Traffic flow in adverse weather conditions have been investigated in this study for general traffic, week day and week end traffic. The empirical evidence is strong in support of the view that rainfall affects macroscopic traffic flow parameters. Data generated from a basic highway section along J5 in Johor Bahru, Malaysia was synchronized with 161 rain events over a period of three months. This revealed a 4.90%, 6.60% and 11.32% reduction in speed for light rain, moderate rain and heavy rain conditions respectively. The corresponding capacity reductions in the three rainfall regimes are 1.08% for light rain, 6.27% for moderate rain and 29.25% for heavy rain. In the week day traffic, speed drops of 8.1% and 16.05% were observed for light and heavy conditions. The moderate rain condition speed increased by 12.6%. The capacity drops for week day traffic are 4.40% for light rain, 9.77% for moderate rain and 45.90% for heavy rain. The weekend traffic indicated speed difference between the dry condition and the three rainy conditions as 6.70% for light rain, 8.90% for moderate rain and 13.10% for heavy rain. The capacity changes computed for the weekend traffic were 0.20% in light rain, 13.90% in moderate rain and 16.70% in heavy rain. No traffic instabilities were observed throughout the observation period and the capacities reported for each rain condition were below the norain condition capacity. Rainfall has tremendous impact on traffic flow and this may have implications for shock wave propagation.
[1] Agyemang-Duah, K and Hall, F.L. (1991). "Some Issues Regarding the
Numerical Value of Highway Capacity: Highway Capacity and Level of
Service."(Proceedings). International Symposium on Highway Capacity,
1-15.
[2] Wemple, E.A., Moris, A. M. and May, A.D. (1991). "Freeway Capacity
and Flow Relationship: Highway Capacity and Level of Service."
(Proceedings). International Symposium on Highway Capacity,
Karlsruhe 439-456.
[3] TRB (2000). "Highway Capacity Manual." National Research Council,
Transportation Research Board, Washington D.C.
[4] Hall, F. L. and Agyemang-Duah, K. (1991). "Freeway Capacity Drop
and the Definition of Capacity." Transportation Research Record, TRB,
NRC, Washington, DC, 1320, 91-98.
[5] Banks, J. H. (1991a). "Two-Capacity Phenomenon at Freeway
Bottlenecks: A Basis for Ramp Metering." Transportation Research
Record, TRB, NRC, Washington, DC., 1320, 83-90.
[6] Banks, J. H. (1991b)."The Two-Capacity Phenomenon: Some
Theoretical Issues." Transportation Research Record, TRB,
NRC,Washington, DC., 1320, 234-241.
[7] Elefteriadou, L. and Lertworawanich, P. (2003). "Defining, Measuring
and Estimating Freeway Capacity." Transportation Research
Board.Washington D.C.
[8] Elefteriadou, L., Roess, R. P. and McShane, W. R. (1995 ). "The
Probabilistic Nature of Breakdown at Freeways Based on Zonal Merging
Probabilities." Transportation Research Board, 35., 237-254.
[9] Jiyoun, Y., Hermandez, S. and Elefteriadou, L. (2009). "Differences in
Freeway Capacity by Day of the Week, Time of day and Segment
Type." Journalof Transportation Engineering, ASCE, 135(7), 417-426.
[10] Lorenz, M. and Elefteriadou, L. (2001). "A Probabilistic Approach to
Defining Freeway Capacity and Breakdown." Transportation Research
Record., 1776, 84-95.
[11] Ponzlet, M. (1996)."Dynamik der Leistungsfahigkeiten von Autobahnen
(Dynamics of Freeway Capacity)." Schriftenreihe des Lehrstuhls fuer
Verkehrswesen der Ruhr Universitaet Bochum, No.16, Bochum.
[12] Hogema, J. H. (1996 ). "Effects of Rain on Daily Traffic Volume and on
Driving Behavior." TNO report TM-96-B019, TNO Human Factors
Research Institute, Soesterberg, Te Netherlands.
[13] Chung, E., Ohtani, O., Warita, H., Kuwahara, M. and Morita, H.
(2005b). "Effect of Rain on Travel Demand and Traffic Accident." 8th
IEEE Intelligent Transportation Systems Conference, Vienna, Austria.
[14] Keay, K. and Simmonds, I. (2005 ). The Association of Rainfall and
Other Weather Variables with Road Traffic Volume in Melbourne,
Australia. . Accident Analysis and Prevention., Vol. 37.(No. 1.), 109-
124.
[15] Chung, E., Othani, O., Warita, H., Kuwahara, M. and Morita, H. (2006).
"Does Weather Affect Highway Capacity". Proceedings of the
International Symposium on Highway Capacity and Quality of Service.
Country Reports and Special Session Papers. Yokohama, Japan.
[16] Billot, R. (2009). "Integrating the Effects of Adverse Weather
Conditions on Traffic: Methodology, Empirical Analysis and Bayesian
Modelling."
[17] Minderhoud, M. M., Botma, H. and Bovy, P. H. L. (1996). "Assessment
of Roadway Capacity Estimation Methods." Transportation Research
Record 1572, 59-67.
[18] Ben-Edigbe, J. (2010). "Assessment of Speed-Flow -Density Functions
Under Adverse Pavement Condition." International Journal of
Sustainable Development and Planning, 5(3), 238-252.
[19] Daniel, J. D. (2006). "The Use of Weather Data to Predict Non-recurring
traffic Congestion". Technical Report, Agreement T2695, Task
54,Washington State Transportation Center, USA.
[20] Greenshields, B. D. (1935). "A Study of Traffic Capacity."Highway
Research Board Proceedings, 14, 448-477.
[21] Alhassan, H. M. and Ben-Edigbe, J. (2011b). "Effect of Rainfall
Intensity Variability on Highway Capacity." European Journal of
Scientific Research, 49(1), 123-129.
[22] American Meteorological Society. (2000). Rain. Glossary of
Meteorology. World Meteorological Organisation.
[1] Agyemang-Duah, K and Hall, F.L. (1991). "Some Issues Regarding the
Numerical Value of Highway Capacity: Highway Capacity and Level of
Service."(Proceedings). International Symposium on Highway Capacity,
1-15.
[2] Wemple, E.A., Moris, A. M. and May, A.D. (1991). "Freeway Capacity
and Flow Relationship: Highway Capacity and Level of Service."
(Proceedings). International Symposium on Highway Capacity,
Karlsruhe 439-456.
[3] TRB (2000). "Highway Capacity Manual." National Research Council,
Transportation Research Board, Washington D.C.
[4] Hall, F. L. and Agyemang-Duah, K. (1991). "Freeway Capacity Drop
and the Definition of Capacity." Transportation Research Record, TRB,
NRC, Washington, DC, 1320, 91-98.
[5] Banks, J. H. (1991a). "Two-Capacity Phenomenon at Freeway
Bottlenecks: A Basis for Ramp Metering." Transportation Research
Record, TRB, NRC, Washington, DC., 1320, 83-90.
[6] Banks, J. H. (1991b)."The Two-Capacity Phenomenon: Some
Theoretical Issues." Transportation Research Record, TRB,
NRC,Washington, DC., 1320, 234-241.
[7] Elefteriadou, L. and Lertworawanich, P. (2003). "Defining, Measuring
and Estimating Freeway Capacity." Transportation Research
Board.Washington D.C.
[8] Elefteriadou, L., Roess, R. P. and McShane, W. R. (1995 ). "The
Probabilistic Nature of Breakdown at Freeways Based on Zonal Merging
Probabilities." Transportation Research Board, 35., 237-254.
[9] Jiyoun, Y., Hermandez, S. and Elefteriadou, L. (2009). "Differences in
Freeway Capacity by Day of the Week, Time of day and Segment
Type." Journalof Transportation Engineering, ASCE, 135(7), 417-426.
[10] Lorenz, M. and Elefteriadou, L. (2001). "A Probabilistic Approach to
Defining Freeway Capacity and Breakdown." Transportation Research
Record., 1776, 84-95.
[11] Ponzlet, M. (1996)."Dynamik der Leistungsfahigkeiten von Autobahnen
(Dynamics of Freeway Capacity)." Schriftenreihe des Lehrstuhls fuer
Verkehrswesen der Ruhr Universitaet Bochum, No.16, Bochum.
[12] Hogema, J. H. (1996 ). "Effects of Rain on Daily Traffic Volume and on
Driving Behavior." TNO report TM-96-B019, TNO Human Factors
Research Institute, Soesterberg, Te Netherlands.
[13] Chung, E., Ohtani, O., Warita, H., Kuwahara, M. and Morita, H.
(2005b). "Effect of Rain on Travel Demand and Traffic Accident." 8th
IEEE Intelligent Transportation Systems Conference, Vienna, Austria.
[14] Keay, K. and Simmonds, I. (2005 ). The Association of Rainfall and
Other Weather Variables with Road Traffic Volume in Melbourne,
Australia. . Accident Analysis and Prevention., Vol. 37.(No. 1.), 109-
124.
[15] Chung, E., Othani, O., Warita, H., Kuwahara, M. and Morita, H. (2006).
"Does Weather Affect Highway Capacity". Proceedings of the
International Symposium on Highway Capacity and Quality of Service.
Country Reports and Special Session Papers. Yokohama, Japan.
[16] Billot, R. (2009). "Integrating the Effects of Adverse Weather
Conditions on Traffic: Methodology, Empirical Analysis and Bayesian
Modelling."
[17] Minderhoud, M. M., Botma, H. and Bovy, P. H. L. (1996). "Assessment
of Roadway Capacity Estimation Methods." Transportation Research
Record 1572, 59-67.
[18] Ben-Edigbe, J. (2010). "Assessment of Speed-Flow -Density Functions
Under Adverse Pavement Condition." International Journal of
Sustainable Development and Planning, 5(3), 238-252.
[19] Daniel, J. D. (2006). "The Use of Weather Data to Predict Non-recurring
traffic Congestion". Technical Report, Agreement T2695, Task
54,Washington State Transportation Center, USA.
[20] Greenshields, B. D. (1935). "A Study of Traffic Capacity."Highway
Research Board Proceedings, 14, 448-477.
[21] Alhassan, H. M. and Ben-Edigbe, J. (2011b). "Effect of Rainfall
Intensity Variability on Highway Capacity." European Journal of
Scientific Research, 49(1), 123-129.
[22] American Meteorological Society. (2000). Rain. Glossary of
Meteorology. World Meteorological Organisation.
@article{"International Journal of Architectural, Civil and Construction Sciences:59361", author = "Hashim Mohammed Alhassan and Johnnie Ben-Edigbe", title = "Extent of Highway Capacity Loss Due to Rainfall", abstract = "Traffic flow in adverse weather conditions have been investigated in this study for general traffic, week day and week end traffic. The empirical evidence is strong in support of the view that rainfall affects macroscopic traffic flow parameters. Data generated from a basic highway section along J5 in Johor Bahru, Malaysia was synchronized with 161 rain events over a period of three months. This revealed a 4.90%, 6.60% and 11.32% reduction in speed for light rain, moderate rain and heavy rain conditions respectively. The corresponding capacity reductions in the three rainfall regimes are 1.08% for light rain, 6.27% for moderate rain and 29.25% for heavy rain. In the week day traffic, speed drops of 8.1% and 16.05% were observed for light and heavy conditions. The moderate rain condition speed increased by 12.6%. The capacity drops for week day traffic are 4.40% for light rain, 9.77% for moderate rain and 45.90% for heavy rain. The weekend traffic indicated speed difference between the dry condition and the three rainy conditions as 6.70% for light rain, 8.90% for moderate rain and 13.10% for heavy rain. The capacity changes computed for the weekend traffic were 0.20% in light rain, 13.90% in moderate rain and 16.70% in heavy rain. No traffic instabilities were observed throughout the observation period and the capacities reported for each rain condition were below the norain condition capacity. Rainfall has tremendous impact on traffic flow and this may have implications for shock wave propagation.
", keywords = "Highway Capacity, Dry condition, Rainfall Intensity, Rainy condition, Traffic Flow Rate.", volume = "6", number = "12", pages = "1096-8", }
