Driving/Data: Difference between revisions

Revision as of 16:16, 1 September 2025

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

Distance choice	Miles
100 miles	100
1,000 miles	1000
100,000 miles	100000

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)

Time of day	Fatality risk multiplier	Injury risk multiplier
Day	1.0	1.0
Night	3.56	1.47

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-belt usage	Fatality risk multiplier	Injury risk multiplier
Worn (car)	1.0	1.0
Not worn (car)	1.82	2.0
Worn (SUV/van/truck)	1.0	1.0
Not worn (SUV/van/truck)	2.5	2.857

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-impaired driving frequency (share of miles while impaired)

How often does the driver drive after drinking too much?	Approximate share of miles while impaired
Never	0
A few times per year	0.001
About once a month	0.005
About once a week	0.02
Several times a week	0.05

These shares approximate the fraction of total miles driven while impaired (not the fraction of people). They translate intuitive frequencies (“a few times per year”, “once a month”, etc.) into small exposure shares so the multiplier applies only to that portion of miles.

Calibration notes (assumptions; adjust as needed):

“A few times per year” ≈ 0.1% of miles (e.g., ~10–20 impaired miles in ~10,000 annual miles).
“About once a month” ≈ 0.5% of miles.
“About once a week” ≈ 2% of miles.
“Several times a week” ≈ 5% of miles.

Background/prevalence:

CDC summary: self-reported alcohol-impaired driving episodes occur at a non-zero rate in the population.

Distraction (Modifier)

Distraction type	Relative crash risk multiplier
Model driving (no distraction)	1.0
Any handheld cell use	3.6
Texting (visual-manual)	6.1
Dialing (visual-manual)	12.2

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 status	Relative crash severity multiplier
At or below limit	1.0
Above limit	2.0

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 * ( (1 - alcohol_frequency_share) + (alcohol_frequency_share * 4.0) ) * distraction_multiplier * speeding_multiplier ) ))
    Content: 
Your estimated chance of being in a fatal crash is {{One_in_N:{result}}}.

  RiskModel: Driving/Data:injury_model
Calculation: 1 - (2.718281828 ^ ( - ( (75 / 100000000) * distance_miles * time_injury_multiplier * belt_injury_multiplier * ( (1 - alcohol_frequency_share) + (alcohol_frequency_share * 4.0) ) * distraction_multiplier * speeding_multiplier ) ))
    Content: 
Your estimated chance of being injured in a crash is {{One_in_N:{result}}}.

Calculation note: Each model computes an expected count λ from verbatim base rates (per 100 million vehicle miles traveled, VMT), scaled by distance and modifiers, then converts to a probability \(p = 1 - e^{-λ}\) using \(2.718281828^{-\lambda}\). Alcohol risk is applied via an exposure share: the model blends \((1 - \text{share})\times 1 + \text{share}\times 4.0\) so the higher crash risk applies only to the fraction of miles driven after drinking “too much.” If future research provides more precise multipliers by impairment level or distinct injury vs. fatality effects, the constant 4.0 can be revised.

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

@@ Line 60: / Line 60: @@
 * Technical background: [https://crashstats.nhtsa.dot.gov/Api/Public/ViewPublication/811160 NHTSA: Seat belt effectiveness]
-'''Alcohol Impairment (Modifier)'''
+'''Alcohol-impaired driving frequency (share of miles while impaired)'''
-<datatable2 table="alcohol_impairment" columns="alcohol_level|alcohol_multiplier">
+<datatable2 table="alcohol_frequency" columns="alcohol_frequency_label|alcohol_frequency_share">
 <head>
-!Alcohol status
+!How often does the driver drive after drinking too much?
-!Crash risk multiplier
+!Approximate share of miles while impaired
 </head>
-BAC = 0.00|1.0
+Never|0
-BAC ≥ 0.08|4.0
+A few times per year|0.001
-BAC ≥ 0.15|12.0
+About once a month|0.005
+About once a week|0.02
+Several times a week|0.05
 </datatable2>
-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.
+These shares approximate the fraction of total miles driven while impaired (not the fraction of people). They translate intuitive frequencies (“a few times per year”, “once a month”, etc.) into small exposure shares so the multiplier applies only to that portion of miles.
-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.
-* [https://www.nhtsa.gov/risky-driving/drunk-driving NHTSA: Drunk driving statistics]
+Calibration notes (assumptions; adjust as needed):
+* “A few times per year” ≈ 0.1% of miles (e.g., ~10–20 impaired miles in ~10,000 annual miles).
+* “About once a month” ≈ 0.5% of miles.
+* “About once a week” ≈ 2% of miles.
+* “Several times a week” ≈ 5% of miles.
+Background/prevalence:
+* CDC summary: self-reported alcohol-impaired driving episodes occur at a non-zero rate in the population.
 '''Distraction (Modifier)'''
@@ Line 108: / Line 117: @@
 ----
-<RiskModel name="fatality_model" calculation="1 - (2.718281828 ^ ( - ( (1.26 / 100000000) * distance_miles * time_fatality_multiplier * belt_fatality_multiplier * alcohol_multiplier * distraction_multiplier * speeding_multiplier ) ))">
-Your estimated chance of being in a fatal crash is {{One_In_X|{result}}}.
+<RiskModel name="fatality_model" calculation="1 - (2.718281828 ^ ( - ( (1.26 / 100000000) * distance_miles * time_fatality_multiplier * belt_fatality_multiplier * ( (1 - alcohol_frequency_share) + (alcohol_frequency_share * 4.0) ) * distraction_multiplier * speeding_multiplier ) ))">
+Your estimated chance of being in a fatal crash is {{One_in_N:{result}}}.
 </RiskModel>
-<RiskModel name="injury_model" calculation="1 - (2.718281828 ^ ( - ( (75 / 100000000) * distance_miles * time_injury_multiplier * belt_injury_multiplier * alcohol_multiplier * distraction_multiplier * speeding_multiplier ) ))">
+<RiskModel name="injury_model" calculation="1 - (2.718281828 ^ ( - ( (75 / 100000000) * distance_miles * time_injury_multiplier * belt_injury_multiplier * ( (1 - alcohol_frequency_share) + (alcohol_frequency_share * 4.0) ) * distraction_multiplier * speeding_multiplier ) ))">
-Your estimated chance of being injured in a crash is {{One_In_X|{result}}}.
+Your estimated chance of being injured in a crash is {{One_in_N:{result}}}.
 </RiskModel>
-''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.
+''Calculation note'': Each model computes an expected count λ from verbatim base rates (per 100 million vehicle miles traveled, VMT), scaled by distance and modifiers, then converts to a probability \(p = 1 - e^{-λ}\) using \(2.718281828^{-\lambda}\). Alcohol risk is applied via an exposure share: the model blends \((1 - \text{share})\times 1 + \text{share}\times 4.0\) so the higher crash risk applies only to the fraction of miles driven after drinking “too much.” If future research provides more precise multipliers by impairment level or distinct injury vs. fatality effects, the constant 4.0 can be revised.