Not All Miles are Equal: Why Time and Location Matter When Benchmarking Autonomous SafetyWaypoint: The official Waymo blog<br>Search BlogCompany News<br>Rides<br>Safety<br>Technology<br>Life at Waymo<br>Filter by topicTopicCompany NewsRidesSafetyTechnologyLife at WaymoSearch blog
July 7, 2026<br>The Waymo Team<br>Share on Twitter<br>Share on LinkedIn<br>Share on Facebook<br>Not all miles are created equal. Navigating a highway commute on a Tuesday morning is fundamentally different from driving through downtown nightlife at 2:00 AM on a weekend. Our latest research — consisting of two new studies peer-reviewed and accepted for publication in the journal Traffic Injury Prevention — aims to close this gap by diving into two critical factors often overlooked in crash risk analysis: time and location.<br>At Waymo, we've long compared our safety record to human drivers using localized benchmarks. But a true apples-to-apples comparison that accounts for even more granular critical risk factors — such as time of day — is incredibly challenging. If an autonomous fleet drives heavily late at night in dense city centers, while the average human driver clocks most of their miles during daylight hours on routine, familiar routes, comparing blanket averages doesn’t give you the full picture.<br>To enable a more accurate comparison, in both studies, our researchers paired human crash databases with granular traffic volume data to map exactly when and where humans drive. By unlocking the ability to break down human crash data by location and time, we’ve built unprecedented, highly precise benchmarks to evaluate Waymo’s performance against.<br>Feng Guo, professor of statistics at Virginia Tech and lead data scientist for Virginia Tech Transportation Institute (VTTI) said: “Evaluating autonomous vehicle safety requires moving past abstract, aggregated national averages. Meaningful safety assessment must be context-specific, accounting for the disparities in risk across different regions, infrastructure types, and times of day. This new research advances understanding of autonomous vehicle safety, by developing a framework to establish comparable human driver benchmarks that incorporate these critical spatial and temporal conditions.”<br>Where You Drive: The Fatal Crash Baseline<br>Risk varies wildly depending on exactly where you drive. Our research across the top 50 most populous U.S. urban areas, revealed a massive disparity in fatal crash involvement rates between different regions in the country.<br>For example, on surface streets human drivers in Memphis were involved in fatal crashes at a rate 8.4 times higher than drivers in Boston. Relying on a single national average to judge safety would be unfair in both cities — it overestimates the risk of driving in Boston by three times, while underestimating the hazards in Memphis by the same threefold margin.<br>Furthermore, the road type plays a major role: across all 50 regions, driving on surface streets carries a fatal crash rate 2.3 times higher than driving on freeways. This confirms a pattern identified in our previous research, which has consistently shown that urban streets present a higher crash risk than freeways.
Human fatal crash rates: surface streets vs. freeways
While we have accumulated the immense mileage required to show statistically significant reductions in serious injuries, fatal crashes are thankfully too rare to yield immediate, direct comparisons. As we work towards building scientific consensus, establishing these localized fatal crash baselines proactively will help create a clear framework to evaluate autonomous safety as the industry matures.<br>When Crash Risk Spikes<br>Risk doesn’t just change by the road type — it shifts by the hour. Our research shows that human fatal crash risk surges during late-night hours and weekends. Fatigue, darkness, and impaired driving completely change the safety landscape.
Human fatal crash rates: day vs. night and weekday vs. weekend
While urban areas set the macro baseline, our second study extends our prior geo-specific mapping work to include much more granular temporal factors: time of day and day of week across our major operational hubs — Maricopa County (Phoenix), San Francisco, Los Angeles, and Travis County (Austin). This allows us to measure Waymo’s performance against highly accurate, time-matched human benchmarks.<br>The data revealed that human crash rates spike drastically between midnight and 3:59 AM, particularly on weekends. Because overnight driving accounts for just 1.5% of total human mileage, these high-risk hours are completely masked in traditional crash data by the massive volume of safer daytime commuting. But look closer at that midnight to 4 AM window, and human crash rates surge to 2 to 5 times higher on weekdays, and 2.5 to 6 times higher on weekends compared to the general average. Pairing crash records with granular, hour-by-hour traffic-volume data lets us finally measure risk by the hour, not just count crashes.<br>“The data points to a...