Ratio scaling was used to obtain from 5 subjects estimates of the subjective dissimilarity between the members of all possible pairs of 17 tactile surfaces. The stimuli were a diverse array of everyday surfaces, such as corduroy, sandpaper, and synthetic fur. The results were analyzed using the multidimensional scaling (MDS) program ALSCAL. There was substantial, but not complete, agreement across subjects in the spatial arrangement of perceived textures. Scree plots and multivariate analysis suggested that, for some subjects, a two-dimensional space was the optimal MDS solution, whereas for other subjects, a three-dimensional space was indicated. Subsequent to their dissimilarity scaling, subjects rated each stimulus on each of five adjective scales. Consistent with earlier research, two of these (rough/smooth and soft/hard) were robustly related to the space for all subjects. A third scale, sticky/slippery, was more variably related to the dissimilarity data: regressed into three-dimensional MDS space, it was angled steeply into the third dimension only for subjects whose scree plots favored a nonplanar solution. We conclude that the sticky/slippery dimension is perceptually weighted less than the rough/smooth and soft/hard dimensions, materially contributing to the structure of perceptual space only in some individuals.In touch, as in other sensory modalities, stimuli can differ in a large number of physical properties. For example, the surfaces ofobjects presented to the sense of touch can differ from one another in their frictional resistance to lateral movement of a finger across them, in their compressibility in response to radial force, their thermal conductivity, and in the presence, density, size, composition, and arrangement of structural elements that disturb the flatness of the surface. Considerable research documents the close relationship between these properties and subjective qualities such as roughness, softness, and slipperiness (Connor, Hsiao, Phillips, & Johnson, 1990;Connor & Johnson, 1992;Katz, 1925Katz, /1989Lederman & Taylor, 1972;Srinivasan & LaMotte, 1996;Srinivasan, Whitehouse, & LaMotte, 1990;S. S. Stevens & Harris, 1962;Taylor & Lederman, 1975). When an overall impression of such a stimulus is obtained in a relatively brief exposure, it is reasonable to ask (I) which and how many of its properties enter into this impression, and how fully they are combined, and (2) how the stimuli seem to the subject to be related to one another-for example, whether they are arranged in an orderly dimensional structure (analogous, e.g., to color space) defined by the subjective dimensions corresponding to their component properties.
