Vibro-Perception of Optical Bio-Inspired Fiber-Skin

Abstract: In this research, based on the principle of optical interferometry, the Mach-Zehnder and Optical Phase-locked Loop (OPLL) vibro-perception systems of bio-inspired fiber-skin are designed to mimic the tactile perception of human skin. The fiber-skin is made of the optical fiber embedded in the silicone elastomer. The optical fiber is an instinctive and alternative sensor for tactile perception with high sensitivity and reliability, also low cost and susceptibility to the magnetic interference. The silicone elas… Show more

“…In addition to the exterior, the skin’s interior structure was also used as inspiration, particularly the tactile receptors, which were imitated to augment the skin-type tactile sensor [16]. Many tactile sensors mimicked the papilla directly beneath the skin’s epidermis, in order to detect changes in an object’s surface shape [17,18]; the distribution of sensory receptors in detecting pressure, temperature [19], vibration, and sliding [20]; and the nerves connecting the skin to the central nervous system in the signal processing systems [21].…”

Tooth-Inspired Tactile Sensor for Detection of Multidirectional Force

“…In addition to the exterior, the skin’s interior structure was also used as inspiration, particularly the tactile receptors, which were imitated to augment the skin-type tactile sensor [16]. Many tactile sensors mimicked the papilla directly beneath the skin’s epidermis, in order to detect changes in an object’s surface shape [17,18]; the distribution of sensory receptors in detecting pressure, temperature [19], vibration, and sliding [20]; and the nerves connecting the skin to the central nervous system in the signal processing systems [21].…”

Tooth-Inspired Tactile Sensor for Detection of Multidirectional Force

A water-retaining, self-healing hydrogel as ionic skin with a highly pressure sensitive properties

Recent progress of optical tactile sensors: A review