Clockwise hysteresis loops in the Macroscopic Fundamental Diagram: An effect of network instability

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Clockwise hysteresis loops in the Macroscopic Fundamental Diagram: An effect of network instability

Gayah, Vikash V. / Daganzo, Carlos F.

Research highlights ► Congestion tends towards unevenness as a peak period progresses. ► Clockwise hysteresis loops arise during peak period if drivers navigate rigidly. ► Probability of hysteresis decreases if drivers adapt to avoid congestion.

Abstract A recent study reported that the Macroscopic Fundamental Diagram of a medium size city exhibited a clockwise hysteresis loop on a day in which a major disturbance caused many drivers to use unfamiliar routes. It is shown below that, even in a perfectly symmetric network with uniform demand, clockwise loops are to be expected when there are disturbances, especially if the disturbances cause a significant fraction of the drivers to not change routes adaptively. It is also shown that when drivers are not adaptive networks are inherently more unstable as they recover from congestion than as they are loaded. In other words, during recovery congestion tends more strongly toward unevenness because very congested areas clear more slowly than less congested areas. Since it is known that uneven congestion distributions reduce network flows, it follows that lower network flows should arise during recovery, resulting in clockwise loops. Fortunately, the presence of a sufficient number of drivers that choose routes adaptively to avoid congested areas helps to even out congestion during recovery, increasing flow. Thus, clockwise loops are less likely to occur when driver adaptivity is high.