CE 578 Highway Traffic Operations

1. CE 578 Highway Traffic Operations Lecture 4: HCM Directional Analysis

2. Objectives • Understand two-lane highway performance measures • Relate two-lane highway conditions to input variables • Calculate adjusted volume • Calculate performance measures • ATS • PTSF

3. Two-Lane Highway Performance Measures • Percent-time-spent-following (PTSF) • Average travel speed (ATS) • Average travel time • Passing supply vs passing demand

4. HCM Procedure (Chapter 12) • Precept—Mobility • Consistent high speed • Infrequent passing delays • Precept—Access • Infrequent passing delays • Freedom to maneuver • Safety • Speed not a primary concern

5. HCM Procedure Two-Lane Highway Classes • Different highways and different expectations • Primary arterials: serve long distance trips, major inter-city travel, daily commuter routes, high travel speed expected • Secondary roadways: high speed not expected, scenic route, rugged terrain, recreational route, short trips, trip ends

6. Level of Service Measurement by Highway Classification • Class I: PTSF and ATS • Passing delay is expected to be at a minimum • High speed is expected • Class II: PTSF • Higher levels are acceptable but drivers are still sensitive to this measure • ATS is generally not an issue • Drivers will not be on the highway long • Or do not expect high speeds

7. Estimating Two-Lane Highway Level of Service Measures • Microscopic simulation • TRAR • TWOPAS • Yu and Washburn • Deterministic procedures • US HCM two-way methodology (not necessary) • US HCM directional methodology • Polus

8. US HCM Procedures—General Approach Input Highway Conditions Adjustments and Calculations Compute Performance Measure(s)

9. US HCM Performance Measures—Base Conditions • 12 ft lanes • 6 ft shoulders • No no-passing zones • 100% passenger cars • No impediments to through traffic • Level terrain • 50/50 traffic split by direction

10. Base Condition PTSF Estimation: Graph (50/50 directional split)

11. US HCM Level-of-Service—Class I Facilities

12. US HCM Level-of-Service—Class II Facilities

13. Original HCM Directional Analysis Procedure • Relative to two-way analysis procedure • Split traffic by direction • Analyze each direction of traffic separately • Volume adjustments are the same for general terrain • ATS • Equation 20-15 • adjustments (use 20-19) • PTSF • Coefficients for BPTSF (use 20-21) • Equations 20-16 and 20-17 • adjustments (use 20-20) (take care to use analysis direction flow and opposing flow, not two-way flow)

14. Modified HCM Directional Analysis Procedure • No change in volume adjustments • No change in ATS calculation • PTSF calculation • Same BPTSF equation • New PTSF equation • New BPTSF coefficients • See Table 9 (handout) • New adjustments  replacing fnp • See Table 10 (handout)

15. Exercise—Estimating Performance Measures • Given (Ideal Conditions): • Terrain = level • % Trucks = 0.0% • % RVs = 0.0% • class I highway with base conditions, • PHF = 0.85 • vd= 750 pcph, • vo = 450 pcph, • no no-passing zones, • FFS of 60 mph • 60/40 directional split • Find • ATSd • PTSFd and • LOS

16. Application • Given • Class I • V = 600 vph • Terrain = Rolling • 60/40 split • 60% no-passing zones • PHF = 0.90 • 10% Trucks 5% RVs • FFS = 65 mph

17. Combining Directional Performance Measures • ATS • See HCM 2000 Chapter 20 pp 20-12 and 20-29

18. Combining Directional Performance Measures (cont.) • PTSF • See HCM 2000 Chapter 20 pp 20-12 and 20-29

19. Things to Note from Assignment 5 • How to combine directional performance estimates into a two-way estimate • How to perform an iteration to maintain consistency between the factors and the adjusted volumes. • Limitations of HCM methodologies (stay tuned)

20. Review Assignment 3 • See website for the problems and solutions

21. Limitations • Sensitivity to highway section length • Intersection operations • Capacity conditions