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FlexHaptics: A Design Method for Passive Haptic Inputs Using Planar Compliant Structures

Hongnan Lin, Liang He, Fangli Song, Yifan Li, Tingyu Cheng, Clement Zheng, Wei Wang, Hyunjoo Oh

2022CHI Conference on Human Factors in Computing Systems17 citationsDOIOpen Access PDF

Abstract

This paper presents FlexHaptics, a design method for creating custom haptic input interfaces. Our approach leverages planar compliant structures whose force-deformation relationship can be altered by adjusting the geometries. Embedded with such structures, a FlexHaptics module exerts a fine-tunable haptic effect (i.e., resistance, detent, or bounce) along a movement path (i.e., linear, rotary, or ortho-planar). These modules can work separately or combine into an interface with complex movement paths and haptic effects. To enable the parametric design of FlexHaptic modules, we provide a design editor that converts user-specified haptic properties into underlying mechanical structures of haptic modules. We validate our approach and demonstrate the potential of FlexHaptic modules through six application examples, including a slider control for a painting application and a piano keyboard interface on touchscreens, a tactile low vision timer, VR game controllers, and a compound input device of a joystick and a two-step button.

Topics & Concepts

Haptic technologyJoystickComputer scienceInterface (matter)PlanarParametric statisticsSimulationComputer graphics (images)Parallel computingMathematicsStatisticsMaximum bubble pressure methodBubbleTactile and Sensory InteractionsTeleoperation and Haptic SystemsInteractive and Immersive Displays
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