지원사업
학술연구/단체지원/교육 등 연구자 활동을 지속하도록 DBpia가 지원하고 있어요.
커뮤니티
연구자들이 자신의 연구와 전문성을 널리 알리고, 새로운 협력의 기회를 만들 수 있는 네트워킹 공간이에요.
논문 기본 정보
- 자료유형
- 학술대회자료
- 저자정보
- 발행연도
- 2010.10
- 수록면
- 282 - 285 (4page)
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초록· 키워드
오류제보하기
In recent years, haptic feedback has been widely used in various devices, including mobile phone, PDA, game controllers, and medical instruments. Current researches of haptic feedbacks could be divided into 2 main groups. The first group of researches consists of developing a detailed, near realistic haptic feedback, which is usually targeted for medical applications or virtual reality. The other group consists of developing a simple yet low-cost haptic display for interactivity or game support purposes. In the later group, although reasonably cost-effective, its haptic sensation has not fully utilizes human physiological abilities, especially in terms of sensing the physical properties of the materials.
Furthermore, recent development of haptic technology suggests a new method of displaying haptic sensation using surface actuation technology. Using this method, any complex artificial haptic stimuli could be generated, thus enabling full utilization of mechanoreceptor capabilities. We consider that the application of haptic feedback and its design will be more important in the future.
In this paper, we propose a guideline of haptic feedback design. We started to build the model by conducting a physical and psychological classification and analysis on touch perception. Psychological test is done using Semantic Differential Method and 13 Japanese Onomatopoeia were selected as adjectives. Using multivariate statistical analysis, we classified the psychological touch properties into 3 main parameters, i.e. roughness, softness, and stickiness and conducted confirmatory analysis with the physical properties. Statistical tests confirmed the correlation between physiological and physical properties, i.e. roughness with Standard Mean Surface Difference (SMD) expressed in ㎛; softness with material compliance, expressed in ㎛/gf; stickiness with coefficient of friction (MIU), a dimensionless constant.
The statistical correlation suggests the validity of the psychological-physical model. Furthermore, the model could be applied on any haptic device, such as vibrotactile actuator or surface actuation technology, as the guideline in designing frequency modulation based haptic feedback.
Furthermore, recent development of haptic technology suggests a new method of displaying haptic sensation using surface actuation technology. Using this method, any complex artificial haptic stimuli could be generated, thus enabling full utilization of mechanoreceptor capabilities. We consider that the application of haptic feedback and its design will be more important in the future.
In this paper, we propose a guideline of haptic feedback design. We started to build the model by conducting a physical and psychological classification and analysis on touch perception. Psychological test is done using Semantic Differential Method and 13 Japanese Onomatopoeia were selected as adjectives. Using multivariate statistical analysis, we classified the psychological touch properties into 3 main parameters, i.e. roughness, softness, and stickiness and conducted confirmatory analysis with the physical properties. Statistical tests confirmed the correlation between physiological and physical properties, i.e. roughness with Standard Mean Surface Difference (SMD) expressed in ㎛; softness with material compliance, expressed in ㎛/gf; stickiness with coefficient of friction (MIU), a dimensionless constant.
The statistical correlation suggests the validity of the psychological-physical model. Furthermore, the model could be applied on any haptic device, such as vibrotactile actuator or surface actuation technology, as the guideline in designing frequency modulation based haptic feedback.
목차
ABSTRACT
INTRODUCTION
RELATED WORKS
RESEARCH OBJECTIVE
RESEARCH METHOD
RESULTS AND DISCUSSION
FUTURE WORK
References
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UCI(KEPA) : I410-ECN-0101-2012-658-004015993