Developing a Guide for Rural Highways: Reliability and Quality of Service Evaluation Methods (2024)
Chapter: References
References
Auto/Truck
American Association of State Highway and Transportation Officials. (2018) A Policy on Geometric Design of Highways and Streets, 7th edition. Washington, DC.
Bonneson, James A., Fontaine, Michael D. (2001) Engineering Study Guide for Evaluating Intersection Improvements. NCHRP Report 457. TRB, National Research Council, Washington, DC. 141 pages. https://trid.trb.org/view/688871.
Brilon W. and F. Weiser. (2006) Two-Lane Rural Highways, The German Experience. Transportation Research Record: Journal of the Transportation Research Board, No. 1988, Washington, DC. pp. 38-47.
FGSV: Handbuch fur die Bemessung von Strassen (German Highway Capacity Manual) HBS 2015, FGSV, Cologne, Germany.
Fitzpatrick, Kay, Brewer, Marcus A., Dorothy, Paul, Park, Eun Sug. (2014) Design Guidance for Intersection Auxiliary Lanes. NCHRP Report 780. Transportation Research Board of the National Academies, Washington, DC. 159 pages. DOI: 10.17226/22296. https://www.nap.edu/catalog/22296/design-guidance-for-intersection-auxiliary-lanes.
Fitzpatrick, Kay, Brewer, Marcus A., Eisele, William L., Levinson, Herbert S., Gluck, Jerome S., Lorenz, Matthew R. (2013) Left-Turn Accommodations at Unsignalized Intersections. NCHRP Report 745. Transportation Research Board of the National Academies, Washington, DC. 61 pages. DOI: 10.17226/22608. https://www.nap.edu/catalog/22608/left-turn-accommodations-at-unsignalized-intersections.
Gattis, J.L., Gluck, Jerome S., Barlow, Janet M., Eck, Ronald W., Hecker, William F., Levinson, Herbert S. (2010) Guide for the Geometric Design of Driveways. NCHRP Report 659. Transportation Research Board and National Academies of Sciences, Engineering, and Medicine.: The National Academies Press, Washington, DC. 93 pages. https://doi.org/10.17226/14399. https://www.nap.edu/catalog/14399/guide-for-the-geometric-design-of-driveways.
Harwood, D. W., and C. J. Hoban. (Jan. 1987) Low-Cost Methods for Improving Traffic Operations on Two-Lane Roads. Report FHWA-IP-87/2. U.S. Department of Transportation, Washington, DC.
Institute of Transportation Engineers (ITE) (2016). Traffic Engineering Handbook, 7th ed. Wiley & Sons, Hoboken, New Jersey.
Kikuchi, Shinya and Chakroborty, Partha. (1991) Analysis of Left-Turn-Lane Warrants at Unsignalized T-intersections on Two-Lane Roadways. Transportation Research Record: Journal of Transportation Research Board, No. 1327, Washington, DC. pp. 80-88. https://trid.trb.org/view/365918.
Li, Jing and Washburn, Scott S. (2014) “Improved Operational Performance Assessment for Two-Lane Highway Facilities.” Journal of Transportation Engineering, American Society of Civil Engineers. Reston, VA, Vol. 140, Issue 6. pp. 04014017-1/04014017-9. DOI: 10.1061/(ASCE)TE.1943-5436.0000666.
Ozkul, Seckin and Washburn, Scott S. Commercial Heavy Vehicle Impacts on Signalized Arterial Corridor Performance. Final Report (Project BDV25-977-50). Florida Department of Transportation. Tallahassee, FL. December 2019. 251 pages.
TRB. (2016) Highway Capacity Manual. 6th ed. Washington, DC. TRB. (2010) Highway Capacity Manual. 5th ed. Washington, DC.
Van As, C. (2003) The Development of an Analysis Method for the Determination of Level of Service of Two-Lane Undivided Highways in South Africa. Project Summary, South African National Roads Agency, Limited, Pretoria.
Van As, C. (April 2016) South African Road Design System. Technical Reference Manual Capacity Analysis Model. South African National Roads Agency Limited. Version 1.0.
Washburn, Scott S., Al-Kaisy, Ahmed, Luttinen, Tapio, and Dowling, Richard, Watson, Donald, Jafari, Amirhossein, Bian, Zilin, and Elias, Aaron. (2018). NCHRP Web-Only Document 255: Improved Analysis of Two-Lane Highway Capacity and Operational Performance. Transportation Research Board, Washington, DC. 670 pages. DOI: 10.17226/25179.
Yu, Qingyong and Washburn, Scott S. (2009) “Operational Performance Assessment for Two-Lane Highway Facilities.” Journal of Transportation Engineering, American Society of Civil Engineers, Reston, VA, Vol. 135, Issue 4, pp. 197-205.
Bicycle
Allen, D. Patrick, Nagui Rouphail, Joseph E. Hummer, and Joseph S. Milazzo. (1998) “Operational Analysis of Uninterrupted Bicycle Facilities.” Transportation Research Record, no. 1636: 29–36. https://doi.org/10.3141/1636-05.
Botma, Hein. (1995) “Method to Determine Level of Service for Bicycle Paths and Pedestrian-Bicycle Paths.” Transportation Research Record, no. 1502: 38–44.
CROW. (2017) Design Manual for Bicycle Traffic, 300 pages, ISBN 9789066286597. https://www.crow.nl/publicaties/design-manual-for-bicycle-traffic
Dowling, Richard, Paul Ryus, Bastian Schroeder, Michael Kyte, F. Thomas Creasey, Nagui Rouphail, Ali Hajbabaie, Danica Rhoades (2016). NCHRP Report 825: Planning and Preliminary Engineering Applications Guide to the Highway Capacity Manual. Transportation Research Board of the National Academies, Washington, DC.
Ferenchak, Nicholas N., and Wesley E. Marshall. (2020) “Validation of Bicycle Level of Traffic Stress and Perceived Safety for Children.” Transportation Research Record 2674 (4): 397–406. https://doi.org/10.1177/0361198120909833.
Furth, Peter G., Maaza C. Mekuria, and Hilary Nixon. (2016). Network Connectivity for Low-Stress Bicycling. Transportation Research Record: Journal of the Transportation Research Board, No. 2587 (1): 41–49. https://doi.org/10.3141/2587-06.
Griswold, Julia B, Mengqiao Yu, Victoria Filingeri, Offer Grembek, and Joan Walker. (2017) “A Behavior Modeling Approach to Bicycle Performance Measures.” In 6th Annual International Cycling Safety Conference, 21–23.
Harkey, David L. (1998) “The Bicycle Compatibility Index: A Level of Service Concept,” no.c December 1998: 4. http://www.hsrc.unc.edu/research/pedbike/98095 and http://www.hsrc.unc.edu/research/pedbike/98072.
Jensen, Soren Underlien. (2013) “Pedestrian and Bicycle Level of Service at Intersections, Roundabouts, and Other Crossings.” TRB 92nd Annual Meeting: 1–19. http://trafitec.dk/sites/default/files/publications/pedbikelosatintersec.pdf.
Jensen, Søren Underlien. (2007) “Pedestrian and Bicyclist Level of Service on Roadway Segments.” Transportation Research Record, no. 2031: 43–51. https://doi.org/10.3141/2031-06.
Jones, Elizabeth G., and Timothy D. Carlson. (2003) “Development of Bicycle Compatibility Index for Rural Roads in Nebraska.” Transportation Research Record, no. 1828: 124–32. https://doi.org/10.3141/1828-15.
Kang, Kyungwoo, and Kyeora Lee. (2012) “Development of a Bicycle Level of Service Model from the User’s Perspective.” KSCE Journal of Civil Engineering 16 (6): 1032–39. https://doi.org/10.1007/s12205-012-1146-z.
LaMondia, Jeffrey J., and Nathan Moore. (2015) “Using Bicycle Level of Service for Decision Making Comparison of Common Bicycle Level-of-Service Measures, Roadway Characteristics, and Perceived Bike Route Suitability.” Transportation Research Record 2520: 123–31. https://doi.org/10.3141/2520-14.
Landis, Bruce W., Venkat R. Vattikuti, and Michael T. Brannick. (1997) “Real-Time Human Perceptions: Toward a Bicycle Level of Service.” Transportation Research Record, no. 1578: 119–31. https://doi.org/10.3141/1578-15.
Lowry B, Michael, and Daniel Callister. (2012) “Analytical Tools for Identifying Bicycle Route Suitability, Coverage, and Continuity,” no. May: 119. http://www.webs1.uidaho.edu/niatt/research/Final_Reports/KLK560_Final.pdf%5Cnhttp://ntl.bts.gov/lib/45000/45100/45142/RP204Final.pdf%5Cnhttp://trid.trb.org/view/1147505.
Lowry, Michael, Daniel Callister, Maureen Gresham, and Brandon Moore. (2012) “Assessment of Communitywide Bikeability with Bicycle Level of Service.” Transportation Research Record, no. 2314: 41–48. https://doi.org/10.3141/2314-06.
Massachussets Department of Transportation. (2015) Separated Bike Lane Planning & Design Guide.139 pages. https://www.mass.gov/lists/separated-bike-lane-planning-design-guide.
Mekuria, Maaza C., Peter G. Furth, and Hilary Nixon. (2012) “Loss-Stress Bicycling and Network Connectivity.” Mineta Transportation Institute Report 11-19, 68. http://transweb.sjsu.edu/PDFs/research/1005-low-stress-bicycling-network-connectivity.pdf.
Oregon Department of Transportation. (2020) Analysis Procedures Manual Version 2, Chapter 14 Multimodal Analysis, 120 pages. https://www.oregon.gov/odot/Planning/Documents/APMv2_Ch14.pdf.
Petritsch, Theodore A., Bruce W. Landis, Herman F. Huang, Peyton S. McLeod, Daniel Lamb, Waddah Farah, and Martin Guttenplan. (2007) “Bicycle Level of Service for Arterials.” Transportation Research Record, no. 2031: 34–42. https://doi.org/10.3141/2031-05.
Sagar Onta, PE, PTOE (Denver Engineering). (2018) “2018 AASHTO Bike Guide.”
Schultheiss, Bill, Dan Goodman, Lauren Blackburn, Adam Wood, Dan Reed, and Mary Elbech. (2019) “Bikeway Selection Guide.” FHWA-SA-18-077. https://safety.fhwa.dot.gov/ped_bike.
Stamadiatis, N., A. Kirk, D. Hartman, J. Jasper, S. Wright, M. King, and R. Chellman. NCHRP Research Report 855: An Expanded Functional Classification System for Highways and Streets, Transportation Research Board, Washington, DC, 2017.
Stinson, Monique A., and Chandra R. Bhat. (2005) A Comparison of the Route Preferences of Experienced and Inexperienced Bicycle Commuters. Presented at the 84th Annual Meeting of the Transportation Research Board, Washington, DC.
TRB. (2016) Highway Capacity Manual, 6th Edition: A Guide for Multimodal Mobility Analysis. Washington, DC.
Washington State Department of Transportation. (2015) Design Manual M 22-01.12, “Chapter 1520. Roadway Bicycle Facilities”. 32 pages. https://wsdot.wa.gov/publications/manuals/fulltext/M22-01/1520.pdf.
Zolnik, Edmund J., and Ellen K. Cromley. (2007) “Poisson Multilevel Methodology of Bicycle Levels of Service for Road Networks.” Transportation Research Record, no. 2031: 1–8. https://doi.org/10.3141/2031-01.
