Preliminary Validation of a Speed-Profile Model for Design Consistency Evaluation (TTI-04690-4)

The objectives of this study were to test the validity of a speed-profile model for design consistency evaluation, including: (l) the speed reduction estimation ability of the model, and (2) assumptions about deceleration and acceleration characteristics approaching and departing horizontal curves. Detailed speed data were collected at a sample of ten horizontal tangent-curve sections on two-lane rural highways in Texas.The results indicated that the model provides a reasonable, albeit simplified, representation of speed profiles on horizontal alignments consisting of long tangents and isolated curves. The model provides reasonable estimates of speed reductions from long approach tangents to curves, with the caveat that the model does not account for the effect of nearby intersections on speeds.The results further indicate that the assumed 0.85 m/s2 value (taken from Lamm, et al.) is reasonable for deceleration rates approaching curves that require speed reductions, but that it may overestimate acceleration rates departing curves. The model's assumptions that deceleration occurs entirely on the approach tangent and that speeds are constant throughout a curve were not confirmed by observed speed behavior. The observations that deceleration continues after entering a curve and that speed adjustments occur throughout a curve are indicators of the difficulty drivers experience in judging appropriate speeds through curves.