THE CHARACTERISTICS OF CONGESTED FLOW ON A FREEWAY ACROSS LANES, SPACE AND TIME

Abstract For the most part, previous studies of freeway flow kinematics and dynamics (especially relating to schock wave propagation and to the fundamental diagram) have looked only at flow within a single lane. However, the perturbations in flow which make the dynamics interesting—and of practical importance—normally arise in multiple lane settings. This study examines flow-occupancy dynamics at the onset of congestion by taking into consideration the flows across all the lanes, individually. The results show that just prior to the onset of congestion, flow rates in the shoulder lane are only about 50% of the flows in the median and middle lanes. As the congestion moves upstream through a data collection station, flow rates in the two fast lanes decrease, but flow rates in the shoulder lane invariably increase. After the onset of congested operations, all three tend toward the same average occupancy and speed. These results provide support for an earlier suggestion that discontinuous flow-concentration functions are not necessary, and also help to resolve some of the questions raised by that earlier suggestion.