1 |
ASTM, 2008. Standard Specification for Standard Smooth Tire for Pavement Skid-Resistance Tests
|
2 |
AASSHTO, 2008. Guide for Pavement Friction
|
3 |
Choubane, B., Holzshuher, C. R., and Gokhale, S., 2003. Precision of Locked Wheel Testers for Measurement of Roadway Surface Friction Characteristics, Research Report FL/DOT/SMO/03-464, State Materials Office, Florida.
|
4 |
Kuttesch, J. S., 2004. Quantifying the Relationship between Skid Resistance and Wet Weather Accidents for Virginia Data, Thesis for Master of Science, Virginia Polytecnic Institute and State University
|
5 |
Lindenmann, H. P., 2004. Is the Correlation Between Pavement Skid Resistance and Accident Frequency Significant?, Presented at the TRB 83rd Annual Meeting, Washington, D. C.
|
6 |
National Police Agency, 2011. Traffic Accident Statistics Analysis of Year 201
|
7 |
Oh, Soonmi, Madanat, S., Ragland, D. R., and Chan, C., 2010. Evaluation of Traffic and Environment Effects on Skid Resistance in California, TRB 2010 Annual Meeting, Washington, D. C.
|
8 |
Runkle, S. N., Mahone, D. C., 1977. Virginia's Wet Pavement Accident Reduction Program, TRR. 622, Transportation Research Board
|
9 |
Song, W., Chen, X., Smith, T., and Hedfi, A., 2006. Investigation of Hot Mix Asphalt Surfaced Pavements Skid, Resistance in Maryland State Highway Network System
|
10 |
Transportation Research Board, 2000. Evaluation of Pavement Friction Characteristics, NCHRP Synthesis 291
|
11 |
Vag och Transportforskningsinstitut(VTI), 2001. Friction Measurement Methods and the Correlation Between Road Friction and Traffic Safety
|
12 |
Xiao, J., Kulakowski, B. T., and EI-Gindy, M., 2000. Prediction of Risk of Wet-Pavement Accidents: Fuzzy Logic Model, TRR 1717, Transportation Research Board
|
13 |
技術書院, 1986. 路面のすべり
|