Abstract
Humans can haptically discriminate surface textures when there is a significant difference in the statistics of the surface profile. Previous studies on tactile texture discrimination have emphasized the perceptual effects of lower-order statistical features such as carving depth, inter-ridge distance, and anisotropy, which can be characterized by local amplitude spectra or spatial-frequency/orientation subband histograms. However, the real-world surfaces we encounter in everyday life also differ in the higher-order statistics, such as statistics about correlations of nearby spatial-frequencies/orientations. For another modality, vision, the human brain has the ability to use the textural differences in both higher- and lower-order image statistics. In this work, we examined whether the haptic texture perception can use higher-order surface statistics as visual texture perception does, by three-dimensional (3-D)-printing textured surfaces transcribed from different "photos" of natural scenes such as stones and leaves. Even though the maximum carving depth was well above the haptic detection threshold, some texture pairs were hard to discriminate. Specifically, those texture pairs with similar amplitude spectra were difficult to discriminate, which suggests that the lower-order statistics have the dominant effect on tactile texture discrimination. To directly test the poor sensitivity of the tactile texture perception to higher-order surface statistics, we matched the lower-order statistics across different textures using a texture synthesis algorithm and found that haptic discrimination of the matched textures was nearly impossible unless the stimuli contained salient local features. We found no evidence for the ability of the human tactile system to use higher-order surface statistics for texture discrimination.NEW & NOTEWORTHY Humans can discriminate subtle spatial patterns differences in the surrounding world through their hands, but the underlying computation remains poorly understood. Here, we 3-D-printed textured surfaces and analyzed the tactile discrimination performance regarding the sensitivity to surface statistics. The results suggest that observers have sensitivity to lower-order statistics whereas not to higher-order statistics. That is, touch differs from vision not only in spatiotemporal resolution but also in (in)sensitivity to high-level surface statistics.
Highlights
Most objects in the world are covered by surfaces with a variety of textures
The main question of this study was whether the human tactile mechanism has sensitivity to higher-order statistics in addition to lower-order statistics
We directly examined whether human observers could detect differences in the higher-order texture statistics of 3-D-printed stimuli whose height patterns were manipulated with regard to image statistics
Summary
Most objects in the world are covered by surfaces with a variety of textures. By sensing surface textures, we, and many other animals, are able to specify distinct surface areas, identify materials, and estimate surface conditions. Touch and vision are the two main sensory modalities contributing to surface texture perception from statistical spatial patterns. Researchers have revealed a detailed hierarchical processing of image features for visual texture perception, which for haptic texture perception remains obscure. We analyze tactile texture processing by referring to recent computational theories of visual texture perception. Several studies have highlighted the quantitative differences in the ability to access various spatial properties between touch and vision Vision is good at detecting geometric patterns such as texture boundaries [2, 4], whereas touch can detect invisibly small surface texture properties [5,6,7,8,9]. In a slight departure from these approaches, here we focused on the qualitative
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