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Are Olfactory Images Sensory in Nature?

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We investigated the features of olfactory mental images by comparing odour images with perceptual and semantic representations. Participants who were assigned to three groups made similarity judgments about 17 common odours by smelling odours, imagining odours, or on the basis of the meaning of odour source names. In the smelling group, every pair of odours was compared. In the imagining group, imagined odours were compared twice, both before and after associative learning of the odour/name combinations. In the meaning group, the odour source names were compared in terms of general word meanings. Nonmetric multidimensional scaling analysis was applied to each group of similarity data and three-dimensional sensory, mental, and semantic spaces were composed. 17 elements in the mental and semantic spaces were super-imposed onto the sensory space by Procrustes rotation. We found that the averaged distances of the 17 elements between the sensory and the mental spaces (either before or after learning) were smaller than those between the sensory and semantic spaces. We suggest that odour images have sensory features, especially after associative learning between perceived odours and their names.

SAGE Publications

Haruko Sugiyama Saho Ayabe-Kanamura Tadashi Kikuchi

Title: Are Olfactory Images Sensory in Nature?

Description:

We investigated the features of olfactory mental images by comparing odour images with perceptual and semantic representations.

Participants who were assigned to three groups made similarity judgments about 17 common odours by smelling odours, imagining odours, or on the basis of the meaning of odour source names.

In the smelling group, every pair of odours was compared.

In the imagining group, imagined odours were compared twice, both before and after associative learning of the odour/name combinations.

In the meaning group, the odour source names were compared in terms of general word meanings.

Nonmetric multidimensional scaling analysis was applied to each group of similarity data and three-dimensional sensory, mental, and semantic spaces were composed.

17 elements in the mental and semantic spaces were super-imposed onto the sensory space by Procrustes rotation.

We found that the averaged distances of the 17 elements between the sensory and the mental spaces (either before or after learning) were smaller than those between the sensory and semantic spaces.

We suggest that odour images have sensory features, especially after associative learning between perceived odours and their names.

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