandoned vehicles from those that temporarily stopped or resumed travel later.

Key Findings: Patterns That Match Reality 

Our analysis revealed clear and compelling insights: 

  • Spatial and temporal clustering of abandoned vehicles emerged along Sunset Boulevard and Palisades Drive, closely aligning with locations highlighted in the news reports. 
  • As evacuations progressed, vehicle abandonment shifted northeast along Sunset Boulevard, indicating that abandonment risk changes dynamically over time rather than remaining fixed. 
  • Even relatively small number of abandoned vehicles can significantly disrupt evacuation traffic flows. 

The strong alignment between our results and real-world reporting gave us confidence that trajectory data can reliably capture this phenomenon. 

From Research to Real-World Impact 

These methods from the project can be used to: 

  • Identify roadway features and evacuation conditions associated with higher abandonment risk  
  • Anticipate future problem locations before evacuations occur 
  • Support more proactive evacuation design and traffic management  

Key stakeholders that would help improve evacuations with updated evacuation design and planning include emergency managers, transportation agencies, wildfire planners, and local governments. 

Feedback from TRB and What Comes Next 

The two most common points of feedback after our presentation was interest in: 

  • How this approach could be scaled to other roadways and wildfire events 
  • How confidently abandoned vehicles could be distinguished from short-term stops 

These questions are in line with our project’s next research steps, which include replicating the analysis across the Eaton Fire and developing predictive models to identify where vehicle abandonment is most likely to occur. More broadly, the discussion highlighted a growing need for mobility research for data-driven tools that can support real-time emergency response and evacuation planning rather than only post-event analysis. 

Looking Ahead 

Vehicle abandonment may involve only a small share of evacuees, but its impacts ripple across entire evacuation systems. By combining transportation engineering, urban planning, and high-resolution mobility data, this project demonstrates how research can help communities prepare and respond more effectively to wildfire emergencies.

Learn more and about the 2026 INRIX x MetroLab Challenge.