驾驶半盲:三、模拟环境下对静止和靠近的行人的检测。
Driving with hemianopia: III. Detection of stationary and approaching pedestrians in a simulator.
机构信息
Schepens Eye Research Institute, Massachusetts Eye and Ear, Department of Ophthalmology, Harvard Medical School, Boston, Massachusetts.
出版信息
Invest Ophthalmol Vis Sci. 2014 Jan 20;55(1):368-74. doi: 10.1167/iovs.13-12737.
PURPOSE
To compare blind-side detection performance of drivers with homonymous hemianopia (HH) for stationary and approaching pedestrians, initially appearing at small (4°) or large (14°) eccentricities in a driving simulator. While the stationary pedestrians did not represent an imminent threat, as their eccentricity increased rapidly as the vehicle advanced, the approaching pedestrians maintained a collision course with approximately constant eccentricity, walking or running, toward the travel lane as if to cross.
METHODS
Twelve participants with complete HH and without spatial neglect pressed the horn whenever they detected a pedestrian while driving along predetermined routes in two driving simulator sessions. Miss rates and reaction times were analyzed for 52 stationary and 52 approaching pedestrians.
RESULTS
Miss rates were higher and reaction times longer on the blind than the seeing side (P < 0.01). On the blind side, miss rates were lower for approaching than stationary pedestrians (16% vs. 29%, P = 0.01), especially at larger eccentricities (20% vs. 54%, P = 0.005), but reaction times for approaching pedestrians were longer (1.72 vs. 1.41 seconds; P = 0.03). Overall, the proportion of potential blind-side collisions (missed and late responses) was not different for the two paradigms (41% vs. 35%, P = 0.48), and significantly higher than for the seeing side (3%, P = 0.002).
CONCLUSIONS
In a realistic pedestrian detection task, drivers with HH exhibited significant blind-side detection deficits. Even when approaching pedestrians were detected, responses were often too late to avoid a potential collision.
目的
比较同形同侧偏盲(HH)患者对固定和靠近行人的盲测表现,这些行人在驾驶模拟器中最初出现在小(4°)或大(14°)的偏侧位置。虽然固定行人不会构成紧迫的威胁,因为他们的偏侧位置随着车辆的前进会迅速增加,但靠近行人会以大约恒定的偏侧位置保持与车辆的碰撞轨迹,无论他们是行走还是奔跑,都像是要穿过车道。
方法
12 名完全 HH 且无空间忽略的参与者在两次驾驶模拟器会议中,沿着预定路线驾驶时,每当检测到行人时就按喇叭。分析了 52 名固定和 52 名靠近行人的错误率和反应时间。
结果
在盲侧的错误率更高,反应时间更长(P<0.01)。在盲侧,靠近行人的错误率低于固定行人(16%比 29%,P=0.01),尤其是在更大的偏侧位置(20%比 54%,P=0.005),但靠近行人的反应时间更长(1.72 秒比 1.41 秒;P=0.03)。总的来说,两种范式的潜在盲测碰撞比例(错过和延迟反应)没有差异(41%比 35%,P=0.48),显著高于看到侧(3%,P=0.002)。
结论
在现实的行人检测任务中,HH 患者表现出明显的盲侧检测缺陷。即使检测到靠近的行人,反应也往往太晚,无法避免潜在的碰撞。
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