Driving/Data: Difference between revisions

Baseline rates (verbatim; used directly in models)

The following U.S. national rates are taken verbatim from authoritative sources and are **not** converted here. Conversions to per-miles exposure are performed only inside the RiskModel calculations below.

• Fatalities: **1.26 deaths per 100 million vehicle miles traveled (VMT)** in 2023 (national estimate).

 * NHTSA 2023 Traffic Fatalities Estimates  
 * IIHS: Fatality statistics

• Injuries: **75 injuries per 100 million VMT** in 2022 (police-reported injuries, national estimate).

 * NHTSA: Traffic Safety Facts 2022

Distance Options

These rows provide user-friendly exposure choices. The RiskModels convert the per-100M-VMT base rates into expected counts for the chosen miles.

Time of Day (modifier)

Per-mile risk is higher at night: in 2022, ~53.9% of fatalities and ~32.9% of injury crashes occurred during roughly ~25% of VMT (nighttime). Using exposure-adjusted ratios yields ≈3.56× (fatalities) and ≈1.47× (injuries).

• Night/day crash distribution and injuries: NHTSA 2022
• Background on time-of-day involvement: NHTSA
• Exposure assumption (≈25% of VMT at night): FHWA Lighting Guidance
• Supplemental analysis: University of Michigan per-mile risk

Seat-belt Usage (modifier)

Seat belts reduce fatal injury risk by ~45% in cars and ~60% in light trucks; moderate-to-critical injury by ~50% in cars and ~65% in light trucks. The multipliers above are the inverse of those reductions (i.e., increased risk when not wearing a belt).

• Effectiveness summary: IIHS: Seat belts
• Technical background: NHTSA: Seat belt effectiveness

Alcohol Impairment (Modifier)

Drivers with a Blood Alcohol Content (BAC) of 0.08 are about 4× more likely to be in a crash than sober drivers, and at 0.15, at least 12× more likely. For simplicity, this multiplier is applied to both fatalities and injuries. If future research provides separate injury vs. fatality multipliers, this table can be expanded.

• NHTSA: Drunk driving statistics

Distraction (Modifier)

Naturalistic driving data (SHRP2 study) showed that any handheld phone use increases crash risk by ~3.6×; texting by ~6.1×; dialing by ~12.2×.

• Summary of SHRP2 findings; texting risk ~23× for heavy vehicles, but dialing/texting relative to model driving is 12.2×/6.1× :contentReference[oaicite:1]{index=1}

Speeding (Modifier)

Speeding increases crash severity and overall risk—doubling speed quadruples kinetic energy, and speeding was involved in ~29% of U.S. traffic fatalities. Using a simplified 2× severity multiplier as a proxy.

• NHTSA: Speeding-related fatalities ~29%

  RiskModel: Driving/Data:fatality_model
Calculation: 1 - (2.718281828 ^ ( - ( (1.26 / 100000000) * distance_miles * time_fatality_multiplier * belt_fatality_multiplier * alcohol_multiplier * distraction_multiplier * speeding_multiplier ) ))
    Content: 
Your estimated chance of being in a fatal crash is {{One_in_X:{result}}}.

  RiskModel: Driving/Data:injury_model
Calculation: 1 - (2.718281828 ^ ( - ( (75 / 100000000) * distance_miles * time_injury_multiplier * belt_injury_multiplier * alcohol_multiplier * distraction_multiplier * speeding_multiplier ) ))
    Content: 
Your estimated chance of being injured in a crash is {{One_in_X:{result}}}.

Calculation note: Each model first computes the expected number of events λ from the verbatim base rates (per 100 million vehicle miles traveled), scaled by distance and modifiers. It then converts λ into a probability of at least one event using the Poisson formula \(p = 1 - e^{-λ}\). Because RiskModel only supports numeric constants and math operators, the constant *e* is approximated as 2.718281828 and exponentiation is written with the `^` operator.

Note on uncertainty: These are national averages and approximate modifiers. Actual risks vary by state, roadway type (urban/rural), weather, vehicle, driver demographics, and year-to-year changes. Modifiers are population-level and not individual predictions.

Mostly generated by GPT-5 Thinking