Grandy Mathew S, Westwood David A
School of Health and Human Performance, Dalhousie University, 6230 South St., Halifax, Nova Scotia B3H 3J5, Canada.
J Neurophysiol. 2006 Jun;95(6):3887-92. doi: 10.1152/jn.00851.2005. Epub 2006 Apr 26.
The perceptual size-weight illusion (SWI) occurs when two different-sized objects with equal mass are lifted in sequence: the smaller object is consistently reported to feel heavier than the larger object even after repeated lifting attempts. Here we explored the relationship between sensorimotor and perceptual responses to a SWI in which the smaller of the two target objects in fact weighed slightly less (2.7 N) than the larger object (3.2 N). For 20 consecutive lifts, participants consistently reported that the small-light object felt heavier than the large-heavy object; however, concurrently measured lifting dynamics showed exactly the opposite pattern: peak grip force, peak grip force rate, peak load force, and peak load force rate were all significantly greater for the large-heavy object versus the small-light object. The difference in peak load rate between the two objects was greatest for the initial lift but decreased significantly beyond that point, suggesting that the sensorimotor system used sensory feedback to correct for initial over- and underestimations of object mass. Despite these adjustments to lifting dynamics over the early trials, the difference between the judged heaviness of the two objects did not change. The findings clearly demonstrate that the sensorimotor and perceptual systems utilize distinctly different mechanisms for determining object mass.
当依次提起两个质量相等但大小不同的物体时,就会出现感知大小-重量错觉(SWI):即使经过多次提起尝试,较小的物体仍始终被报告感觉比大的物体更重。在这里,我们探究了感觉运动和对一种SWI的感知反应之间的关系,在这种SWI中,两个目标物体中较小的那个实际上比大的物体(3.2牛)略轻(2.7牛)。在连续20次提起过程中,参与者始终报告小而轻的物体感觉比大而重的物体更重;然而,同时测量的提起动力学显示出完全相反的模式:大而重的物体相对于小而轻的物体,其峰值握力、峰值握力率、峰值负载力和峰值负载力率都显著更大。两个物体之间的峰值负载率差异在首次提起时最大,但在那之后显著减小,这表明感觉运动系统利用感觉反馈来纠正对物体质量的初始高估和低估。尽管在早期试验中对提起动力学进行了这些调整,但两个物体在判断重量上的差异并没有改变。这些发现清楚地表明,感觉运动和感知系统利用截然不同的机制来确定物体质量。
