Technion-Israel Institute of Technology, Haifa, Haifa 32000, Israel.
Hum Factors. 2013 Aug;55(4):830-40. doi: 10.1177/0018720812472503.
In this study, we explored the time course of haptic stiffness discrimination learning and how it was affected by two experimental factors, the addition of visual information and/or knowledge of results (KR) during training.
Stiffness perception may integrate both haptic and visual modalities. However, in many tasks, the visual field is typically occluded, forcing stiffness perception to be dependent exclusively on haptic information. No studies to date addressed the time course of haptic stiffness perceptual learning.
Using a virtual environment (VE) haptic interface and a two-alternative forced-choice discrimination task, the haptic stiffness discrimination ability of 48 participants was tested across 2 days. Each day included two haptic test blocks separated by a training block Additional visual information and/or KR were manipulated between participants during training blocks.
Practice repetitions alone induced significant improvement in haptic stiffness discrimination. Between days, accuracy was slightly improved, but decision time performance was deteriorated. The addition of visual information and/or KR had only temporary effects on decision time, without affecting the time course of haptic discrimination learning.
Learning in haptic stiffness discrimination appears to evolve through at least two distinctive phases: A single training session resulted in both immediate and latent learning. This learning was not affected by the training manipulations inspected.
Training skills in VE in spaced sessions can be beneficial for tasks in which haptic perception is critical, such as surgery procedures, when the visual field is occluded. However, training protocols for such tasks should account for low impact of multisensory information and KR.
在这项研究中,我们探讨了触觉刚度辨别学习的时程,以及两种实验因素(训练时添加视觉信息和/或结果知识)如何影响它。
刚度感知可能整合触觉和视觉两种模态。然而,在许多任务中,视野通常被遮挡,迫使刚度感知完全依赖于触觉信息。迄今为止,尚无研究探讨触觉刚度知觉学习的时程。
使用虚拟现实(VE)触觉界面和二选一强制选择辨别任务,48 名参与者在 2 天内测试了触觉刚度辨别能力。每天包括两个触觉测试块,由训练块隔开。在训练块中,通过参与者之间的操作来控制额外的视觉信息和/或结果知识。
仅练习重复就会引起触觉刚度辨别能力的显著提高。在两天之间,准确性略有提高,但决策时间表现恶化。添加视觉信息和/或 KR 仅对决策时间产生暂时影响,而不影响触觉辨别学习的时程。
触觉刚度辨别学习似乎经历了至少两个不同的阶段:单次训练会导致即时和潜在学习。这种学习不受检查的训练操作的影响。
在间隔的训练课程中在 VE 中训练技能可能对触觉感知至关重要的任务有益,例如手术程序,当视野被遮挡时。然而,此类任务的培训方案应考虑到多感觉信息和 KR 的低影响。
