Road traffic crash trends at uncontrolled locations in Jaffna district (2014–2024): a pre-, during-, and post-covid-19 perspective with evidence-based engineering countermeasures

dc.contributor.authorSujivan, J
dc.contributor.authorDias, I
dc.date.accessioned2026-07-15T03:36:50Z
dc.date.issued2026
dc.description.abstractRoad traffic crashes remain a critical public health concern in Sri Lanka, with Jaffna District facing elevated risk driven by rapid post-conflict motorization and an ageing road network lacking adequate traffic control infrastructure. This study analyses 5,642 police-recorded crashes at uncontrolled locations in Jaffna District over a ten-year period (2014–2024), structured across three phases: Pre-COVID-19 (2014–2019), During COVID-19 (2020–2021), and Post-COVID-19 (2022–2024). A mixed methodology combining Equivalent Property Damage Only (EPDO) crash severity analysis, QGIS-based kernel density blackspot mapping, and systematic field intersection inventories were employed. A total of 3,398 crashes at uncontrolled locations were analyzed, and 22 blackspot junctions were confirmed across four priority road corridors: A009, AB016, AB018, and AB020. The pre-COVID-19 baseline annual EPDO averaged 2,223, declining to 1,725 during COVID-19, and partially recovering to 1,651 post-pandemic. The study found that 68.2% of crashes occurred at uncontrolled T-junctions and four-leg cross junctions, with angles, head-on, rear-end, sideswipe, and single-vehicle collisions accounting for over 85% of events. Field inventories revealed consistent deficiencies including absent road markings, insufficient sight distances, and no advance warning signs. Eight evidence-based engineering countermeasures are proposed — including stop sign packages for T-junction blackspots and mini roundabouts for four-leg junctions. International evidence indicates these measures could achieve a 40–75% reduction in fatal and serious injury crashes, supporting Sri Lanka's National Road Master Plan (2021–2030) and UN SDG 3.6.
dc.identifier.conferenceTransport Research Forum 2026
dc.identifier.departmentDepartment of Civil Engineering
dc.identifier.doihttps://doi.org/10.31705/TRF.2026.16
dc.identifier.facultyEngineering
dc.identifier.issn3084-8148
dc.identifier.pgnospp. 61-65
dc.identifier.placeMoratuwa, Sri Lanka
dc.identifier.proceedingProceedings of the 19th Transport Research Forum 2026
dc.identifier.urihttps://dl.lib.uom.lk/handle/123/25358
dc.language.isoen
dc.publisherTransportation Engineering Division, Department of Civil Engineering
dc.subjectROAD TRAFFIC CRASHES
dc.subjectUNCONTROLLED INTERSECTIONS
dc.subjectBLACKSPOT IDENTIFICATION
dc.subjectCOVID-19 IMPACT
dc.subjectENGINEERING COUNTERMEASURES
dc.titleRoad traffic crash trends at uncontrolled locations in Jaffna district (2014–2024): a pre-, during-, and post-covid-19 perspective with evidence-based engineering countermeasures
dc.typeConference-Full-text

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