Acknowledgement
이 성과는 정부(과학기술정보통신부)의 재원으로 한국연구재단의 지원을 받아 수행된 연구임(No.2023R1A2C1004216 / No.2023R1A2C1005471). Hoon Kim is supported by the Brain Korea 21 Four Project and the National Research Foundation of Korea (NRF) funded by the Korean government (MSIT) (2022M3C1A309202212).
References
- Association of Research on Medical Instrumentation Engineering (2002). 의용계측공학 [Medical instrumentation engineering]. Seoul: Yoemingak, 189-196, 322-323.
- Beck, A. T., Epstein, N., Brown, G., & Steer, R. (1988). Beck Anxiety Inventory [Database record]. APA PsycTests. DOI: 10.1037/t02025-000
- Cha, W. Y., Shin, D. K., & Shin, D. I. (2010). Analysis and comparison of the emotion recognition by multiple bio-signal. Proceedings of the Korea Computer Science Conference, 37(1), 104-105.
- Chon, K. H., Oh, J. Y., Park, S. H., Jeong Y. M., & Yang, D. I. (2010). A study on algorithm of emotion analysis using EEG and HRV, Journal of Korean Society of Computer Information, 15(10), 105-112. Retrieved from https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART001490108 108
- Dillard, J., & Anderson, J. (2004). The role of fear in persuasion. Psychology & Marketing, 21(11), 909-926. https://doi.org/10.1002/mar.20041
- Agrafioti, F., Hatzinakos, D., Anderson, A. K. (2012). ECG pattern analysis for emotion detection, IEEE Transactions on Affective Computing, 3(1), 102-115. DOI: 10.1109/T-AFFC.2011.28
- Gabriel, S., Lau, R. W., & Gabriel, C. (1996). The dielectric properties of biological tissues: III. Parametric models for the dielectric spectrum of tissues. Physics in Medicine & Biology, 41(11), 2271-2293. Retrieved from https://iopscience.iop.org/article/10.1088/0031-9155/41/11/003/pdf
- Gi, S. O., Lee, Y. J., Koo, H. R., Khang, S, A., Park, H. J., Kim, K. S., Lee, J. H., & Lee, J. W. (2013). An analysis on the effect of the shape features of the textile electrode on the non-contact type of sensing of cardiac activity based on the magnetic-induced conductivity principle, The Transactions of the Korean Institute of Electrical Engineers, 62(6), 803-810. DOI: 10.5370/KIEE.2013.62.6.803
- Gi, S. O., Lee, Y. J., Koo, H. R., Khang, S. A., Kim, K. N., Kang, S. J., Lee, J. H., & Lee, J. W. (2015). Application of a textile-based inductive sensor for the vital sign monitoring. Journal of Electrical Engineering & Technology, 10(1), 364-371. DOI: 10.5370/JEET.2015.10.1.364
- Gi, S. O., Lee, Y. J., Koo, H. R., Lee, S. P., Lee, K. H., Kim, K. N., Kang, S. J., Lee, J. H., & Lee, J. W. (2015). The effect of electrode designs based on the anatomical heart location for the non- contact heart activity measurement, Journal of Medical Systems, 39, 191, Published online: 21 October 2015. DOI: 10.1007/s10916-015-0339-7
- Jang, E. H., Eum, Y. J., Kim, S. H., & Sohn, J. H. (2011). Discrimination of three emotions using parameters of autonomic nervous system responses, Proceedings of the ergonomics society of Korea, 369-363.
- Vedru, J., Gordon, R., Humal, L. H., & Trolla, J. (2011). Modeling of an inductive sensor of the Foucault cardiogram, Estonian Journal of Engineering, 17(3), 252-270. DOI: 10.3176/eng.2011.3.06.
- Kim, J. H., & Andre, E. (2008). Emotion recognition based on physiological changes in music listening, IEEE Transactions on Pattern Analysis and Machine Intelligence, 30(12), 2067-2083. DOI: 10.1109/TPAMI.2008.26
- Koo, H. R., Lee, Y. J., Gi, S. O., Khang, S. A., Lee, J. H., Lee, J. H., Lim, M. G., Park, H. J., & Lee, J. W. (2014). The effect of textile-based inductive coil sensor positions for heart rate monitoring. Journal of Medical Systems, 38, 2, Published online: 31 January 2014. DOI: 10.1007/s10916-013-0002-0
- Koo, H. R., Lee, Y. J., Gi, S. O., Lee, S. P., Kim, K. N., Kang, S. J., Lee, J. W., & Lee, J. H. (2015). Effect of module design for a garment-type heart activity monitoring wearable system based on non-contact type sensing, Journal of the Korean Society of Clothing and Textiles, 39(3), 369-378. DOI: 10.5850/JKSCT.2015.39.3.369
- Koo, H. R., Lee, J. W., & Lee, J. H. (2018). Garment function module to reduce motion artifacts in heart-activity-sensing clothing based on a magnetic-induced conductivity sensing method. Textile Research Journal, 88(19), 2190-2205. DOI: 10.1177/0040517517716909
- Lee, K. H. (1998). Human sensibility and emotion in sensibility ergonomics. Science of Emotion & Sensibility, 1(1), 113-122. Retrieved from https://koreascience.kr/article/JAKO199811919737953.page
- Lee, J. E., & Yoo, S. K. (2013). The design of feature selection classifier based on physiological signal for emotion detection, Journal of The Institute of Electronics Engineers of Korea, 50(11), 2910-2920. DOI: 10.5573/ieek.2013.50.11.206
- Li, M., & Lu, B. L. (2009). Emotion classification based on gamma-band EEG, 31th Annual International Conference of the IEEE EMBS, 1323-1326, Minnesota, USA, Sep., 2009.
- Murugappan, M., Ramachandran, N., & Sazali, Y. (2010). Classification of human emotion from EEG using discrete wavelet transform, Journal of Biomedical Science and Engineering, 3(4), 390-396. DOI: 10.4236/jbise.2010.34054
- Nabi, R. L. (2002). The theoretical versus the lay meaning of disgust: Implications for emotion research. Cognition & Emotion, 16(5), 695-703. DOI: 10.1080/02699930143000437
- Park, B. J., Jang, E. H., Chung, M. A., Kim, S. H., & Sohn, J. H. (2012). Emotion classification using physiological signals. Proceedings of the Ergonomics Society of Korea, 370-374.
- Park, J. Y., Park, J. H., Park, J. H., & Park, D. S. (2003). Measurement of human sensibility by bio-signal analysis. Proceedings of the Korean Society of Mechanical Engineers, 935-939.
- Steffen, M., Aleksandrowicz, A., & Leonhardt, S. (2007). Mobile noncontact monitoring of heart and lung activity. Biomedical Circuits and Systems, IEEE Transactions on, 1(4), 250-257. DOI: 10.1109/TBCAS.2008.915633
- Whang, M. C., & Park, S. I. (2014). Brain-heart neural connectivity and emotion, Journal of the Architectural Institute of Korea, 58(9), 59-62.