Full-text resources of PSJD and other databases are now available in the new Library of Science.
Visit https://bibliotekanauki.pl


Preferences help
enabled [disable] Abstract
Number of results
2014 | 8 | 4 | 167-188

Article title

Detection of concealed information with of the P300 potential amplitude analysis


Title variants

Languages of publication











Physical description


1 - 12 - 2014
6 - 2 - 2015


  • Faculty of Psychology University of Warsaw Warsaw Poland


  • Allen J.J.B., Iacono W.G. (1997), A comparison of methods for the analysis of event-related potentials in deception-detection, Psychophysiology, 34, pp. 234-240.[Crossref]
  • Allen J.J., Iacono W.G., Danielson K.D. (1992), Th e identification of concealed memories using the event-related potential and implicit behavioral measures: A methodology for prediction in the face of individual diff erences, Psychophysiology, 29, pp. 504-522.[Crossref]
  • Ambach W., Bursch S., Stark R., Vaitl D. (2010), A Concealed Information Test with multimodal measurement, International Journal of Psychophysiology, 75 (3), pp. 258-267.[Crossref]
  • Ben-Shakhar G., Elaad E. (2002), Th e Guilty Knowledge Test (GKT) as an application of psychophysiology: future prospects and obstacles. P300 in detecting concealed information, [in:] M. Kleiner (ed.), Handbook of Polygraph Testing (pp. 87-102), San Diego, Academic Press.
  • Dawson G.D. (1947), Cerebral responses to electrical stimulation of peripheral nerve in man, Journal of Neurology, Neurosurgery & Psychiatry,10(3), pp. 134-140.[Crossref]
  • Donchin E. (1981), Surprise!....Surprise?, Psychophysiology, 18, pp. 493-513.[Crossref]
  • Duncan-Johnson C.C., Donchin E. (1977), On quantifying surprise: the variation of event-related potentials with subjective probability, Psychophysiology, 14(5), pp. 456-467.[Crossref]
  • Ellwanger J., Rosenfeld J.P., Sweet J.J., Bhatt M. (1996), Detecting simulated amnesia for autobiographical and recently learned information using the P300 event-related potential, International Journal of Psychophysiology, 23(1-2), pp. 9-23.
  • Fabiani M., Gratton G., Coles M.G.H. (2000), Event related brain potentials: Methods, theory and applications, [in:] J. Cacioppo, L. Tassinary, G. Berntson (eds), Handbook of Psychophysiology (pp. 53-84), New York, Cambridge University Press.
  • Farwell L.A. (2012), Brain fingerprinting: a comprehensive tutorial review of detection of concealed information with event-related brain potentials, Cognitive Neurodynamics, 6, pp. 115-154.[Crossref]
  • Farwell L.A., Donchin E. (1986), Th e brain detector: P300 in the detection of deception, Psychophysiology, 24, p. 34 (abstract).
  • Farwell L.A., Donchin E. (1991), Th e truth will out: interrogative polygraphy (“lie detection’) with event-related brain potentials, Psychophysiology, 28(5), pp. 531-547.[Crossref]
  • Farwell L.A., Richardson D.C., Richardson G.M. (2013), Brain fingerprinting field studies comparing P300-MERMER and P300 brainwave responses in the detection of concealed information, Cognitive neurodynamics, 7(4), pp. 263-299.
  • Gustafson L.A., Orne M.T. (1963), Eff ects of heightened motivation on the detection of deception, Journal of Applied Psychology, 47(6), pp. 408-411.[Crossref]
  • Hahm J., Ji H.K., Jeong J.Y., Oh D.H., Kim S.H., Sim K.B., Lee J.H. (2009), Detection of concealed information: combining a virtual mock crime with a P300-based Guilty Knowledge Test, Cyberpsychology & behavior: the impact of the Internet, multimedia and virtual reality on behavior and society, 12(3), pp. 269-275.
  • Hu X., Rosenfeld J.P. (2012), Combining the P300-complex trial-based Concealed Information Test and the reaction time-based autobiographical Implicit Association Test in concealed memory detection, Psychophysiology, 49(8), pp. 1090-1100.
  • Jaśkowski P. (2009), Neuronauka poznawcza. Jak mozg tworzy umysł, Warszawa, Vizja Press & IT.
  • Johnson R. (1993), On the neural generators of the P300 component of the event-related potential, Psychophysiology, 30(1), pp. 90-97.
  • Johnson M.M., Rosenfeld J.P. (1992), Oddball-evoked P300-based method of deception detection in the laboratory II: Utilization of non-selective activation of relevant knowledge, International Journal of Psychophysiology, 12(3), pp. 289-306.
  • Karis D., Fabiani M., Donchin E. (1984), “P300’ and memory: Individual diff erences in the von Restorff eff ect, Cognitive Psychology, 16(2), pp. 177-216.
  • Lefebvre C.D., Marchand Y., Smith S.M., Connolly J.F. (2009), Use of eventrelated brain potentials (ERPs) to assess eyewitness accuracy and deception, International Journal of Psychophysiology, 73(3), pp. 218-225.[Crossref]
  • Lui M., Rosenfeld J.P. (2008), Detection of deception about multiple, concealed, mock crime items, based on a spatial-temporal analysis of ERP amplitude and scalp distribution, Psychophysiology, 45(5), pp. 721-730.[Crossref]
  • Lykken D.T. (1998), A Tremor in the blood: Uses and abuses of the lie detector, 2nd ed, New York, Plenum Press.
  • Meijer E.H., Ben-Shakhar G., Verschuere B., Donchin E. (2013), A comment on Farwell (2012): brain fingerprinting: a comprehensive tutorial review of detection of concealed information with event-related brain potentials, Cognitive neurodynamics, 7(2), pp. 155-158.
  • Meijer E.H., Selle N.K., Elber L., Ben-Shakhar G. (2014), Memory detection with the Concealed Information Test: A meta-analysis of skin conductance, respiration, heart rate, and P300 data, Psychophysiology, 51(9), pp. 879-904.
  • Meijer E.H., Smulders F.T.Y., Merckelbach H.L.G.J., Wolf A.G. (2007), Th e P300 is sensitive to concealed face recognition, International Journal of Psychophysiology, 66(3), pp. 231-237.
  • Meixner J.B., Labkovsky E., Rosenfeld J.P., Winograd M., Sokolovsky A., Weishaar J., Ullmann T. (2013), P900: a putative novel ERP component that indexes countermeasure use in the P300-based concealed information test, Applied Psychophysiology and Biofeedback, 38(2), pp. 121-132.
  • Meixner J., Rosenfeld J. (2011), A mock terrorism application of the P300- based concealed information test, Psychophysiology, 48, pp. 149-154.
  • Mertens R., Allen J.J.B. (2008), Th e role of psychophysiology in forensic assessments: deception detection, ERPs, and virtual reality mock crime scenarios, Psychophysiology, 45(2), pp. 286-298.[Crossref]
  • Miyake Y., Mizutanti M., Yamahura T. (1993), Event related potentials as an indicator of detecting information in field polygraph examinations, Polygraph, 22(2), pp. 131-149.
  • Obermann C.E. (1939), Th e eff ect on the Berger rhythm of mild aff ective states, Th e Journal of Abnormal and Social Psychology, 34(1), 84.
  • Polich J. (2003), Th eoretical overview of P3a and P3b (pp. 83-98), Springer US.
  • Polich J. (2007), Updating P300: An integrative theory of P3a and P3b, Clinical Neurophysiology, 118, pp. 2128-2148.
  • Polich J., Criado J.R. (2006), Neuropsychology and neuropharmacology of P3a and P3b, International Journal of Psychophysiology, 60(2), pp. 172-185.[Crossref]
  • Rosenfeld J.P. (1999), Event-related potential in detection of deception, www. psych.northwestern.edu/~rosenfel/publications.html.
  • Rosenfeld J.P. (2005), ‘BRAIN FINGERPRINTING’: A Critical Analysis, Th e Scientific Review of Mental Health Practice, 4(1), pp. 20-37.
  • Rosenfeld J.P. (2011), P300 in Detecting Concealed Information, [in:] B. Verschuere, G. Ben Shakhar, E. Meijer (eds), Memory detection: Th eory and application of the concealed information test, Cambridge, Cambridge University Press.
  • Rosenfeld J.P., Angell A., Johnson M., Qian J.H. (1991), An ERP-based, control- question lie detector analog: algorithms for discriminating eff ects within individuals’ average waveforms, Psychophysiology, 28(3), pp. 319-335.[Crossref]
  • Rosenfeld J.P., Biroschak J.R., Furedy J.J. (2006), P300-based detection of concealed autobiographical versus incidentally acquired information in target and non-target paradigms, International Journal of Psychophysiology, 60(3), pp. 251-259.
  • Rosenfeld J.P., Cantwell B., Nasman V.T., Wojdac V., Ivanov S., Mazzeri L. (1988), A modified, event-related potential-based guilty knowledge test, International Journal of Neuroscience, 1988 (24), pp. 157-161.[Crossref]
  • Rosenfeld J.P., Hu X., Pederson K. (2012), Deception awareness improves P300-based deception detection in concealed information tests, International Journal of Psychophysiology, 86(1), pp. 114-121
  • Rosenfeld J.P., Labkovsky E. (2010), New P300-based protocol to detect concealed information: Resistance to mental countermeasures against only half the irrelevant stimuli and a possible ERP indicator of countermeas, Psychophysiology, 47, pp. 1002-1010.
  • Rosenfeld J.P., Labkovsky E., Winograd M., Lui M.A., Vandenboom C., Chedid E. (2008), Th e Complex Trial Protocol (CTP), A new, countermeasure-resistant, accurate, P300-based method for detection of concealed information, Psychophysiology, 45(6), pp. 906-919.
  • Rosenfeld J.P., Meixner J., Kievit R.A., Schendan H.E., Ganis G. (2011), Lying in the scanner: Covert countermeasures disrupt deception detection by functional magnetic resonance imaging, NeuroImage, 55, pp. 312-319.
  • Rosenfeld J.P., Nasman V.T., Whalen I., Cantwell B., Mazzeri L. (1987), Late vertex positivity in event-related potentials as a guilty knowledge indicator: a new method of lie detection, International Journal of Neuroscience, 34, pp. 125-129.[Crossref]
  • Rosenfeld J.P., Rao A., Soskins M., Miller A.R. (2003), Scaled P300 scalp distribution correlates of verbal deception in an autobiographical oddball paradigm: Control for task demand, Journal of Psychophysiology, 17(1), pp. 14-22.
  • Rosenfeld J.P., Soskins M., Bosh G., Ryan A. (2004), Simple, eff ective countermeasures to P300-based tests of detection of concealed information, Psychophysiology, 41(2), pp. 205-219.
  • Schmitt R. (1993), Aktywność elektryczna mozgu, [in:] T. Sosnowski, K.
  • Zimmer (eds), Metody psychofizjologiczne w badaniach psychologicznych: praca zbiorowa (P. Zaborowski, A. Krzymowska (translators), pp. 101-136), Warszawa, Wydawnictwo Naukowe PWN.
  • Sokolovsky A., Rothenberg J., Labkovsky E., Meixner J., Rosenfeld J.P. (2011), A novel countermeasure against the reaction time index of countermeasure use in the P300-based complex trial protocol for detection of concealed information, International Journal of Psychophysiology, 81(1), pp. 60-63.
  • Soskins M., Rosenfeld J.P., Niendam T. (2001), Peak-to-peak measurement of P300 recorded at 0.3 Hz high pass filter settings in intraindividual diagnosis: Complex vs. simple paradigms, International Journal of Psychophysiology, 40(2), pp. 173-180.
  • Sosnowski T. (2000), Psychofizjologia, [in:] J. Strelau (ed.), Psychologia. Podręcznik akademicki (vol. 1, pp. 131-178), Gdańsk, Gdańskie Wydawnictwo Psychologiczne.
  • Squires K.C., Squires N.K., Hillyard S.A. (1975), Decision-related cortical potentials during an auditory signal detection task with cued observation intervals, Journal of experimental psychology. Human perception and performance, 1(3), pp. 268-279.
  • Sutton S., Braren M., Zubin J., John E.R. (1965), Evoked-potential correlates of stimulus uncertainty, Science, 150 (700), pp. 1187-1188.
  • Szelenberger W. (2001), Potencjały wywołane, Warszawa, Wydawnictwo Elmiko.
  • Vrij A. (2008), Detecting Lies and Deceit. Pitfalls and Opportunities (2nd ed), Chichester: John Wiley & Sons Ltd.
  • Wasserman S., Bockenholt U. (1989), Bootstrapping: applications to psychophysiology, Psychophysiology, 26(2), pp. 208-221.[Crossref]
  • Winograd M., Rosenfeld J.P. (2011), Mock crime application of the Complex Trial Protocol (CTP) P300-based Concealed Information Test, Psychophysiology, 48, pp. 155-161.

Document Type

Publication order reference


YADDA identifier

JavaScript is turned off in your web browser. Turn it on to take full advantage of this site, then refresh the page.