1 |
원광연, 정보과학회지 15(11), 5 (1997).
|
2 |
A. Lecuyer, S. Coquillart, A. Kheddar, P. Richard, and P. Coiffet, Pseudo-haptic feedback : Canisometric input devices simulate force feedback?. Proceedings of IEEE VR 2000, 83 (2000).
|
3 |
S. Hwang, J. Song, J. Gim, and J, HarmoniousHaptics : Enhanced Tactile Feedback Using aMobile and a Wearable Device. Proceedings ofACM CHI 2016, 295 (2015).
|
4 |
정다영, 웨어러블기기를 이용한 다중감각미디어의 진동효과 분석, 석사학위논문 (2016).
|
5 |
E. Surnma et. al, Making Small Spaces Feel Large, SIGGRAPH Emerging Tech (2015).
|
6 |
M. Azmandian, M. Hancock, H. Benko, E. Ofek, and A.D. Wilson. Haptic Retargeting : DynamicRepurposing of Passive Haptics for EnhancedVirtual Reality Experiences. Proceedings of ACMCHI 2016, 1968 (2016).
|
7 |
P. Issartel, F. Gueniat, S. Coquillart, and M. Ammi, Perceiving mass in mixed reality throughpseudo-haptic rendering of Newton's third law. In IEEE Virtual Reality 2015, 41 (2015).
|
8 |
남혜정, 색상과 문자 정보를 이용한 가상 중량 인지 효과, 석사학위논문 (2017).
|
9 |
K. Kilteni, R. Groten, and M. Slater, The senseof embodiment in virtual reality. Presence :Teleopemtors and Virtual Environments 21, 373(2012).
DOI
|
10 |
D. Hoffman, A. Girshick, K. Akeley, and M. Banks, Journal of Vision 8(33) (2008).
|
11 |
C. Cao, Z. Ren, C. Schissler, D. Manocha and K. Zhou, Interactive Sound Propagation withBidirectional Path Tracing, ACM Transactions onGraphics, (2016).
|
12 |
L. Rincon-Gonzalez, J. P. Warren, D. M. Mellerand S. Helms Tillery, “Haptic Interaction ofTouch and Proprioception : Implications forNeuroprosthetics," IEEE Transactions on NeuralSystems and Rehabilitation Engineering 19, 490, (2011).
DOI
|