Biomedical Engineering Reference
In-Depth Information
3. Albinsson PA, Zhai S (2003) High precision touch screen interaction. In: Proceedings of the
SIGCHI conference on human factors in computing systems. ACM, pp 105-112
4. Augsten T, Kaefer K, Meusel R, Fetzer C, Kanitz D, Stoff T, Becker T, Holz C, Baudisch P
(2010) Multitoe: high-precision interaction with back-projected floors based on high-resolution
multi-touch input. In: Proceedings of the 23nd annual ACM symposium on user interface
software and technology. ACM, pp 209-218
5. Begg RK, Palaniswami M, Owen B (2005) Support vector machines for automated gait clas-
sification. IEEE Trans Biomed Eng 52(5):828-838
6. Benko H, Wilson AD, Baudisch P (2006) Precise selection techniques for multi-touch screens.
In: Proceedings of the SIGCHI conference on human factors in computing systems. ACM, pp
1263-1272
7. Bicchi A, Salisbury JK, Brock DL (1993) Contact sensing from force measurements. Int J of
Robot Res 12(3):249
8. Bruder G, Steinicke F, Hinrichs KH (2009) Arch-explore: a natural user interface for immersive
architectural walkthroughs. In: Proceedings of IEEE symposium on 3D user interfaces, 3DUI
2009. IEEE, pp 75-82
9. Chang S, Ham S, Kim S, Suh D, Kim H (2010) Ubi-floor: design and pilot implementation
of an interactive floor system. In: Proceedings of 2nd international conference on intelligent
human-machine systems and cybernetics (IHMSC), 2010, vol 2. IEEE, pp 290-293
10. Fassbender E, Richards D (2008) Using a dance pad to navigate through the virtual heritage
environment of macquarie lighthouse, Sydney. In: Virtual systems and multimedia, Springer,
pp 1-12
11. FernströmM, Griffith N (1998) Litefoot-auditory display of footwork. In: Proceeding of ICAD,
vol 98
12. Gronboek K, Iversen OS, Kortbek KJ, Nielsen KR, Aagaard L (2007) Interactive floor support
for kinesthetic interaction in children learning environments. Lect Notes Comput Sci 4663:361
13. Headon R, Curwen R (2001) Recognizing movements from the ground reaction force. In:
Proceedings of the workshop on perceptive user, interfaces
14. Headon R, Curwen R (2002) Movement awareness for ubiquitous game control. Pers Ubiqui-
tous Comput 6(5):407-415
15. Hoffmann ER (1991) A comparison of hand and foot movement times. Ergonomics 34(4):397
16. Hollerbach J (2008) Locomotion interfaces and rendering. In: Lin M, Otaduy M (eds) Haptic
rendering: foundations, algorithms and applications. A K Peters, Ltd., 2008
17. Holzreiter SH, Köhle ME (1993) Assessment of gait patterns using neural networks. J Biomech
26(6):645-651
18. Jacko JA, Sears A (2003) The human-computer interaction handbook: fundamentals, evolving
technologies, and emerging applications. Lawrence Erlbaum Assoc Inc, Mahwah
19. LaViola JJ Jr, Feliz DA, Keefe DF, Zeleznik RC (2001) Hands-free multi-scale navigation
in virtual environments. In: Proceedings of the 2001 symposium on interactive 3D graphics.
ACM, New York, NY, USA, pp 9-15
20. MacEachren AM, Cai G, Sharma R, Rauschert I, Brewer I, Bolelli L, Shaparenko B, Fuhrmann
S, Wang H (2005) Enabling collaborative geoinformation access and decision-making through
a natural, multimodal interface. Int J Geogr Inf Sci 19(3):293-317
21. MacKenzie IS (1992) Fitts' law as a research and design tool in human-computer interaction.
Hum Comput Interact 7(1):91-139
22. Mostayed A, Mynuddin M, Mazumder G, Kim S, Park S (2008) Abnormal gait detection using
Discrete Fourier Transform. In: MUE, pp 36-40
23. Pakkanen T, Raisamo R (2004) Appropriateness of foot interaction for non-accurate spatial
tasks. In: CHI '04: CHI '04 extended abstracts on human factors in computing systems. ACM,
New York, NY, USA, pp 1123-1126
24. Paradiso J, Abler C, Hsiao KY, Reynolds M (1997) The magic carpet: physical sensing for
immersive environments. In: ACM CHI extended abstracts. ACM, New York, NY, USA, pp
277-278
