A Concealed Information Test with Combination of ERP Recording and Autonomic Measurements
Tóm tắt
Từ khóa
Tài liệu tham khảo
D. T. Lykken, A Tremor in the Blood: Uses and Abuses of the Lie Detector, McGraw-Hill Book Comp., New York (1981).
J. A. Matte, Forensic Psychophysiology Using the Polygraph: Scientific Truth Verification – Lie Detection, J. A. M. Publ., New York (1996).
E. B. Ford, “Lie detection: Historical, neuropsychiatric and legal dimensions,” Int. J. Law. Psychiat., 29, 159-177 (2006).
National Research Council, The Polygraph and Lie Detection, Committee to Review the Scientific Evidence on the Polygraph, Division of Behavioral and Social Sciences and Education, The Nat. Acad. Press, Washington (2003).
V. Abootalebi, M. H. Moradi, and M. A. Khalilzadeh, “A comparison of methods for ERP assessment in a P300-based GKT,” Int. J. Psychophysiol., 62, 309-320 (2006).
J. P. Rosenfeld, “Event-related potentials in the detection of deception, malingering, and false memories,” in: Handbook of Polygraph Testing, M. Kleiner (ed.), Acad. Press, New York (2002), pp. 265-286.
J. P. Rosenfeld, B. Cantwell, V. T. Nasman, et al., “A modified, event-related potential-based guilty knowledge test,” Int. J. Neurosci., 42, 157-161 (1988).
L. A. Farwell and E. Donchin, “The truth will out: interrogative polygraphy (lie detection) with event-related potentials,” Psychophysiology, 28, 531-547 (1991).
G. Ben-Shakhar and E. Elaad, “The validity of psychophysiological detection of information with the Guilty Knowledge Test: a meta-analytic review,” J. Appl. Psychol., 88, 131-151 (2003).
W. Ambach, R. Stark, M. Peper, and D. Vaitl, “A concealed information test with multimodal measurement,” Int. J. Psychophysiol., 75, 258-267 (2010).
J. Polich, “P300, probability, and interstimulus interval,” Psychophysiology, 27, No. 4, 396-403 (1990).
R. J. Barry, S. Feldmann, E. Gordon, and K. I. Cocker, “Elicitation and habituation of the electrodermal orienting response in a short interstimulus interval paradigm,” Int. J. Psychophysiol., 15, 247-253 (1993).
E. H. Meijer, Psychophysiology and the Detection of Deception: Promises and Perils, Unpublished Doctoral Dissertation, Maastricht Univ., the Netherlands (2008).
I. Matsuda, H. Nittono, A. Hirota, et al., “Event-related brain potentials during the standard autonomic-based concealed information test,” Int. J. Psychophysiol., 74, 58-68 (2009).
M. Gamer and S. Berti, “Task relevance and recognition of concealed information have different influence on electrodermal activity and event-related brain potentials,” Psychophysiology, 47, 355-364 (2010).
I. Matsuda, H. Nittono, and T. Ogawa, “Event-related potentials increase the discrimination performance of the autonomic-based concealed information test,” Psychophysiology, 48, 1701-1710 (2011).
G. T. Buracas and G. M. Boynton, “Efficient design of event-related fMRI experiments using M-sequences,” Neuroimage, 16, 801-813 (2002).
M. Soskins, J. P. Rosenfeld, and T. Niendamm, “Peakto-peak measurement of P300 recorded at 0.3 Hz high pass filter settings in intraindividual diagnosis: complex vs. simple paradigms,” Int. J. Psychophysiol., 40, 173-180 (2001).
M. E. Dawson, A. M. Schell, and D. L. Filion, “The electrodermal system,” in: Handbook of Psychophysiology, J. T. Cacioppo, L. G. Tassinary, and G. G. Berntson (eds.), Cambridge Univ. Press (2000), pp. 200-223.
H. W. Timm, “Effect of altered outcome expectancies stemming from placebo and feedback treatments on the validity of the guilty knowledge technique,” J. Appl. Psychol., 67, 391-400 (1982).
H. W. Timm, “Analyzing deception from respiration patterns,” J. Police Sci. Adm., 10, 47-51 (1982).
J. Allen, “Photoplethysmography and its application in clinical physiological measurement,” Physiol. Meas., 28, R1-R39 (2007).
H. S. Shin, C. Lee, and M. Lee, “Adaptive threshold method for the peak detection of photoplethysmographic waveform,” Comput. Biol. Med., 39, 1145-1152 (2009).
M. Velden and C. Wӧlk, “Depicting cardiac activity over real time: a proposal for standardization,” J. Psychophysiol., 1, 173-175 (1987).
M. T. Bradley and M. P. Janisse, “Accuracy demonstrations, threat, and the detection of deception: cardiovascular, electrodermal, and pupillary measures,” Psychophysiology, 18, 307-315 (1981).
G. Ben-Shakhar, “Standardization within individuals: a simple method to neutralize individual differences in skin conductance,” Psychophysiology, 22, 292-299 (1985).
M. Gamer, H. G. Rill, G. Vossel, and H. W. Gӧdert, “Psychophysiological and vocal measures in the detection of guilty knowledge,” Int. J. Psychophysiol., 60, 76-87 (2006).
S. Wasserman and U. Bockenholt, “Bootstrapping: applications to psychophysiology,” Psychophysiology, 26, 208-221 (1989).
J. Cohen, Statistical Power Analysis for the Behavioral Sciences, Lawrence Erlbaum Associates, Inc., Hillsdale (1988).
R. L. Rosnow and R. Rosenthal, “Computing contrasts, effect sizes, and counternulls on other people’s published data: general procedures for research consumers,” Psychol. Methods, 1, 331-340 (1996).
K. Fukunaga, Statistical Pattern Recognition, Acad. Press, New York (1990).
R. O. Duda, P. E. Hart, and D. G. Stork, Pattern Recognition, Wiley-Interscience, New York (2001).
V. Abootalebi, M. H. Moradi, and M. A. Khalilzadeh, “A new approach for EEG feature extraction in P300-based lie detection,” Comput. Methods Programs Biomed., 94, No. 1, 48-57 (2009).
J. Allen, W. G. Iacono, and K. D. Danielson, “The identification of concealed memories using the event-related potential and implicit behavioral measures: a methodology for prediction in the face of individual differences,” Psychophysiology, 29, 504-522 (1992).
C. L. Lim, C. Rennie, R. J. Barry, at al., “Decomposing skin conductance into tonic and phasic components,” Int. J. Psychophysiol., 25, 97-109 (1997).