Abstract
Advanced driver assistance systems (ADAS) provide warnings to drivers and, if applicable, intervene to mitigate a collision if one is imminent. Autonomous emergency brakes (AEB) and lane keep assistance (LKA) systems are mandated in several new vehicles, given their predicted injury and fatality reduction benefits. These predicted benefits are based on the assumption that roads are always entirely supportive of ADAS technologies. Little research, however, has been conducted regarding the preparedness of the road network to support these technologies in Australia, given its vastly expansive terrain and varying road quality. The objective of this study was to estimate what proportion of crashes that are sensitive to AEB and LKA, would not be mitigated due to unsupportive road infrastructure, and therefore, the lost benefits of the technologies due to inadequate road infrastructure. To do this, previously identified technology effectiveness estimates and a published methodology for identifying ADAS-supportive infrastructure availability was applied to an estimated AEB and LKA-sensitive crash subset (using crash data from Victoria, South Australia and Queensland, 2013–2018 inclusive). Findings demonstrate that while the road networks across the three states appeared largely supportive of AEB technology, the lack of delineation across arterial and sub-arterial (or equivalent) roads is likely to have serious implications on road safety, given 13–23% of all fatal and serious injury (FSI) crashes that occurred on these road classes were LKA-sensitive. Based on historical crash data, over 37 fatalities and 357 serious injuries may not be avoided annually across the three Australian states based on the lack of satisfactory road delineation on arterial and sub-arterial (or equivalent) roads alone. Further, almost 24% of fatalities in Victoria, 24% of fatalities in Queensland and 21% of fatalities in South Australia (that are AEB- or LKA-sensitive) are unlikely to be prevented, given existing road infrastructure. These figures are conservative estimates of the lost benefits of the technologies as they only consider fatal and serious injury crashes and do not include minor injury or property damage crashes, the benefits of pedestrian-sensitive AEB crashes in high-speed zones or AEB fitted to heavy vehicles. It is timely for road investments to be considered, prioritised and allocated, given the anticipated penetration of the new technologies into the fleet, to ensure that the road infrastructure is capable of supporting the upcoming fleet safety improvements.
Highlights
Licensee MDPI, Basel, Switzerland.Vehicle technology is seen as a great potential for improving road safety globally and in Australia, given that driver error is thought to be a contributing factor in over 94% of crashes [1,2]
The readiness of the roads to support Autonomous emergency brakes (AEB) and lane keep assistance (LKA) was estimated by identifying the proportion of AEB- and LKA-sensitive fatal and serious injury (FSI) crashes that are likely to occur on the roads, combined with the most recent and relevant AEB and LKA effectiveness estimates identified from the literature, applied to the historical FSI figures
In this study we quantified what proportion of the crash population that is assumed to be mitigated by AEB and LKA, will not be mitigated due to absent road infrastructure
Summary
Licensee MDPI, Basel, Switzerland.Vehicle technology is seen as a great potential for improving road safety globally and in Australia, given that driver error is thought to be a contributing factor in over 94% of crashes [1,2]. Numerous studies have estimated and reported the benefits of advanced driver assist technologies [2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23]. Independent of the methods employed by researchers to obtain effectiveness estimates of vehicle technologies, all studies assume that the road conditions on which the technologies will perform are consistently ideal.
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