[[1] I. Song, D. Dillon, T. J. Goh, and M. Sung, ”A Health Social Network Recommender System,” in Agents in Principle, Agents in Practice - 14th International Conference, PRIMA 2011, 2011, pp. 361-372.10.1007/978-3-642-25044-6_29]Search in Google Scholar
[[2] DSM-IV-TR, Diagnostic and Statistical Manual of Mental Disorders,Text Revision, 4th ed.: American Psychiatric Association, 2000.]Search in Google Scholar
[[3] I. Song and N. V. Marsh, ”Anonymous Indexing of Health Conditions for a Similarity Measure,” Information Technology in Biomedicine, IEEE Transactions on, vol. 16, pp. 737-744, 2012.10.1109/TITB.2012.219471722531815]Search in Google Scholar
[[4] C. A. Kasse, R. G. Ferri, E. Y. C. Vietler, F. D. Leonhardt, J. R. G. Testa, and O. L. M. Cruz, ”Clinical data and prognosis in 1521 cases of Bell’s palsy,” International Congress Series, vol. 1240, pp. 641-647, 2003.]Search in Google Scholar
[[5] MedicineNet.Inc.(1996).MedicineNet.com. Available: http://www.medterms.com/script/main/art.asp?articlekey=6556]Search in Google Scholar
[[6] S. Ghali, A. MacQuillan, and A. O. Grobbelaar, ”Reanimation of the middle and lower face in facial paralysis: Review of the literature and personal approach,” Journal of Plastic, Reconstructive & Aesthetic Surgery, vol. In Press, Corrected Proof, 2010.10.1016/j.bjps.2010.04.00820471341]Search in Google Scholar
[[7] A.D.A.M. Medical Encyclopedia.( 2010). Bell’s palsy. Available: http://www.ncbi.nlm.nih.gov/pubmedhealth/PMH0001777/]Search in Google Scholar
[[8] J. P. Browder, ”Facial paralysis in children,” Journal of Ear Nose Throat vol. 57, pp. 278-83, 1978.]Search in Google Scholar
[[9] J. W. House and D. E. Brackmann, ”Facial nerve grading system,” Otolaryngol Head Neck Surg, vol. 93 pp. 146-147, 1985.10.1177/0194599885093002023921901]Search in Google Scholar
[[10] J. T. Vrabec, D. D. Backous, H. R. Djalilian, P. W. Gidley, J. P. Leonetti, S. J. Marzo, et al., ”Facial Nerve Grading System 2.0,” Otolaryngology - Head and Neck Surgery, vol. 140, pp. 445-450, 2009.10.1016/j.otohns.2008.12.03119328328]Search in Google Scholar
[[11] C. Chang and C. Lin, {LIBSVM}: a library for support vector machines, 2001.]Search in Google Scholar
[[12] A. Ultsch and M. F., ”ESOM-Maps: tools for clustering, visualization, and classification with Emergent SOM,” University of Marburg Dept. of Mathematics and Computer Science, Germany 2005.]Search in Google Scholar
[[13] B. Lei, I. Song, and S. A. Rahman, ”Optimal watermarking scheme for breath sound,” in Neural Networks (IJCNN), The 2012 International Joint Conference on, 2012, pp. 1-6.10.1109/IJCNN.2012.6252586]Search in Google Scholar
[[14] J. Vong, J. Fang, and I. Song, ”Delivering financial services through mobile phone technology: a pilot study on impact of mobile money service on micro-entrepreneurs in rural Cambodia,” International Journal of Information Systems and Change Management, vol. 6, pp. 177-186, 2012.10.1504/IJISCM.2012.051152]Search in Google Scholar
[[15] D. M. Angaran, ”Telemedicine and telepharmacy: Current status and future implications,” American Journal of Health-System Pharmacy, vol. 56, pp. 1405-1426, Jul 1999.]Search in Google Scholar
[[16] D. M. Hilty, J. S. Luo, C. Morache, D. A. Marcelo, and T. S. Nesbitt, ”Telepsychiatry - An overview for psychiatrists,” Cns Drugs, vol. 16, pp. 527-548, 2002.10.2165/00023210-200216080-0000312096934]Search in Google Scholar
[[17] D. M. Hilty, S. L. Marks, D. Urness, P. M. Yellowlees, and T. S. Nesbitt, ”Clinical and educational telepsychiatry applications: A review,” Canadian Journal of Psychiatry-Revue Canadienne De Psychiatrie, vol. 49, pp. 12-23, Jan 2004.10.1177/07067437040490010314763673]Search in Google Scholar
[[18] P. Yellowlees, M. M. Burke, S. L. Marks, D. M. Hilty, and J. H. Shore, ”Emergency telepsychiatry,” Journal of Telemedicine and Telecare, vol. 14, pp. 277-281, 200810.1258/jtt.2008.08041918776070]Search in Google Scholar
[[19] R. Harrison, W. Clayton, and P. Wallace, ”Can telemedicine be used to improve communication between primary and secondary care?,” British Medical Journal, vol. 313, pp. 1377-1381, 199610.1136/bmj.313.7069.137723529028956708]Search in Google Scholar
[[20] C. A. Frantzidis, C. Bratsas, M. A. Klados, E. Konstantinidis, C. D. Lithari, A. B. Vivas, et al., ”On the Classification of Emotional Biosignals Evoked While Viewing Affective Pictures: An Integrated Data-Mining-Based Approach for Healthcare Applications,” Information Technology in Biomedicine, IEEE Transactions on, vol. 14, pp. 309-318, 201010.1109/TITB.2009.203848120064762]Search in Google Scholar
[[21] L. Tang, X. Zhou, Z. Yu, Y. Liang, D. Zhang, and H. Ni, ”MHS: A multimedia system for improving medication adherence in elderly care,” IEEE Systems Journal, vol. 5, pp. 506-517, 201110.1109/JSYST.2011.2165593]Search in Google Scholar
[[22] B. Elvevag, P. W. Foltz, M. Rosenstein, and L. E. DeLisi, ”An automated method to analyze language use in patients with schizophrenia and their first-degree relatives,” Journal of Neurolinguistics, vol. 23, pp. 270-284, 2009.10.1016/j.jneuroling.2009.05.002285021320383310]Search in Google Scholar
[[23] AD Tilaka, J Diederich, I Song, and A. Teoh, ”Automated Method for Diagnosing Speech and Language Dysfunction in Schizophrenia,” in Mental Health Informatics, I. S. Margaret Lech, Peter Yellowlees, and Joachim Diederich, Ed., ed: Springer, 2013.10.1007/978-3-642-38550-6_11]Search in Google Scholar
[[24] L. S. A. Low, N. C. Maddage, M. Lech, L. B. Sheeber, and N. B. Allen, ”Detection of clinical depression in adolescents’ speech during family interactions,” IEEE Transactions on Biomedical Engineering, vol. 58, pp. 574-586, 2011.10.1109/TBME.2010.2091640365255721075715]Search in Google Scholar
[[25] B. Lei, I. Song, and S. A. Rahman, ”Robust and secure watermarking scheme for breath sound,” Journal of Systems and Software, 2013.10.1109/IJCNN.2012.6252586]Search in Google Scholar
[[26] R. Cowie, E. Douglas-Cowie, N. Tsapatsoulis, G. Votsis, S. Kollias, W. Fellenz, et al., ”Emotion recognition in human-computer interaction,” IEEE Signal Processing Magazine, vol. 18, pp. 32-80, 2001.10.1109/79.911197]Search in Google Scholar
[[27] Y. Yacoob and L. S. Devis, ”Recognizing human facial expressions from long image sequences using optical flow,” IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 18, pp. 636-642, 1996.10.1109/34.506414]Search in Google Scholar
[[28] T. Otsuka and J. Ohya, ”Recognition of facial expressions using HMM with continuous output probabilities,” 1996, pp. 323-328.]Search in Google Scholar
[[29] M. Pantic and L. . M. Rothkrantz, ”Automatic analysis of facial expressions: The state of the art,” IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 22, pp. 1424-1445, 2000.]Search in Google Scholar
[[30] P. Ekman, E. L. Rosenberg, and M. Heller, ”What the face reveals. Basic and applied studies of spontaneous expression using the facial action coding system (FACS),” Psychotherapies, vol. 18, pp. 179-180, 1998.]Search in Google Scholar
[[31] M. F. Valstar and M. Pantic, ”Fully Automatic Recognition of the Temporal Phases of Facial Actions,” IEEE Transactions on Systems, Man, and Cybernetics, Part B: Cybernetics, 2011.10.1109/TSMCB.2011.216371021926026]Search in Google Scholar
[[32] R. T. Stone and C. S. Wei, ”Exploring the linkage between facial expression and mental workload for arithmetic tasks,” 2011, pp. 616-619.10.1177/1071181311551126]Search in Google Scholar
[[33] M. Nambu, K. Nakajima, M. Noshiro, and T. Tamura, ”An algorithm for the automatic detection of health conditions,” Engineering in Medicine and Biology Magazine, IEEE, vol. 24, pp. 38-42, 2005.10.1109/MEMB.2005.1463394]Search in Google Scholar
[[34] V. Vapnik and A. Lerner, ”Pattern Recognition using Generalized Portrait Method,” Automation and Remote Control, vol. 24, 1963.]Search in Google Scholar
[[35] B. E. Boser, I. M. Guyon, and V. N. Vapnik, ”A training algorithm for optimal margin classifiers,” in Proc. Fifth Annual Workshop on Computational Learning Theory, 1992, pp. 144-152.10.1145/130385.130401]Search in Google Scholar
[[36] C. Cortes and V. Vapnik, ”Support-vector networks,” Machine Learning, vol. 20, pp. 273-297, 1995.10.1007/BF00994018]Search in Google Scholar
[[37] C. J. C. Burges, ”A tutorial on support vector machines for pattern recognition,” Data mining and knowledge discovery, vol. 2, pp. 121-167, 1998.10.1023/A:1009715923555]Search in Google Scholar
[[38] T. Joachims, ”Text categorization with support vector machines: Learning with many relevant features,” Machine learning: ECML-98, pp. 137-142, 1998.10.1007/BFb0026683]Search in Google Scholar
[[39] J. D. M. Rennie, ”Improving multi-class text classification with naive Bayes,” Massachusetts Institute of Technology, 2001.]Search in Google Scholar
[[40] T. Kohonen, ”The self-organizing map,” Proceedings of the IEEE, vol. 78, pp. 1464-1480, 1990.]Search in Google Scholar
[[41] A. Ultsch, ”Self-organizing neural networks for visualization and classification,” 1993.10.1007/978-3-642-50974-2_31]Search in Google Scholar
[[42] A. Ultsch, ”Maps for the visualization of highdimensional data spaces,” in Proc. Workshop on Self organizing Maps, 2003, pp. 225-230.]Search in Google Scholar
[[43] A. Ultsch, U*-matrix: a tool to visualize clusters in high dimensional data: Fachbereich Mathematik und Informatik, 2003.]Search in Google Scholar
[[44] A. Ultsch, ”Clustering with SOM: U*C,” presented at the WSOM, 2005.]Search in Google Scholar
[[45] J.-J. Wong and S.-Y. Cho, ”A Support Vector Reduced Multivariate Polynomial Model for Face Emotion Recognition,” IEEE Transactions on Information Forensics and Security, 2007.]Search in Google Scholar
[[46] P. Viola and M. Jones, ”Rapid object detection using a boosted cascade of simple features,” in Computer Vision and Pattern Recognition, 2001. CVPR 2001. Proceedings of the 2001 IEEE Computer Society Conference on, 2001, pp. I-511-I-518 vol. 1.]Search in Google Scholar
[[47] Hamming and R. W., ”Error detecting and error correcting codes,” Bell System Technical Journal, vol. 29, pp. 147-160, 1950.10.1002/j.1538-7305.1950.tb00463.x]Search in Google Scholar
[[48] M. Maloof, ”Learning when data sets are imbalanced and when costs are unequal and unknown,” in Proceedings of the ICML,Workshop on Learning from Imbalanced Data Sets, 2003.]Search in Google Scholar
[[49] R. Barandela, J. S. Snchez, V. Garca, and E. Rangel, ”Strategies for learning in class imbalance problems,” Pattern Recognition, vol. 36, pp. 849-851, 2003.10.1016/S0031-3203(02)00257-1]Search in Google Scholar
