Litcius/Paper detail

Hand explorations are determined by the characteristics of the perceptual space of real-world materials from silk to sand

Dicle N. Dövencioğlu, F. Seyhun Üstün, Katja Doerschner, Knut Drewing

2022Scientific Reports17 citationsDOIOpen Access PDF

Abstract

Perceiving mechanical properties of objects, i.e., how they react to physical forces, is a crucial ability in many aspects of life, from choosing an avocado to picking your clothes. There is, a wide variety of materials that differ substantially in their mechanical properties. For example, both, silk and sand deform and change shape in response to exploration forces, but each does so in very different ways. Studies show that the haptic perceptual space has multiple dimensions corresponding to the physical properties of textures, however in these experiments the range of materials or exploratory movements were restricted. Here we investigate the perceptual dimensionality in a large set of real materials in a free haptic exploration task. Thirty-two participants actively explored deformable and non-deformable materials with their hands and rated them on several attributes. Using the semantic differential technique, video analysis and linear classification, we found four haptic dimensions, each associated with a distinct set of hand and finger movements during active exploration. Taken together our findings suggest that the physical, particularly the mechanical, properties of a material systematically affect how it is explored on a much more fine-grained level than originally thought.

Topics & Concepts

Haptic technologySet (abstract data type)PerceptionCurse of dimensionalityComputer scienceMotion (physics)Space (punctuation)Task (project management)ClothingVariety (cybernetics)Artificial intelligenceHuman–computer interactionPsychologyEngineeringArchaeologyOperating systemSystems engineeringProgramming languageNeuroscienceHistoryTactile and Sensory InteractionsMultisensory perception and integrationMotor Control and Adaptation