Browse > Article
http://dx.doi.org/10.9708/jksci.2015.20.12.083

Multi transmission method of data among near smart devices using inaudible sound and wireless network  

Chung, Myoungbeom (Division of Computer Engineering, Sungkyul University)
Abstract
In this paper, we propose a new method for multi transmission method of data among near smart devices. Existing methods require the use of an extra application service where the operating system differs between smart devices. In contrast, the proposed method makes use of the smart device's inner speaker and microphone to confirm the transmission signal. Then, real sharing data is transmitted via WiFi or LTE. Therefore, the proposed method overcomes operating system issues with existing methods. Besides, BUMP technology works in a similar way to the method we propose, it only supports one-to-one transmission. To evaluate the efficacy of the new method, we tested one-to-many data transmission in an experiment: the results showed a 96% success rate. As a result, we believe that the proposed method is an effective multi transmission method of data among near smart devices.
Keywords
Data transmission; Smart device; High frequencies; Signal processing; Check sum;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 V. Filonenko, C. Cullen, and J.D. Carswell, "Indoor positioning for smartphones using asynchronous ultrasound trilateration," ISPRS International Journal of Geo-Information, Vol. 2, No. 3, pp. 598-620, 2013.   DOI
2 P. Bihler, P. Imhoff, and A.B. Cremers, "SmartGuide-A smartphone museum guide with ultrasound control," Procedia Computer Science, Vol. 5, pp. 586-592, 2011.   DOI
3 J.B. Kim, J.E. Song, and M.K. Lee, "Authentication of a smart phone user using audio frequency analysis," Journal of the Korea Institute of Information Security and Cryptology, Vol. 22, No. 2, pp. 327-336, 2012.
4 M.B. Chung and H.S. Choo, "Near wireless-control technology between smart devices using inaudible high-frequencies," Multimedia Tools and Applications, Vol. 74, No. 15, pp. 5955-5971, 2015.   DOI
5 R.J.I. Marks, "Advanced topics in Shannon sampling and interpolation theory," Springer Science & Business Media, 2012.
6 E. Bidet, D. Castelain, C. Joanblanq, and P. Senn, "A fast single-chip implementation of 8192 complex point FFT," IEEE Journal of Solid-State Circuits, Vol. 30, No. 3, pp. 300-305, 1995.   DOI
7 R.M. Jiang, "An area-efficient FFT architecture for OFDM digital video broadcasting," IEEE Transactions on Consumer Electronics, Vol. 53, No. 4, pp. 1322-1326, 2007.   DOI
8 H. Yoon, Y. Zheng, X. Xie, and W. Woo, "Smart itinerary recommendation based on user-generated GPS trajectories," In Ubiquitous Intelligence and Computing, pp. 19-34, Springer Berlin Heidelberg, 2010.
9 H. Monson, H, "Bluetooth technology and implications," SysOpt, December 1999.
10 C. Gomez, J. Oller, and J. Paradells, "Overview and evaluation of bluetooth low energy: An emerging low-power wireless technology," Sensors, Vol. 12, No. 9, pp. 11734-11753, 2012.   DOI
11 Z. Antoniou and S. Varadan, "Intuitive mobile user interaction in smart spaces via NFC-enhanced devices," In Proceedings of the 3rd International Conference on Wireless and Mobile Communications, IEEE, pp. 86-86, Guadeloupe, March 2007.
12 S.C. Alliance, "Proximity mobile payments: Leveraging NFC and the contactless financial payments infrastructure," Smart Card Alliance, September 2007.
13 C. Christina, "The team behind Bump aims to crack photo sharing on smart phones," Fast Company, http://www.fastcodesign.com/1670380/the-team-behind-bump-aims-to-crack-photo-sharing-on-smart-phones
14 M. Roland, "Software card emulation in NFC-enabled mobile phones: great advantage or security nightmare," In Proceedings of the 4th International Workshop on Security and Privacy in Spontaneous Interaction and Mobile Phone Use, Newcastle, UK, June 2012.
15 C. Eunjeong, "Kakaotalk, a mobile social platform pioneer," SERI Quarterly, Vol. 6, No. 1, pp. 63-69, 2013.
16 K. Church and R. Oliveira, "What's up with whatsapp?: comparing mobile instant messaging behaviors with traditional SMS," In Proceedings of the 15th International Conference on Human-computer Interaction with Mobile Devices and Services, pp. 352-361, Munich, Germany, August 2013.
17 Bump-api-ios, https://github.com/bumptech/bump-api-ios
18 H. Matsuoka, Y. Nakashima, and T. Yoshimura, "Acoustic OFDM system and performance analysis," IEICE Transactions on Fundamentals of Electronics, Communications and Computer Sciences, Vol. 91, No. 7, pp. 1652-1658, 2008.   DOI
19 N. Cvejic, "Digital audio watermarking techniques and technologies: applications and benchmarks: applications and benchmarks," IGI Global.
20 J.S. Noh and K.H. Rhee, "High quality audio watermarking using spread spectrum and psychoacsoutic model," The Institute of Electronics of Engineers of Korea Signal Processing, Vol. 43, No. 5, pp. 48-56, 2006.
21 Y. Suzuki, R. Nishimura, and H. Tao, "Audio watermark enhanced by LDPC coding for air transmission," In Proceedings of International Conference on Intelligent Information Hiding and Multimedia Signal Processing, pp. 23-26, Pasadena, USA, December 2006.