In Doğanköy, traffic rhythm changes sharply at two specific times: 07.30–08.30 and 12.30–14.00. These windows align with activity around Doğanköy Primary School.

The exposure is not speed.
It is density compression within short vertical segments.

Doğanköy’s internal roads are not fully flat. Several feeder lanes descend slightly toward the school zone before flattening near the entrance. During pickup and drop-off periods, vehicles approach from both uphill and lower corridors simultaneously.

The geometry creates a funnel.

Morning sequence example:

At 07.55, vehicles descend from upper residential lanes toward the school frontage. Parents slow gradually, scanning for parking gaps. Behind them, through-traffic attempting to cross the village encounters sudden deceleration.

Unlike dedicated school zones with wide bays, Doğanköy frontage includes mixed-use roadside space. Vehicles often pause partially within the active lane while children exit.

At the same time, vehicles climbing from the lower corridor must maintain throttle to manage incline restart if forced to stop mid-slope.

Compression forms at the transition point between incline and flat.

The risk is not high-speed collision. It is:

• Short following distance

• Lateral squeeze between parked vehicles

• Pedestrian unpredictability

• Restart hesitation on incline

Afternoon release amplifies unpredictability.

Between 12.45 and 13.30, students exit in clusters rather than steady flow. Vehicles line both sides of the approach lane. Through-traffic attempts to pass through narrowed corridor.

A typical 13.05 scenario:

One vehicle double-stops briefly to collect a child. A second vehicle waits behind. An uphill car approaches from below. Pedestrians cross between parked cars.

Because the approach includes slight slope, braking and restart timing overlap with pedestrian movement.

The zone functions as temporary urban density inserted into village-scale road width.

Another layer involves impatience gradient.

Drivers not connected to school activity may attempt to bypass stationary vehicles using center-lane positioning. On narrow segments, this forces opposing traffic closer to curb edge.

Doğanköy differs from Bellapais and Çatalköy because its exposure is temporal density, not architectural concealment.

The road is physically adequate most of the day.

During school windows, geometry remains constant but behavior density multiplies.

Flat-to-slope transition makes this more sensitive.

If vehicles stop slightly uphill of the flat frontage, restart rollback risk appears. If they stop slightly downhill, braking compression appears.

In transitional villages, school zones temporarily override normal flow hierarchy.

In Doğanköy, two daily windows convert feeder lanes into density funnels.