[1]
|
Adams, R. G., Bahr, G. S., & Moreno, B. (2008). Brain computer interfaces: Psychology and pragmatic perspectives for the future. Proceedings of the AISB 2008 Symposium on Brain Computer Interfaces and Human Computer Interaction: A Convergence of Ideas, 5, 1-6.
|
[2]
|
Allen, J. J. B., Coan, J. A., & Nazarian, M. (2004). Issues and assumptions on the road from raw signals to metrics of frontal EEG asymmetry in emotion. Biological Psychology, 67, 183-218.
doi:10.1016/j.biopsycho.2004.03.007
|
[3]
|
Allen, J. J. B., Harmon-Jones, E., & Cavender, J. H. (2001) Manipulation of frontal EEG asymmetry through biofeedback alters self-reported emotional responses and facial EMG. Psychophysiology, 38, 685-693. doi:10.1111/1469-8986.3840685
|
[4]
|
Allen, J. J. B., Urry, H. L., Hitt, S. K., & Coan, J. A. (2004). The stability of resting frontal electroencephalographic asymmetry in depression. Psychophysiology, 41, 269-280.
doi:10.1111/j.1469-8986.2003.00149.x
|
[5]
|
Ariely, D., & Berns, G. S. (2010). Neuromarketing: The hope and hype of neuroimaging in business. Nature Reviews Neuroscience, 11, 284-292. doi:10.1038/nrn2795
|
[6]
|
Baehr, E., Rosenfeld, J. P., & Baehr, R. (1997). The clinical use of an alpha asymmetry protocol in the neurofeedback treatment of depression. Journal of Neurotherapy: Investigations in Neuromodulation, Neurofeedback and Applied Neuroscience, 2, 10-23.
|
[7]
|
Baehr, E., Rosenfeld, J. P., & Baehr, R. (2001). Clinical use of an alpha asymmetry neurofeedback protocol in the treatment of mood disorders: Follow-up study one to five years post therapy. Journal of Neurtherapy, 4, 11-18. doi:10.1300/J184v04n04_03
|
[8]
|
Baehr, E., Rosenfeld, J. P., Baehr, R., & Earnest, C. (1998). Comparison of two EEG asymmetry indices in depressed patients vs. normal controls. International Journal of Psychophysiology, 31, 89-92.
doi:10.1016/S0167-8760(98)00041-5
|
[9]
|
Baldwin, C. L., & Penaranda, B. N. (2012). Adaptive training using an artificial neural network and EEG metrics for within-and cross-task workload classification. NeuroImage, 59, 48-56.
doi:10.1016/j.neuroimage.2011.07.047
|
[10]
|
Berkman, E. T., & Lieberman, M. D. (2010). Appoaching the bad and avoiding the good: Lateral prefrontal cortical asymmetry distinguishes between action and valence. Journal of Cognitive Neuroscience, 22, 1970-1979. doi:10.1162/jocn.2009.21317
|
[11]
|
Bruder, G. E., Stewart, J. W., Tenke, C. E., McGrath, P. J., Leite, P., Bhattacharya, N., & Quitkin, F. M. (2001). Electroencephalographic and perceptual asymmetry differences between responders and nonresponders to an SSRI antidepressant. Biological Psychiatry, 49, 416-425. doi:10.1016/S0006-3223(00)01016-7
|
[12]
|
Bruder, G. E., Tenke, C. E., Warner, V., & Weissman, M. M. (2005). Grandchildren at high and low risk for depression differ in EEG measures of regional brain asymmetry. Biological Psychiatry, 62, 1317-1323. doi:10.1016/j.biopsych.2006.12.006
|
[13]
|
Burshteyn, D., & Buff, C. L. (2008). Provate-label brands, manufacturer brands, and the quest for stimulus generalization: An EEG analysis of frontal cortex response. Review of Business Research, 8, 92-96.
|
[14]
|
Carver, C. S., & Harmon-Jones, E. (2009). Anger is an approach-related affect: Evidence and implications. Psychological Bulletin, 135, 183-204. doi:10.1037/a0013965
|
[15]
|
Choi, S. W., Chi, E. E., Chung, S. Y., Kim, J. W., Ahn, C. Y., & Kim, H. T. (2010). Is alpha wave neurofeedback effective with randomized clinical trials in depression? A pilot study. Neuropsychobiology, 63, 43-51. doi:10.1159/000322290
|
[16]
|
Davidson, R. J. (1988). EEG measures of cerebral asymmetry: Conceptual and methodological issues. International Journal of Neuroscience, 39, 71-89. doi:10.3109/00207458808985694
|
[17]
|
Davidson, R. J. (1998). Anterior electrophysiological asymmetries, emotion, and depression: Conceptual and methodological conundrums. Psychophysiology, 35, 607-614.
doi:10.1017/S0048577298000134
|
[18]
|
Davidson, R. J., Schwartz, G. E., Saron, C., Bennett, J., & Goleman, D. J. (1979). Frontal versus parietal EEG asymmetry during positive and negative affect. Psychophysiology, 16, 202-203.
|
[19]
|
Earnest, C. (1999). Singe case study of EEG asymmetry biofeedback for depression: An independent replication in an adolescent. Journal of Neurotherapy: Investigations in Neuromodulation, Neurofeedback and Applied Neuroscience, 3, 28-35.
|
[20]
|
Field, T., Diego, M., Hernandez-Reif, M., Cisneros, W., Feijo, L., Vera, Y., & He, Q. C. (2005). Lavender fragrance cleansing gel effects on relaxation. International Journal of Neuroscience, 115, 207-222.
doi:10.1080/00207450590519175
|
[21]
|
Gable, P., & Harmon-Jones, E. (2008). Relative left frontal activation to appetitive stimuli: Considering the role of individual differences. Psychophysiology, 45, 275-278.
doi:10.1111/j.1469-8986.2007.00627.x
|
[22]
|
Gevins, A., Smith, M. E., McEvoy, L., & Yu, D. (1997). High-resolution EEG mapping of cortical activation related to working memory: Effects of task difficulty, type of processing, and practice. Cerebral Cortex, 7, 374-385. doi:10.1093/cercor/7.4.374
|
[23]
|
Gilleade, K. M., & Allanson, J. (2005). Affective videogames and modes of affective gaming: Assist me, challenge me, emote me. Proceedings of DiGRA 2005 Conference: Changing Views. Worlds in Play, 1-7.
|
[24]
|
Gotlieb, I. H., Ranganath, C., & Rosenfeld, P. (1998). Frontal EEG alpha asymmetry, depression, and cognitive functioning. Cognition & Emotion, 12, 449-478. doi:10.1080/026999398379673
|
[25]
|
Hammond, D. C. (2000). Neurofeedback treatment of depression with the Roshi. Journal of Neurotherapy: Investigations in Neuromodulation, Neurofeedback and Applied Neuroscience, 4, 45-56.
|
[26]
|
Hammond, D. C. (2005). Neurofeedback treatment of depression and anxiety. Journal of Adult Development, 12, 131-137.
doi:10.1007/s10804-005-7029-5
|
[27]
|
Harmon-Jones, E., Gable, P. A., & Peterson, C. K. (2010). The role of asymmetric cortical activity in emotion-related phenomena: A review and update. Biological Psychology, 84, 451-462.
doi:10.1016/j.biopsycho.2009.08.010
|
[28]
|
Harmon-Jones, E., Gable, P. A., & Price, T. F. (2011). Leaning embodies desire: Evidence that leaning forward increases relative left frontal activation to appetitive stimuli. Biological Psychology, 87, 311-313. doi:10.1016/j.biopsycho.2011.03.009
|
[29]
|
Huang, D., Zhang, H., Ang, K., Guan, C., Pan, Y., Wang, C., & Yu, J. (2012). Fast emotion detection from EEG using asymmetric spatial filtering. Proceedings of the International Conference on Acoustics, Speech and Signal Processing (ICASSP), 589-592.
|
[30]
|
Kass, R. E., & Raftery, A. E. (1995). Bayes factors. Journal of the American Statistical Association, 90, 773-795.
doi:10.1080/01621459.1995.10476572
|
[31]
|
Kemp, A. H., Griffiths, K., Felmingham, K. L., Shankman, S. A., Drinkenburg, W., Arns, M., & Bryant, R. A. (2010). Disorder specificity despite comorbidity: Resting EEG alpha asymmetry in major depressive disorder and post-traumatic stress disorder. Biological Psychology, 85, 350-354. doi:10.1016/j.biopsycho.2010.08.001
|
[32]
|
Kerson, C., Sherman, R. A., & Kozlowski, G. P. (2009). Alpha suppression and symmetry training for generalized anxiety symptoms. Journal of Neurotherapy, 13, 146-155.
doi:10.1080/10874200903107405
|
[33]
|
Keune, P. M., Schonenberg, M., Wyckoff, S., Mayer, K., Riemann, S., Hautzinger, M., & Strehl, U. (2011). Frontal alpha-asymmetry in adults with attention deficit hyperactivity disorder: Replication and specification. Biological Psychology, 87, 306-310.
doi:10.1016/j.biopsycho.2011.02.023
|
[34]
|
Kline, J. P., Blackhart, G. C., Woodward, K. M., Williams, S. R., & Schwartz, G. E. R. (2000). Anterior electroencephalographic asymmetry changes in elderly women in response to a pleasant and an unpleasant odor. Biological Psychology, 52, 241-250.
doi:10.1016/S0301-0511(99)00046-0
|
[35]
|
Ko, K.-E., Yang, H. C., & Sim, K.-B. (2009). Emotion recognition using EEG signals with relative power values and Bayesian network. International Journal of Control, Automation, and Systems, 7, 865-870. doi:10.1007/s12555-009-0521-0
|
[36]
|
Kurth, B.-M. (2012). Erste Ergebnisse aus der “Studie zur Gesundheit Erwachsener in Deutschland” (DEGS). Bundesgesundheitsblatt, 55, 980-990. doi:10.1007/s00103-012-1504-5
|
[37]
|
Molina, G. G., Tsoneva, T., & Nijholt, A. (2009). Emotional brain-computer interfaces. Proceedings of the International Conference on Affective Computing and Intelligent Interaction, 1-9.
|
[38]
|
Moscovitch, D. A., Santesso, D. L., Miskovic, V., McCabe, R. E., Antony, M. M., & Schmidt, L. A. (2011). Frontal EEG asymmetry and symptom response to cognitive behavioral therapy in patients with social anxiety disorder. Biological Psychology, 87, 379-385.
doi:10.1016/j.biopsycho.2011.04.009
|
[39]
|
Mühl, C., Brouwer, A.-M., van Wouwe, N. C., van den Broek, E. L., Nijboer, F., & Heylen, D. K. J. (2011). Modality-specific affective responses and their implications for affective BCI. Proceedings of the Fifth International Brain-Computer Interface Conference 2011, 120-123.
|
[40]
|
Ohme, R., Matukin, M., & Szezurko, T. (2010). Neurophysiology uncovers secrets of TV commercials. Der markt, 49, 133-142.
doi:10.1007/s12642-010-0034-7
|
[41]
|
Ohme, R., Reykowska, D., Wiener, D., & Choromanska, A. (2009). Analysis of neurophysiological reactions to advertising stimuli by means of EEG and galvanic skin response measures. Journal of Neuroscience, Psychology, and Economics, 2, 21-31.
doi:10.1037/a0015462
|
[42]
|
Ohme, R., Reykowska, D., Wiener, D., & Choromanska, A. (2010). Application of frontal EEG asymmetry to advertising research. Journal of Economic Psychology, 31, 785-793.
doi:10.1016/j.joep.2010.03.008
|
[43]
|
Park, M.-K., & Watanuki S. (2005). Electroencephalograhic responses and subjective evaluation on unpleasantness induced by sanitary napkins. Journal of Physiological Anthropological and Applied Human Science, 24, 67-71. doi:10.2114/jpa.24.67
|
[44]
|
Poldrack, R. A. (2006). Can cognitive processes be inferred from neuroimaging data? Trends in Cognitive Sciences, 10, 59-63.
doi:10.1016/j.tics.2005.12.004
|
[45]
|
Price, T. F., Peterson, C. K., & Harmon-Jones, E. (2012). The emotive neuroscience of embodiment. Motivation and Emotion, 36, 27-37.
doi:10.1007/s11031-011-9258-1
|
[46]
|
Rosenfeld, J. P., Baehr, E., Baehr, R., Gotlib, I. H., & Ranganath, C. (1996). Preliminary evidence that daily changes in frontal alpha asymmetry correlate with changes in affect in therapy sessions. International Journal of Psychophysiology, 23, 137-141.
doi:10.1016/0167-8760(96)00037-2
|
[47]
|
Rosenfeld, J. P., Cha, G., Blair, T., & Gotlib, I. H. (1995). Operant (biofeedback) control of left-right frontal alpha power differences: Potential neurotherapy for affective disorders. Biofeedback and Self-Regulation, 20, 241-258. doi:10.1007/BF01474516
|
[48]
|
Rutherford, H. J. V., & Lindell, A. K. (2011). Thriving and surviving: Approach and avoidance motivation and lateralization. Emotion Review, 3, 333-343. doi:10.1177/1754073911402392
|
[49]
|
Sanders, C., Diego, M., Fernandez, M., Field, T., Hernandez-Reif, M. & Roca, A. (2002). EEG asymmetry responses to lavender and rose-mary aromas in adults and infants. International Journal of Neuroscience, 112, 1305-1320. doi:10.1080/00207450290158214
|
[50]
|
Segrave, R. A., Cooper, N. R., Thomson, R. H., Croft, R. J., Sheppard, D. M., & Fitzgerald, P. B. (2011). Individualized alpha activity and frontal asymmetry in major depression. Clinical EEG and Neuroscience, 42, 45-52. doi:10.1177/155005941104200110
|
[51]
|
Singer, E. (2008). Brain Games. Technology Review, 111, 82-84.
|
[52]
|
Spronk, D., Arns, M., Bootsma, A., van Ruth, R., & Fitzgerald, P. B. (2008). Long term effects of left frontal rTMS on EEG and ERPs in patients with depression. Clinical EEG and Neuroscience, 39, 118-124. doi:10.1177/155005940803900305
|
[53]
|
Stewart, J. L., Coan, J. A., Towers, D. N., & Allen, J. J. B. (2011). Frontal EEG asymmetry during emotional challenge differentiates individuals with and without major depressive disorder. Journal of Affective Disorders, 129, 167-174. doi:10.1016/j.jad.2010.08.029
|
[54]
|
Thibodeau, R., Jorgensen. R. S., & Kim, S. (2006). Depression, anxiety, and resting frontal EEG asymmetry: A meta-analytic review. Journal of Abnormal Psychology, 115, 715-729.
doi:10.1037/0021-843X.115.4.715
|
[55]
|
Tomarken, A. J., Dichter, G. S., Garber, J., & Simien, C. (2004). Resting frontal brain activity: Linkages to maternal depression and socio-economic status among adolescents. Biological Psychology, 67, 77-102. doi:10.1016/j.biopsycho.2004.03.011
|
[56]
|
Tomico, O., Mizutani, N., Levy, P., Takahiro, Y., Cho, Y., & Yamanaka, T. (2008). Kansei physiological measurements and constructivist psychological explorations for approaching user subjective experience during and after product usage. Proceedings of the DESIGN 2008, 10th International Design Conference. Croatia, 529-536
|
[57]
|
Vartak, A. A. (2010). Biosignal processing challenges in emotion recognition for adaptive learning. Ph.D. Thesis, Orlando, FL: University of Central 2010.
|
[58]
|
Vecchiato, G., Toppi, J., Astolfi, L., De Vico Fallani, F., Cincotti, F., Mattia, D., & Babiloni, F. (2010). Changes in brain activity during the observation of TV commercials by using EEG, GSR and HR measurements. Brain Topography, 23, 165-179.
doi:10.1007/s10548-009-0127-0
|
[59]
|
Vecchiato, G., Toppi, J., Astolfi, L., De Vico Fallani, F., Cincotti, F., Mattia, D., & Babiloni, F. (2011). Spectral EEG frontal asymmetries correlate with the experienced pleasantness of TV commercial advertisements. Medical & Biological Engineering & Computing, 49, 579-583. doi:10.1007/s11517-011-0747-x
|
[60]
|
Wacker, J., Chavanon, M.-L., Leue, A., & Stemmler, G. (2010). Trait BIS predicts alpha asymmetry and P300 in a Go/No-Go task. European Journal of Personality, 24, 85-105.
|
[61]
|
Winkler, I., Jager, M., Mihajlovic, V., & Tsoneva, T. (2010). Frontal EEG asymmetry based classification of emotional valence using common spatial patterns. World Academy of Science, Engineering and Technology, 45, 373-378.
|
[62]
|
Wyczesany, M., Kaiser, J., & Barry, R. J. (2009). Cortical lateralization
|
[63]
|
patterns related to self-estimation of emotional state. Acta Neurobiologiae Experimentalis, 69, 526-536.
|