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NTIS 바로가기EURASIP journal on audio, speech, and music processing, v.2015, 2015년, pp.10 -
Cho, Kiho , Choi, Jae , Kim, Nam Soo
AbstractAcoustic data transmission (ADT) forms a branch of the audio data hiding techniques with its capability of communicating data in short-range aerial space between a loudspeaker and a microphone. In this paper, we propose an acoustic data transmission system extending our previous studies and ...
Multimedia IEEE Trans. Y Nakashima 11 3 443 2009 10.1109/TMM.2009.2012938 Y Nakashima, R Tachibana, N Babaguchi, Watermarked movie soundtrack finds the position of the camcorder in a theater. Multimedia IEEE Trans. 11(3), 443-454 (2009).
Multimedia IEEE Trans. N Lazic 8 5 918 2006 10.1109/TMM.2006.879880 N Lazic, P Aarabi, Communication over an acoustic channel using data hiding techniques. Multimedia IEEE Trans. 8(5), 918-924 (2006).
CV Lopes, PMQ Aguiar, in Applications of Signal Processing to Audio and Acoustics, 2001 IEEE Workshop On. Aerial acoustic communications (New Paltz, NY, USA, 2001), pp. 219-222.
Jpn. J. Appl. Phys. K Mizutani 46 7B 4541 2007 10.1143/JJAP.46.4541 K Mizutani, N Wakatsuki, K Mizutani, Acoustic communication in air using differential biphase shift keying with influence of impulse response and background noise. Jpn. J. Appl. Phys. 46(7B), 4541-4544 (2007).
Vis. Comput. H Matsuoka 25 1 3 2008 10.1007/s00371-008-0281-5 H Matsuoka, Y Nakashima, T Yoshimura, Acoustic OFDM system and its extension. Vis. Comput. 25(1), 3-12 (2008).
Signal Process. Lett. IEEE HS Yun 17 1 67 2010 10.1109/LSP.2009.2032751 HS Yun, K Cho, NS Kim, Acoustic data transmission based on modulated complex lapped transform. Signal Process. Lett. IEEE. 17(1), 67-70 (2010).
Signal Process. Lett. IEEE K Cho 17 7 679 2010 10.1109/LSP.2010.2051174 K Cho, HS Yun, NS Kim, Robust data hiding for MCLT based acoustic data transmission. Signal Process. Lett. IEEE. 17(7), 679-682 (2010).
Trans. Inform. Syst. IEICE HS Yun E95-D 5 1523 2012 10.1587/transinf.E95.D.1523 HS Yun, K Cho, NS Kim, Spectral magnitude adjustment for MCLT-based acoustic data transmission. Trans. Inform. Syst. IEICE. E95-D(5), 1523-1526 (2012).
10.1109/IIH-MSP.2012.35 K Cho, J Choi, YG Jin, NS Kim, in Intelligent Information Hiding and Multimedia Signal Processing (IIH-MSP), 2012. IEEE International Conference On. Quality enhancement of audio watermarking for data transmission in aerial space based on segmental SNR adjustment (Piraeus, Greece, 2012), pp. 122-125.
Signal Process. Lett. IEEE HS Malvar 10 1 8 2003 10.1109/LSP.2002.806700 HS Malvar, Fast algorithm for the modulated complex lapped transform. Signal Process. Lett. IEEE. 10(1), 8-10 (2003).
J. Signal Process. Syst. JJ Garcia-Hernandez 64 3 457 2011 10.1007/s11265-010-0503-8 JJ Garcia-Hernandez, C Feregrino-Uribe, R Cumplido, C Reta, On the implementation of a hardware architecture for an audio data hiding system. J. Signal Process. Syst. 64(3), 457-468 (2011).
International Standard ISO/IEC 11172-3 (MPEG), Information technology - coding of moving pictures and associated audio for digital storage media up to about 1.5 mbit/s. Part 3: Audio (1993).
P Hoeher, S Kaiser, P Robertson, in Acoustics, Speech, and Signal Processing (ICASSP), 1997. IEEE International Conference On. Two-dimensional pilot-symbol-aided channel estimation by Wiener filtering (Munich, Germany, 1997), pp. 1845-1848.
J. Acoustics Soc. Am. MR Schroeder 37 3 409 1965 10.1121/1.1909343 MR Schroeder, New method of measuring reverberation time. J. Acoustics Soc. Am. 37(3), 409-412 (1965).
Appl. Acoustics SG McGovern 70 1 182 2009 10.1016/j.apacoust.2008.02.003 SG McGovern, Fast image method for impulse response calculations of box-shaped rooms. Appl. Acoustics. 70(1), 182-189 (2009).
P Kabal, An examination and interpretation of ITU-R BS. 1387: perceptual evaluation of audio quality. TSP Lab Technical Report, Dept. Electrical & Computer Engineering, McGill University (2002).
Speech Commun. KK Paliwal 45 1 153 2005 10.1016/j.specom.2004.08.001 KK Paliwal, LD Alsteris, On the usefulness of STFT phase spectrum in human listening tests. Speech Commun. 45(1), 153-170 (2005).
BCJ Moore, An Introduction to the Psychology of Hearing 6th edn. (BRILL, Leiden, Netherlands, 2012).
Signal Process. IEEE Trans. D Kirovski 51 4 1020 2003 10.1109/TSP.2003.809384 D Kirovski, HS Malvar, Spread-spectrum watermarking of audio signals. Signal Process. IEEE Trans. 51(4), 1020-1033 (2003).
ITU-R Recommendation BS. 1534, Method for the Subjective Assessment of Intermediate Sound Quality (MUSHRA) (2003).
CH Chung, SH Cho, S Kang, YW Lee, in Personal, Indoor and Mobile Radio Communications IEEE International Symposium On. Performance of convolutional coded and uncoded DS/CDMA system in Nakagami fading channels (Toronto, Canada, 1995), pp. 502-506.
Fundamentals, IEICE Trans. BS Ko E87-A 6 1647 2004 BS Ko, R Nishimura, Y Suzuki, Robust Watermarking based on time-spread echo method with subband decomposition. Fundamentals, IEICE Trans.E87-A(6), 1647-1650 (2004).
Multimedia IEEE Trans. Y Xiang 13 1 2 2011 10.1109/TMM.2010.2080668 Y Xiang, D Peng, I Natgunanathan, W Zhou, Effective Pseudonoise Sequence and decoding function for imperceptibility and robustness enhancement in time-spread echo-based audio watermarking. Multimedia IEEE Trans. 13(1), 2-13 (2011).
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