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Real World Data. Bringing Facts to the Fight. What W e Know. Quads versatile vehicles that get used outside their design parameters. There is considerable variation of opinion about safety, with a paucity of fact. We need to be able to support anecdotal evidence with quantitative data.
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Real World Data Bringing Facts to the Fight
What We Know • Quads versatile vehicles that get used outside their design parameters. • There is considerable variation of opinion about safety, with a paucity of fact. • We need to be able to support anecdotal evidence with quantitative data.
What We Know • High frequency of LCE – consistent > 50% farm workers have experienced. • “A total of 79 of the 130 farmers studied had experienced at least one rollover or loss-of-control event while riding a quad bike.”Source: University of Otago: Ergonomics: April 2010
Landcorp Farming Ltd • 137 Farms covering 376,942 hectares with 600 permanent on-farm staff • Over 400 quads (excludes LUVs) • Representative quad (sheep and beef) average over winter / spring • 30.57 km per day • 2.82 hrs per day • Since 1 Jan 2009 • 1 death • 8 serious harm • 30 injury • 96 near miss • Damage to quads shows around 40 roll-overs per year (not all reported) • In-house testing showed current usage has risks, especially when using trailed implements • Several farms choose not to use quads • Corporate decision not to use on 13 new dairy farms • Looking for a more viable vehicle mix (2 wheels, small tractors, LUV) • Trialling Lifeguard RoP
What ACC Did • Prompted by arguments around injury prevention • Three part research design • Literature Review • Natural Experiment • Instrumentation Data
Quad bike project • Three phase research commissioned by ACC Research • Phase one: Review of literature and previous research evidence for the effectiveness of rollover protection (ROP) measures completed by Frith (2012) • Phase two: “Natural experiment” using harm and near miss event reporting data and qualitative interviews • Phase three: Development of a GPS-based data recorder to examine the situations quad bike riders are exposed to.
No Surprises • The literature review showed: • Serious injury occurs in only a very small fraction of Quad Bike incidents. • Around a fifth of Quadbikes are equipped with some sort of ROPS • Around two thirds of Quad Bike deaths involve victim contact with the Quad Bike • There is little knowledge as to how many of the deaths involved bikes equipped with ROPS or if equipped, what type of ROPS was involved. • The literature directly related to Quad Bike roll-over is sparse, perhaps showing that the evidence base is weak. • ROPS computer-simulations have been carried out basically because epidemiological data on the incidence of ROPS involvement in injury on farms, or indeed elsewhere, is very sparse and thus retrospective epidemiological studies have been of limited value.
Quad bike project • Three phase research commissioned by ACC Research • Phase one: Review of literature and previous research evidence for the effectiveness of rollover protection (ROP) measures completed by Frith (2012) • Phase two: “Natural experiment” using harm and near miss event reporting data and qualitative interviews • Phase three: Development of a GPS-based data recorder to examine the situations quad bike riders are exposed to.
Method • Coded and analysed all incident reports from 2005-2012 from GWRC and Landcorp (N=71) • Follow up interviews with random sample of staff who: • Had reported a near miss or harm event in the prior 5 years (N=22) • Had not reported any near miss or harm events in the prior 5 years (N=5) • Small sample size • Findings should be treated with caution as small sample size • Particularly small numbers of accounts with ROP fitted
Characteristics of events Interviewees estimated they have reported around 1 in 3 of the near misses they have had on quad bikes
Injury factors • More likely to be injured if • Heavier weight on the quad bike at the time • The quad bike rolled • Injury most commonly caused by the bike rolling over the rider, pinning the rider or landing on the rider (72.2% of reports, 41.7% interviews). • Rider experience was a factor: • Low or medium experience were more likely to end in personal harm • High experience more likely to end in near miss
Factors not related to injury • Vehicle speed • Weather conditions • Rider activity • Presence of passengers • Fatigue
Factors related to rollover • Only environmental factor related to likelihood of rollover was the gradient of the terrain
Effect of rollover protection • Few cases of events with ROP fitted • Some suggestion property damage more common when fitted • Could be due to a reduction in severity of event from personal harm to property damage • Presence did not affect whether quad rolled • Evidence against theory those with ROP negatively compensating by riding with less caution
Rider beliefs and rollover protection • Of those who rolled their bikes without ROP, 50% believed ROP would have improved the outcome, 5.6% believed it would have been detrimental • “I don’t really know if rollover protection would have done anything as a hard bar might have done more damage to me…” • Riders were more likely to believe ROP would have helped if they rolled the bike (p<.05) • Those who had it fitted also liked ROP, and typically saw it as a “back-up”
Rider beliefs and quad safety • Strong belief that rider experience can correct for a lot of quad bike danger (e.g. active riding). • 76.9% of participants considered themselves highly experienced riders • Training perceived as a waste of time as courses focus on flat land. Perception of need to match training to actual work. • Strong belief that the risk can never be eliminated – farming is risky “Minimise the risk as much as you want but you won’t eliminate it. Riding quads is no more risky than other farm work.”
Quad bike project – GPS Study • Three phase research commissioned by ACC Research • Phase one: Review of literature and previous research evidence for the effectiveness of rollover protection (ROP) measures completed by Frith (2012) • Phase two: “Natural experiment” using harm and near miss event reporting data and qualitative interviews • Phase three: Development of a GPS-based data recorder to examine the situations quad bike riders are exposed to.
Quad bike project • Quad bikes fitted with an Altitude and Heading Reference System (AHRS) and data logger collecting:
The device • Unit comprised of • GPS Receiver • CH Robotics UM6 AHRS • SD Card Data logger • Weather tight housing • Powered from quad bike • Begins recording data when ignition turned on.
Self-report • Data was validated by self-report measures
Overall exposure and “event” data • Aim to create overall measures of exposure to: • Pitch or roll • Speed • Also measures of time spent riding, and distances travelled • Ability to proactively examine roll and speed “near miss” event detection
Preliminary findings - Speed • 66% of time with engine idling (less than 1kph) • Less than 5% of time exposed to speeds over 30kph
Preliminary findings - Roll • About 0.2% of time above 30 degrees • About 0.7% of time above 25 degrees
Roll example (White Rock Rd) Key • Green marker < 20 degrees • Yellow marker 20-30 degrees • Red marker > 30 degrees
Speed example (White Rock Rd) Key • Green marker < 20 kph • Yellow marker 20-30 kph • Red marker > 30 kph
Conclusion • As more studies are being done, we are starting to see a convergence of results between experimental and natural data, but we need more... • The more matched quantitative and qualitative data we can collect, the more we will understand the causes of the incidents and the appropriate counter-measures.
Next steps • Looking to combine the interview and instrumentation studies together in future work • ACC looking to partner with other organisations to extend this work and build evidence base • Opportunities for further research and possible commercialisation