Capacity at unsignalized two-stage priority intersections
The subject of this paper is the capacity of minor-street traffic movements across major divided four-lane roadways (and other roads with two separate carriageways) at unsignalized intersections. The center of the intersection, corresponding to the width of the median, often provides room for drivers who have crossed the first half of the major road to stop before proceeding across the second major traffic stream. This situation, which is common with multilane major streets, is called two-stage priority. Here the capacity for minor-street through traffic is larger than at intersections without such a central storage space. These wider intersections provide an additional capacity that cannot be evaluated by conventional capacity calculation models. An analytical theory is presented for the estimation of capacity under two-stage priority conditions. It is based on an approach by Harders, although major improvements were necessary to match the results with realistic conditions. In addition to analytical theory, simulations were performed that enable an analysis under more realistic conditions. The result is a set of equations that compute the capacity for a minor-street through-traffic movement in the two-stage priority situation. ©
Year of publication: |
1999
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Authors: | Brilon, Werner ; Wu, Ning |
Published in: |
Transportation Research Part A: Policy and Practice. - Elsevier, ISSN 0965-8564. - Vol. 33.1999, 3-4, p. 275-289
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Publisher: |
Elsevier |
Saved in:
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