Abstract
This paper presents two kinds of novel haptic mouse systems as new human computer interfaces, which have a force and tactile feedback capability. The first one can reflect 1 dof grabbing force as well as 2 dof translation force. Five-bar mechanism has been adapted to realize the 2 dof translation force feedback, and double prismatic joint mechanism has been used to implement the grabbing force feedback. This system helps the user to feel grabbing force, contact force and weight while picking up and moving an object in virtual environment. The second system can simulate the surface roughness as well as contact force. This system consists of two parts: a 2 DOF force fee dback device for kinesthetic display and a tactile feedback unit for displaying the normal stimulation to the skin and the skin stretch. The proposed systems are expected to be used as new human computer interfaces by presenting rea listic haptic interaction in ecommerce or VR environment.
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References
Akamatsu, M.: Movement Characteristics Using a Mouse with Tactile and Force Feedback. International Journal of Human-Computer Studies 45, 483–493 (1996)
Akamatsu, M., Sato, S.: A Multi-modal Mouse with Tactile and Force Feedback. International Journal of Human-Computer Studies 40, 443–453 (1994)
Asamura, N., Yokomu, N., Shinoda, H.: Selectively Stimulating Skin Receptors for Tactile Display. IEEE Computer Graphics and Applications, 32–37 (1998)
Budea, G.C.: Force and Touch Feedback for Virtual Reality. John Wiley & Sons, New York (1996)
Burdea, G.C.: Haptic Issues in Virtual Environment. In: IEEE Proceeding of Computer Graphics International, pp. 295–302 (2000)
Essick, G.K.: Factors Affecting Direction Discrimination of Moving Tactile Stimuli. In: Morley, J.W. (ed.) Neural Aspect of Tactile Sensation, pp. 1–54. Elsevier Science, B.V. (1998)
Hayward, V., Cruz-Hernandez, M.: Tactile Display Device Using Distributed Lateral Skin Stretch. In: Proc. ASME, vol. DSC-69-2, pp. 1309–1314 (2000)
Ikei, Y., Yamada, M., Fukuda, S.: A New Design of Haptic Texture Display-Texture Display-and Its Preliminary Evaluation. In: Proc. IEEE Virtual Reality Conf., pp. 21–22 (2001)
Immersion Corporation, http://www.immersion.com
Johansson, R.S., Vallbo, A.B.: Tactile Sensibility in the Human Hand: Relative and Absolute Densities of Four Types of Mechanoreceptive Units in Glabrous Skin. Journal of Physiology 286, 283–300 (1979)
Johnson, K.O.: The Roles and Functions of Cutaneous Mechanoreceptors. Current Opinion in Neurobiology 11, 455–461 (2001)
Kelley, A.J., Salcudean, S.: On the Development of a Force-feedback Mouse and its Integration into a Graphical User Interface. ASME Dynamic Systems and Control 1 DSC-(55-1), 287–294 (1994)
Kruger, L.: Pain and Touch. Academic Press, San Diego (1996)
Kyung, K.U., Son, S.W., Kwon, D.S., Kim, M.: Design of an Integrated Tactile Display System. In: IEEE International Conference on Robotics and Automation, pp. 776–781 (2004)
Lederman, S.J.: The Perception of Surface Roughness by Active and Passive Touch. Bulletin of the Psychonomic Society 18, 253–255 (1981)
Morley, J.W. (ed.): Neural Aspects in Tactile Sensation. Elsevier Science, B.V. (1998)
SensAble Technologies, Inc., http://www.sensable.com
Srinivasan, M.A.: Surface Deflection of Primate Fingertip under Line Load. Journal of Biomechanics 22(4), 343–349 (1989)
Technology Review. MIT’s Magazine of Innovation (March 2002)
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Kyung, KU., Choi, H., Kwon, DS., Son, SW. (2004). Interactive Mouse Systems Providing Haptic Feedback During the Exploration in Virtual Environment. In: Aykanat, C., Dayar, T., Körpeoğlu, İ. (eds) Computer and Information Sciences - ISCIS 2004. ISCIS 2004. Lecture Notes in Computer Science, vol 3280. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-30182-0_15
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DOI: https://doi.org/10.1007/978-3-540-30182-0_15
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