Abstract
The most important thing in a thin and soft haptic module with an electroactive polymer actuator array is to increase its vibrotactile amplitude and to create a variety of vibrotactile sensations. In this paper, we introduce a thin film-type electroactive polymer actuator array capable of stimulating two types of human mechanoreceptors simultaneously, and we present a haptic rendering method that maximizes the actuators’ vibrational force without improving the array’s haptic performance. The increase in vibrational amplitude of the soft electroactive polymer actuator array is achieved by creating a beat vibration, which is an interference pattern of two vibrations with slightly different frequencies. The textures of a target object are translated into haptic stimuli using the proposed method. We conducted qualitative and quantitative experiments to evaluate the performance of the proposed rendering method. The results showed that this method not only amplifies the vibration’s amplitude but also haptically simulates various objects’ surfaces.
Highlights
IntroductionFlexible and rollable displays have been developed and commercialized as consumer electronics (such as televisions and cell phones) in recent years
Flexible and rollable displays have been developed and commercialized as consumer electronics in recent years
It is not easy to apply these actuators to flexible mobile consumer electronic devices
Summary
Flexible and rollable displays have been developed and commercialized as consumer electronics (such as televisions and cell phones) in recent years. A flexible and rollable mobile device is one of the most promising avenues of consumer electronics. To satisfy this demand, many efforts have been made to develop essential flexible electronics, such as flexible displays, electrodes, sensors, and batteries [1,2,3,4,5]. It is not easy to apply these actuators to flexible mobile consumer electronic devices. To overcome these problems, many researchers have developed flexible vibrotactile actuators using an electroactive polymer (EAP) [10,11,12,13,14,15,16,17,18,19,20]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
