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摘要: 觸覺作為人的一種獨特的感官通道具有獨特的優勢,它不僅能最大限度的貼合人體的生理構造,傳遞硬度、大小、紋理、形狀、溫度等視聽覺無法傳遞的信息,而且擁有快速準確的特性,觸覺不僅可以實現全方位的感知,而且能夠有效感知一些很難被視覺或聽覺形式表達的更真實復雜的信息,和外界環境進行一系列的交互。振動觸覺編碼的設計是開發觸覺的一個重要途徑,也是未來人機交互的一種重要手段。本文從振動觸覺感知機理入手,討論了不同振動參數的振動觸覺分辨率和振動信息編碼理論,并按照方向導航和文字交互的應用對振動信息編碼進行歸納總結,介紹了振動信息編碼的實驗手段和結論,最后展望了振動信息編碼領域未來的發展前景。Abstract: In recent years, with the progress and development of science and technology, the research on artificial intelligence and wearable devices continues to develop, and researchers increasingly find ways to provide a kind of more comfortable and comprehensive user experience. Auditory and visual technologies have been fully developed and utilized, while as an emerging field, tactile sense is a research direction with great potential. As a type of unique human sensory channel, tactile sense has unique advantages. It can convey information about maximum joints in physiological structure of human body, such as hardness, texture, shape, size, and temperature, which cannot be transmitted by visual and auditory senses. Additionally, the tactile sense is fast and accurate, thus, it performs well in some special situations, such as supergravity scenarios, high-speed rotating scenarios, or very noisy environments. The design of vibrational tactile coding is an important way to develop tactile devices and achieve a better human computer interaction. Haptic coding has several defects. It is used in narrow application scenes and conveys unclear meaning. Compared with the mature development of vision and hearing, it is necessary to further design the vibration haptic coding patterns to overcome these defects. Research on information transmission of tactile sense is very meaningful, for example, it offers convenience for special groups such as people with visual impairment or workers engaged in their education. It provides a navigation service for visually impaired people by changing the vibration frequency and vibration intensity of a blind vest. When hearing or vision is impaired, the tactile sense is a considerate way to provide timely and accurate information assistance to the special groups. Besides, tactile sense can help express the flight attitude information in virtue of combined vibration tactile coding. However, these studies aimed at providing a set of specific coding for a specific scenario in which relatively vague pieces of information were conveyed, such as emotion and direction Based on these studies, designing a set of universal coding patterns for most usage scenarios to deliver exact and accessible information is essential. This paper discussed the resolution of tactile vibration based on the mechanism of tactile vibration perception. According to the application of directional navigation and text interaction, the vibration information coding was summarized and the experimental methods and conclusions of vibration information coding were introduced. Moreover, the prospect of the vibration information coding field was proposed.
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表 1 四種觸覺感受器的特性
Table 1. Characteristics of four tactile receptors
Receptor Signal type Perceived frequency/Hz Perceived distance/mm Pattern Acception field size Ruffini Deep skin 0?30 3?4 Fast Large Merkel Continuous touch and pressure 0?15 >10 Low Small Meissner Texture change 50 3?4 Fast Small Pacinian High-frequency vibration 200?300 >20 Low Large 
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