A survey of haptic rendering techniques

被引:53
作者
Laycock, S.D. [1 ]
Day, A.M. [1 ]
机构
[1] School of Computing Sciences, University of East Anglia, Norwich
来源
Computer Graphics Forum | 2007年 / 26卷 / 01期
关键词
Haptic feedback; Haptic rendering;
D O I
10.1111/j.1467-8659.2007.00945.x
中图分类号
学科分类号
摘要
Computer Graphics technologies have developed considerably over the past decades. Realistic virtual environments can be produced incorporating complex geometry for graphical objects and utilising hardware acceleration for per pixel effects. To enhance these environments, in terms of the immersive experience perceived by users, the human's sense of touch, or haptic system, can be exploited. To this end haptic feedback devices capable of exerting forces on the user are incorporated. The process of determining a reaction force for a given position of the haptic device is known as haptic rendering. For over a decade users have been able to interact with a virtual environment with a haptic device. This paper focuses on the haptic rendering algorithms which have been developed to compute forces as users manipulate the haptic device in the virtual environment. © 2007 The Eurographics Association and Blackwell Publishing Ltd.
引用
收藏
页码:50 / 65
页数:15
相关论文
共 83 条
[1]  
AGUS M., GIACHETTI A., GOBBETTI E., ZANETTI G., JOHN N.W., STONE R.J., Mastoidectomy simulation with combined visual and haptic feedback, Medicine Meets Virtual Reality 2002, pp. 17-23, (2002)
[2]  
ADAMS R., KLOWDEN D., BLAKE H., Virtual training for a manual assembly task, Haptics-e, 2, 2, (2001)
[3]  
ADACHI Y., KUMANO T., OGINO K., Intermdiate representation for stiff virtual objects, Proc. IEEE Virtual Reality Annual International Symposium, pp. 203-210, (1995)
[4]  
AVILA R., SOBIERAJSKI L., A haptic interaction method for volume visualization, Proc. of the 7th Conference on Visualisation, (1996)
[5]  
BRO-NIELSEN M., COTIN S., Real-time volumetric deformable models for surgery simulation using finite elements and condensation, Proc. of Eurographics, 15, 3, pp. 57-66, (1996)
[6]  
BATTER J., GROPE-I Jr F.B., A computer display to the sense of feel, Proc. IFIP Congress, pp. 759-763, (1971)
[7]  
BERKELEY J., GANTER M., WEGHORST S., GLADSTONE H., RAUGI G., BERG D., Banded matrix approach to finite element modeling for soft tissue simulation, Virtual Reality: Research, Development and Application, pp. 203-212, (1999)
[8]  
BERKELEY J., GANTER M., WEGHORST S., GLADSTONE H., RAUGI G., BERG D., Real-time finite element modeling with haptic support, Proc. of the ASME Design Engineering Technical Conferences, pp. 314-325, (1999)
[9]  
BASDOGAN C., HO C., SRINIVASAN M., Virtual environments for medical training: Graphical and haptic simulation of common bile duct exploration, IEEE-ASME trans. Mechatronics, 6, 3, pp. 267-285, (2001)
[10]  
BUOGUILA L., ISHII M., SATO M., Multi-modal haptic device for large-scale virtual environment, Proc. of the 8th ACM International Conference, pp. 277-283, (2000)
123456789