Plewan Thorsten, Rinkenauer Gerhard
Department of Ergonomics, Leibniz Research Centre for Working Environment and Human Factors (IfADo) Dortmund, Germany.
Front Psychol. 2016 Dec 15;7:1939. doi: 10.3389/fpsyg.2016.01939. eCollection 2016.
Reaction time (RT) can strongly be influenced by a number of stimulus properties. For instance, there was converging evidence that perceived size rather than physical (i.e., retinal) size constitutes a major determinant of RT. However, this view has recently been challenged since within a virtual three-dimensional (3D) environment retinal size modulation failed to influence RT. In order to further investigate this issue in the present experiments response force (RF) was recorded as a supplemental measure of response activation in simple reaction tasks. In two separate experiments participants' task was to react as fast as possible to the occurrence of a target located close to the observer or farther away while the offset between target locations was increased from Experiment 1 to Experiment 2. At the same time perceived target size (by varying the retinal size across depth planes) and target type (sphere vs. soccer ball) were modulated. Both experiments revealed faster and more forceful reactions when targets were presented closer to the observers. Perceived size and target type barely affected RT and RF in Experiment 1 but differentially affected both variables in Experiment 2. Thus, the present findings emphasize the usefulness of RF as a supplement to conventional RT measurement. On a behavioral level the results confirm that (at least) within virtual 3D space perceived object size neither strongly influences RT nor RF. Rather the relative position within egocentric (body-centered) space presumably indicates an object's behavioral relevance and consequently constitutes an important modulator of visual processing.
反应时间(RT)会受到多种刺激属性的强烈影响。例如,有越来越多的证据表明,感知大小而非物理(即视网膜)大小是反应时间的主要决定因素。然而,最近这一观点受到了挑战,因为在虚拟三维(3D)环境中,视网膜大小调制未能影响反应时间。为了在本实验中进一步研究这个问题,记录了反应力(RF),作为简单反应任务中反应激活的补充测量指标。在两个独立的实验中,参与者的任务是对靠近观察者或远离观察者的目标出现尽快做出反应,同时目标位置之间的偏移量从实验1到实验2逐渐增加。与此同时,感知目标大小(通过在深度平面上改变视网膜大小)和目标类型(球体与足球)也进行了调制。两个实验均显示,当目标呈现得更靠近观察者时,反应更快且更有力。在实验1中,感知大小和目标类型对反应时间和反应力几乎没有影响,但在实验2中对这两个变量产生了不同的影响。因此,本研究结果强调了反应力作为传统反应时间测量补充的有用性。在行为层面上,结果证实(至少)在虚拟3D空间中,感知物体大小既不会强烈影响反应时间也不会影响反应力。相反,以自我为中心(身体中心)空间内的相对位置可能表明物体的行为相关性,因此构成了视觉处理的重要调节因素。
