This paper presents a review of acoustic waves applied to wearable device applications.
The Wearable Devices Market is described to provide insight into the future relevance of wearable devices. Recently published proposals for gesture recognition, Haptics and Intra-body Communications based on the use of acoustic waves are discussed to highlight the potentials and research opportunities that offer the acoustic waves into
wearable devices.

Mitra, S., & Acharya, T. (2007). Gesture recognition: A survey. Systems, Man, and Cybernetics, Part C: Applications and Reviews, IEEE Transactions on,37(3), 311-324.

David MacQueen. Executive Director, Apps and Media Research “Wearable device Ecosystem (WDE)”. October 2013.

Shane Walker. Associate Director, Medical Devices & Healthcare IT. IHS Electronics & Media. “Wearable Technology – Market Assessment.” An HIS Whitepaper. September 2013.

Zhang, Yang. Vision-based hand gesture recognition. Diss. Department of Computing, The Hong Kong Polytechnic University, 2011. Billinghurst, Mark, and Thad Starner. "Wearable devices: new ways to manage information." Computer 32.1 (1999): 57-64.

Brashear, H., Starner, T., Lukowicz, P., & Junker, H. "Using multiple sensors for mobile sign language recognition." In Proc. Int. Symp. Wearable Computers, pp. 45-52, Oct. 2003.

Harrison, C., Tan, D., & Morris, D. (2010, April). Skinput: appropriating the body as an input surface. In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems (pp. 453-462). ACM.

Santagati, G. E., Melodia, T., Galluccio, L., & Palazzo, S. (2013). Ultrasonic networking for E-health applications. Wireless Communications, IEEE, 20(4).

Galluccio, L., Melodia, T., Palazzo, S., & Santagati, G. E. (2012, January). Challenges and implications of using ultrasonic communications in intra-body area networks. In Wireless On-demand Network Systems and Services (WONS), 2012 9th Annual Conference on (pp. 182-189). IEEE.

Zhong, L., El-Daye, D., Kaufman, B., Tobaoda, N., Mohamed, T., & Liebschner, M. (2007, June). OsteoConduct: Wireless body-area communication based on bone conduction. In Proceedings of the ICST 2nd international conference on Body area networks (p. 9). ICST (Institute for Computer Sciences, Social-Informatics and Telecommunications Engineering).

Takasaki, M., Nara, T., Tachi, S., & Higuchi, T. (2000). A tactile display using surface acoustic wave. In Robot and Human Interactive Communication, 2000. RO-MAN 2000. Proceedings. 9th IEEE International Workshop on (pp. 364-367). IEEE.

Ninu, A., Dosen, S., Farina, D., Rattay, F., & Dietl, H. (2013, January). A novel wearable vibro-tactile haptic device. In Consumer Electronics (ICCE), 2013 IEEE International Conference on (pp. 51-52). IEEE.

http://www.ted.com/speakers/neil_harbisson Consulted in June 19 2014.

Seim, C. E., Quigley, D., & Starner, T. E. (2014, April). Passive haptic learning of typing skills facilitated by wearable computers. In CHI'14 Extended Abstracts on Human Factors in Computing Systems (pp. 2203-2208). ACM