Selective auditory attention: Complex processes and complex ERP generators

David L. Woods

doi:10.1017/S0140525X00078705

Selective auditory attention: Complex processes and complex ERP generators

Published online by Cambridge University Press: 19 May 2011

David L. Woods

Show author details

David L. Woods: Affiliation:
Department of Neurology (127), University of California, Davis, VAMC, Martinez, CA 94553, Electronic mail: [email protected]

Article contents

Abstract
References

Get access

Rights & Permissions

Abstract

An abstract is not available for this content so a preview has been provided. Please use the Get access link above for information on how to access this content.

Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'

Type: Open Peer Commentary
Information: Behavioral and Brain Sciences , Volume 13 , Issue 2 , June 1990 , pp. 260 - 261

DOI: https://doi.org/10.1017/S0140525X00078705 [Opens in a new window]
Copyright: Copyright © Cambridge University Press 1990

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Aaltonen, O., Niemi, P., Nyrke, T. & Tuhkanen, M. (1987) Event-related brain potentials and the perception of a phonetic continuum. Biological Psychology 24:197–207. [aRN]Google Scholar

Adrian, E. D. (1954) The physiological basis of perception. In: Brain mechanisms and consciousness, ed. Delafresnay, J. F.. Blackwell. [aRN]Google Scholar

Aitkin, L. M., Kudo, M. & Irvine, D. R. F. (1988) Connection of the primary auditory cortex in the common marmoset, Callithrix jacchus jacchus. Journal of Comparative Neurology 269:235–48. [KK]Google Scholar

Alho, K. (1987) Mechanisms of selective listening reflected by event-related brain potentials in humans. Annales Academiae Scientiarum Fennicae, Dissertationes Humanarum Litterdrum 46. [aRN]Google Scholar

Alho, K., Donauer, N., Paavilainen, P., Reinikainen, K., Sams, M. & Naatanen, R. (1987) Stimulus selection during auditory spatial attention as expressed by event-related potentials. Biological Psychology 24:153-62. [aRN]Google Scholar

Alho, K., Lavikainen, J., Reinikainen, K., Sams, M. & Näätänen, R. (in press) Event-related brain potentials in selective listening to frequent and rare stimuli. Psychophysiology. [aRN, DLW]Google Scholar

Alho, K., Niittyvuopio, T., Paavilainen, P., Summala, H. & Näätänen, R. (submitted) Event-related potentials to a change in acoustic stimulation in early blind subjects. [aRN]Google Scholar

Alho, K., Paavilainen, P., Reinikainen, K., Sams, M. & Näätänen, R. (1986) Separability of different negative components of the event-related potential associated with auditory stimulus processing. Psychophysiology 23:613–23. [aRN, JCH]Google Scholar

Alho, K., Sainio, K., Sajaniemi, N., Reinikainen, K. & Näätänen, R. (in press) Electrical brain response of human newborns to pitch change of an acoustic stimulus. Electroencephalography and Clinical Neurophysiology. [aRN, RC]Google Scholar

Alho, K., Sams, M., Paavilainen, P. & Näätänen, R. (1986) Small pitch separation and the selective-attention effect on the ERP. Psychophysiology 23:189–97. [aRN]Google Scholar

Alho, K., Sams, M., Paavilainen, P., Reinikainen, K. & Näätänen, R. (1989) Event-related brain potentials during selective listening. Psychophysiology 26:514–28. [aRN, DLW]Google Scholar

Alho, K., Teder, W., Reinikainen, K. & Näätänen, R. (submitted) Are there different selective-attention effects on the auditory event-related brain potential? [aRN]Google Scholar

Alho, K., Tottola, K., Reinikainen, K., Sams, M. & Näätänen, R. (1987) Brain mechanism of selective listening reflected by event-related potentials. Electroencephalography and Clinical Neurophysiology 68:458–470. [aRN]Google Scholar

Allison, T., Matsumiya, Y., Goff, G. D. & Goff, W. R. (1977) The scalp topography of human visual evoked potentials. Electroencephalography and Clinical Neurophysiology 42:185–97. [aRN]Google Scholar

Allman, J., Miezin, F. & McGuinness, E. (1985) Direction- and velocity-specific responses from beyond the classical receptive fields in the middle temporal visual area (MT). Perception 14:105–26. [ABS]Google Scholar

Anthony, B. J. (1986) In the blink of an eye: Implications of reflex modification for information processing. In: Advances in psychophysiology, vol. 1, ed. Ackles, P. K., Jennings, J. R. & Coles, M. G. H.. JAI Press. [aRN]Google Scholar

Anttila, R. (1972) An introduction to historical and comparative linguistics. Macmillan. [SCdR]Google Scholar

Arlinger, S., Elberling, C, Bak, C, Kofoed, B., Lebech, J. & Saermark, K. (1982) Cortical magnetic fields evoked by frequency glides of a continuous tone. Electroencephalography and Clinical Neurophysiology 54:642–53. [aRN]CrossRef Google Scholar PubMed

Arnsten, A. F. T., Segal, D. S., Neville, H. J., Hillyard, S. A., Janowsky, D. S., Judd, L. L. & Bloom, F. E. (1983) Naloxone augments electrophysiological signs of selective attention in man. Nature 304:725–27. [aRN, SPT]CrossRef Google Scholar PubMed

Arthur, D. L., & Flynn, E. R. (1987) The effect of auditory selective attention on event-related magnetic fields of the human brain. In: Volume of abstracts. Sixth International Conference on Biomagnetism, Tokyo. [aRN]Google Scholar

Arthur, D. L., Lewis, P. S., Medvick, P. A. & Flynn, E. R. (submitted) A neuromagnetic study of selective auditory attention. [aRN]Google Scholar

Baddeley, A. D. (1986) Working memory. Oxford Psychological Series N. 11. Oxford University Press. [aRN]Google Scholar PubMed

Banquet, J. P., Baribeau-Braun, J. & Lesevre, N. (1984) Learning of “single trial” and “contextual” information processing in an odd-ball paradigm. In: Brain and information: Event-related potentials, ed. Karrer, R., Cohen, J. & Tueting, P.. New York Academy of Sciences. [SG]Google Scholar

Banquet, J. P., & Grossberg, S. (1987) Probing cognitive processes through the structure of event-related potentials during learning: An experimental and theoretical analysis. Applied Optics 26:4931–46. [JPB, SG]CrossRef Google Scholar PubMed

Banquet, J. P., Renault, B. & Lesevre, N. (1981) Effect of task and stimulus probability on evoked potentials. Biological Psychology 13:203–14. [JPB, SG]Google Scholar

Banquet, J. P., Smith, M. J. & Giinther, W. (1990) Top-down processes and motivation in cognitive tasks. In: Motivation, emotion and goal direction in neural networks, ed. Levine, D. & Leven, S.. Erlbaum. [JPB]Google Scholar

Barlow, H. B. (1972) Single units and sensation: A neurone doctrine for perceptual psychology. Perception 1:371–94. [KC]CrossRef Google Scholar PubMed

(1985) Twelfth Bartlett Memorial Lecture: The role of single neurons in the psychology of perception. Quarterly Journal of Experimental Psychology 37(2-A): 121–45. [KC]Google Scholar

Bauer, H., Korunka, C. & Loedolter, M. (1989) Technical requirements for high-quality scalp DC recordings. Electroencephalography and Clinical Neurophysiology 72:545–47. [LD]CrossRef Google Scholar PubMed

Beaton, R. & Miller, J. M. (1975) Single cell activity in the auditory cortex of the unanaesthetized, behaving monkey: Correlation with stimulus controlled behavior. Brain Research 100:543–62. [aRN]Google Scholar

Beaubaton, D., Trouch, E. & Legallet, E. (1984) Neocerebellum and motor programming: Evidence from reaction-time studies in monkeys with dentate nucleus lesions. In: Preparatory states and processes, ed. Kornblum, S. & Requin, J.. Erlbaum. [SCdR]Google Scholar

Bell, I. & Campbell, K. (in preparation) Human auditory evoked potentials during natural sleep: Mismatch negativity. [aRN]Google Scholar

Benson, D. A., & Hienz, R. D. (1978) Single unit activity in the auditory cortex of monkeys selectively attending left vs. right ear stimuli. Brain 159:307–20. [aRN]Google Scholar

Besson, M. & Macar, F. (1987) An event-related potential analysis of incongruity in music and other non-linguistic contexts. Psychophysiology 24:14–25. [rRN]Google Scholar

Born, J., Bothor, R., Pietrowsky, G., Fehm-Wolfsdorf, G., Pauschinger, R. & Fehm, H. L. (1987) Influences of vasopressin and oxytocin on human event-related brain potentials in an attention task. Journal of Psychophysiology 4:351–60. [aRN]Google Scholar

Born, J., Brauninger, W., Fehm-Wolfsdorf, G., Voigt, K. H., Pauschinger, P, & Fehm, H. L. (1987) Dose-dependent influences on electrophysiological signs of attention in humans after neuropeptide ACTH 4–10. Experimental Brain Research 67:85–92. [aRN]Google Scholar

Bom, J., Fehm-Wolfsdorf, G., Lutzenberger, W., Voigt, K. H. & Fehm, H. L. (1986) Vasopressin and electrophysiological signs of attention in man. Peptides 7:189–93. [aRN]Google Scholar

Born, J., Kern, W., Fehm-Wolfsdorf, G. & Fehm, H. L. (1987) Cortisol effects on attentional processes in man as indicated by event-related potentials. Psychophysiology 24:286–92. [aRN]Google Scholar

Bōttcher, C. & Ullsperger, P. (submitted) Mismatch negativity in ERPs to auditory stimuli as a function of varying interstimulus interval. [aRN]Google Scholar

Broadbent, D. E. (1958) Perception and communication. Pergamon. [aRN, NC, JCH]CrossRef Google Scholar

(1970) Stimulus set and response set: Two kinds of selective attention. In: Attention: Contemporary theory and analysis, ed. Mostofsky, D. I.. Appleton-Century-Crofts. [aRN]Google Scholar

(1971) Decision and stress. Academic Press. [aRN]Google Scholar

(1982) Task combination and selective intake of information. Ada Psychologica 50:253–90. [aRN]Google Scholar

(1984) The Maltese cross: A new simplistic model for memory. Behavioral and Brain Sciences 7:55–94. [aRN, KG]CrossRef Google Scholar

Brugge, J. F., & Reale, R. A. (1985) Auditory cortex. In: Cerebral cortex, vol. 4, Association and auditory cortices, ed. Peters, A. & Jones, E. G.. Plenum. [aRN]Google Scholar

Brunia, C. H. M. (1984) Selective and aselective control of spinal motor structures during preparation for a movement. In: Preparatory states and processes, ed. Kornblum, S. & Requin, J.. Erlbaum. [SCdR]Google Scholar

Butler, R. A. (1972) The auditory evoked response to stimuli producing periodicity pitch. Psychophysiology 9:233–37. [aRN]Google Scholar

Bzalava, I. T. (1966) The psychology of expectancy and cybernetics. Academy of Science of Georgia SSR, Nauka, Moscow. [KC]Google Scholar

Campbell, K. B., & Bartoli, E. A. (1986) Human auditory evoked potentials during natural sleep: The early components. Electroencephalography and Clinical Neurophysiology 65:143–49. [GK]Google Scholar

Candelaria de Ram, S. (1988) Neural feedback and causation of evolving speech styles. New ways of analyzing language variation (NWAV-XVH), October 1988. Centre de recherches mathematiques, Montreal. [SCdR]Google Scholar

Carpenter, G. A., & Grossberg, S. (1987a) A massively parallel architecture for a self-organizing neural pattern recognition machine. Computer Vision, Graphics, and Image Processing 37:54–115. [SG]Google Scholar

(1987b) ART 2: Stable self-organization of pattern recognition codes for analog input patterns. Applied Optics 26:4919–30. [SG]CrossRef Google Scholar

(1988) The ART of adaptive pattern recognition by a self-organizing neural network. Computer 21:77–88. [SG]CrossRef Google Scholar

(in press) ART 3: Hierarchical search using chemical transmitters in self-organizing pattern recognition architectures. Neural Networks. [SG]Google Scholar

Cherry, E. C. (1953) Some experiments on the recognition of speech with one and with two ears. Journal of the Acoustical Society of America 25:975—79. [aRN]CrossRef Google Scholar

Clynes, M. (1969) Dynamics of vertex evoked potentials: The R-M brain function. In: Average evoked potentials: Methods, results, and evaluations, NASA SP-191, ed. Donchin, E. & Lindsley, D. B.. U.S. Government Printing Office. [aRN]Google Scholar

Cohen, M. A., & Grossberg, S. (1986) Neural dynamics of speech and language coding: Developmental programs, perceptual grouping, and competition for short term memory. Human Neurobiology 5:1–22. [SG]Google Scholar PubMed

Coles, M. G. H., Donchin, E. & Porges, S. W. (1986) Preface. In: Psychophysiology: Systems, processes, and applications, ed. Coles, M. G. H., Donchin, E. & Porges, S. W.. Guilford Press. [SCdR]Google Scholar

Coles, M. G. H., Gratton, G., Bashore, T. R., Eriksen, C. W. & Donchin, E. (1985) A psychophysiological investigation of the continuous flow model of human information processing. Journal of Experimental Psychology: Human Perception & Performance 11:529–53. [SPT]Google Scholar PubMed

Coltheart, M. (1980) Iconic memory and visible persistence. Perception & Psychophysics 27:183–228. [IC]Google Scholar

Connolly, J. F., Aubry, K., McGillivary, N. & Scott, D. W. (1989) Human brainstem auditory evoked potentials (BAEP) fail to provide evidence of efferent modulation of auditory input during attentional tasks. Psychophysiology 26:292–303. [aRN]Google Scholar

Cooper, R., McCallum, W. C. & Papakostopoulos, D. (1978) Bimodal slow potential theory of cerebral processing. In: Multidisciplinary perspectives in event-related brain potential research, ed. Otto, D.. Environmental Protection Agency, Washington, D.C. [RK]Google Scholar

Courchesne, E., Hillyard, S. A. & Galambos, R. (1975) Stimulus novelty, task-relevance and the visual evoked potential in man. Electroencephalography and Clinical Neurophysiology 39:131–43. [MNV]Google Scholar

Cowan, N. (1984) On short and long auditory stores. Psychological Bulletin 96:341–70. [aRN, NC]Google Scholar

(1988) Evolving conceptions of memory storage, selective attention, and their mutual constraints within the human information processing system. Psychological Bulletin 104:163–91. [aRN, NC]Google Scholar

Cowan, N. & Barron, A. (1987) Cross-modal, auditory-visual Stroop interference and possible implications for speech memory. Perception and Psychophysics 41:393–401. [SPT]Google Scholar

Cowan, N., Lichty, W. & Grove, T. R. (in press) Properties of memory for unattended spoken syllables. Journal of Experimental Psychology: Learning, memory, (y cognition. [NC]Google Scholar

Creutzfeldt, O. (1984) Impasses and fallacies of the brain-mind discussion. In: Sensory-motor integration in the nervous system, ed. Creutzfeldt, O, et al. Springer-Verlag. [SCdR]Google Scholar

Crowne, D. P. (1983) The frontal eye field and attention. Psychological Bulletin 93:232–60. [KC]CrossRef Google Scholar PubMed

Csépe, V., Karmos, G. & Molnár, M. (1987) Evoked potential correlates of stimulus deviance during wakefulness and sleep in cat: Animal model of mismatch negativity. Electroencephalography and Clinical Neurophysiology 66:571–78. [aRN, RC, GK]Google Scholar

(1989) Subcortical evoked potential correlates of early information processing: Mismatch negativity in cats. In: Dynamics of sensory and cognitive processing by the brain, ed. Basar, E. & Bullock, T. H.. Springer-Verlag. [aRN, GK]Google Scholar

Csépe, V., Karmos, G. & Molnár, M. (1988) Evoked potential correlates of sensory mismatch process during sleep in cats. In: Sleep '86, ed. Koella, W. P., Obal, F., Schulz, H. & Visser, P.. Gustav Fischer Verlag. [aRN]Google Scholar

Curry, S. H., Cooper, R., McCallum, W. C, Pocock, P. V., Papakostopoulos, D., Skidmore, S. & Newton, P. (1983) The principal components of auditory target detection. In: Tutorials in ERP research: Endogenous components, ed. Gaillard, A. W. K. & Ritter, W.. North-Holland. [aRN]Google Scholar

Czigler, I. & Csibra, G. (submitted) Event-related potentials in a visual discrimination task: Negative waves related to mismatch processes and attention. [IC]Google Scholar

Czigler, I. & Szenthe, A. (1988) Selection within fixation: Event-related potentials in a visual matching task. International Journal of Psychophysiology 6:39–49. [RV]Google Scholar

Dai, H. (1989) Detection of unexpected sounds. Unpublished doctoral dissertation. Northeastern University. [BS]Google Scholar

Davis, A. & Beagley, H. (1984) Acoustic brainstem responses for clinical use: The effect of attention. Clinical Otolaryngology 10:311–14. [aRN]Google Scholar

Davis, H., Mast, T., Yoshie, N. & Zerlin, S. (1966) The slow response of the human cortex to auditory stimuli: Recovery process. Electroencephalography and Clinical Neurophysiology 21:105–13. [MNV]Google Scholar

Davis, H., Osterhammel, P. A., Wier, C. C. & Gjerdingen, D. B. (1972) Slow vertex potentials: Interactions among auditory, tactile, electric, and visual stimuli. Electroencephalography and Clinical Neurophysiology 33:537–45. [aRN]Google Scholar

Davis, H. & Zerlin, S. (1966) Acoustic relations of the human vertex potential. Journal of the Acoustical Society of America 39:109–16. [aRN]Google Scholar

Dawson, M. E., Filion, D. L. & Schell, A. M. (1989) Is elicitation of the orienting response associated with allocation of processing resources? Psychophysiology 26:560–72. [PTM]Google Scholar

Debecker, J. & Desmedt, J. E. (1971) Cerebral evoked potential correlates in forced-paired tasks. Nature New Biology 234:118–20. [aRN]Google Scholar

Deecke, L., Kornhuber, H. H., Lang, W., Lang, M. & Schreiber, H. (1985) Timing function of the frontal cortex in sequential motor and learning tasks. Human Neurobiology 4:143–54. [LD]Google Scholar

Deiber, M. P. (1988) Les potentiels évoqués auditifs de latence moyenne chez l’Homme. Thèse de doctorat de l’Université Claude-Bernard, Lyon, France. [MG]Google Scholar

De Renzi, E. (1986) Current issues on prosopagnosia. In: Aspects of face processing (NATO ASI Series), ed. Ellis, H. D., Jeeves, M. A., Newcombe, F. & Young, A. W.. Martinus Nijhoff. [KG]Google Scholar

Desimone, R., Schein, S. J. & Albright, T. D. (1984) Form, color, and motion analysis in prestriate cortex of macaque monkey. In: Study group on pattern recognition mechanisms, ed. Chagas, C.. Pontifical Academy of Sciences. [ABS]Google Scholar

Desmedt, J. E., & Tomberg, C. (1989) Mapping early somatosensory evoked potentials in selective attention: Critical evaluation of control conditions used for titrating by difference the cognitive P30, P40, P100 and N140. Electroencephalography and Clinical Neurophysiology 74:321–46. [MG]Google Scholar

Deutsch, D. (1975) The organization of short-term memory for a single acoustic attribute. In: Short-term memory, ed. Deutsch, D. & Deutsch, J. A.. Academic Press. [aRN]Google Scholar

Deutsch, J. A., & Deutsch, D. (1963) Attention: Some theoretical considerations. Psychological Review 70:80–90. [aRN]Google Scholar

Diamond, D. M., & Weinberger, N. M. (1984) Physiological plasticity of single neurons in auditory cortex of cat during acquisition of the pupillary conditioned and response: II, secondary field (A.II). Behavioral Neuroscience 98:189–210. [aRN]Google Scholar

(1989) Role of context in the expression of learning-induced plasticity of single neurons in auditory cortex. Behavioral Neuroscience 103:471–94. [GK]Google Scholar

Dixon, N. F. (1981) Preconscious processing. Wiley. [JM]Google Scholar

Donald, M. W. (1983) Neural selectivity in auditory attention: Sketch of theory. In: Tutorials in ERP research: Endogenous components, ed. Gaillard, A. W. K. & Ritter, W.. North-Holland. [aRN]Google Scholar

(1987) The timing and polarity of different attention-related ERP changes inside and outside of the attentional focus. In: Current trends in event-related potential research, (EEG Supplement 40), ed. Johnson, R. Jr., Rohrbaugh, J. W. & Parasuraman, R.. Elsevier. [MG, PTM]Google Scholar

Donald, M. W., & Little, R. (1981) The analysis of stimulus probability inside and outside the focus of attention, as reflected by the auditory N1 and P3 components. Canadian Journal of Psychology 35:175—87. [aRN]Google Scholar

Donald, M. W., & Young, M. J. (1982) The time course of selective neural tuning in auditory attention. Experimental Brain Research 46:357–67. [aRN]Google Scholar

Donchin, E. & Coles, M. G. H. (1988) Is the P300 component a manifestation of context updating? Behavioral and Brain Sciences 11:357–74. [aRN]Google Scholar

Donchin, E., Ritter, W. & McCallum, W. C. (1978) Cognitive psychophysiology: The endogenous components of the ERP. In: Event-related brain potentials in man, ed. Callaway, E., Tueting, P. & Koslow, S. H.. Academic Press. [aRN]Google Scholar

Driver, J. & Baylis, G. C. (in preparation) Cross-modal negative priming and Stroop-like interference in selective attention. [SPT]Google Scholar

Driver, J. & Tipper, S. P. (1988) On the nonselectivity of “selective” seeing: Contrasts between interference and priming in selective attention. Journal of Experimental Psychology: Human Perception and Performance 15:304–14. [MDR]Google Scholar

Duncan-Johnson, C. C., & Donchin, E. (1977) On quantifying surprise: The variation of event-related potentials with subjective probability. Psychophysiology 14:456–67. [aRN]Google Scholar

Duncan, C. C., & Kaye, W. H. (1987) Effects of clonidine on event-related potential measures of information processing. In: Current trends in event-related potential research (EEG Supplement 40), ed. Johnson, R. Jr., Rohrbaugh, J. W. & Parasuraman, R.. Elsevier. [aRN]Google Scholar

Eason, R. G. (1981) Visual evoked potential correlates of early neural filtering during selective attention. Bulletin of Psychonomic Society 18:203–06. [rRN, KG]Google Scholar

Eason, R. G., Oakley, M. & Flowers, L. (1983) Central neural influences on the human retina during selective attention. Physiological Psychology 11:18–28. [rRN]Google Scholar

Efron, R. (1970) The relationship between the duration of a stimulus and the duration of a perception. Neuropsychologia 8:37–55. [rRN]Google Scholar

Elberling, C. & Don, M. (1987) Threshold characteristics of the human auditory brain stem response. Journal of the Acoustical Society of America 81(1):115–21. [SCdR]Google Scholar

El Massioui, F. & Lesevre, N. (1988) Selective attention impairment and psychomotor retardation in depressive patients: An ERP study. Electroencephalography and Clinical Neurophysiology 70:46–55. [MG]Google Scholar

Evans, E. F. (1968) Cortical representation. In: Hearing mechanisms in vertebrates. Ciba Foundation Symposia, ed. de Reuck, A. V. S. & Knight, J.. Churchill. [KK]Google Scholar

Evans, E. F., & Whitfield, I. C. (1964) Classification of unit response in the auditory cortex of the unanesthetized and unrestrained cat. Journal of Physiology, London 171:476–93. [KK]Google Scholar

Farah, M. J., & Smith, A. F. (1983) Perceptual interference and facilitation with auditory imagery. Perception & Psychophysics 33:475–78. [NC]Google Scholar

Farell, B. (1985) Same-different judgments: A review of current controversies in perceptual comparisons. Psychological Bulletin 98:419–56. [RV]Google Scholar

Fischler, I., Boaz, T., McGovern Weidner, J. & Ransdell, S. (1987) An ERP analysis of repetition priming in bilinguals. In: Current Trends in event-related potential research, ed. Johnson, R. Jr., Rohrbaugh, J. W. & Parasuraman, R.. (EEG Supplement 40). Elsevier. [SCdR]Google Scholar

Flege, J. E., & Hillenbrand, J. (1984) Limits on phonetic accuracy in foreign language speech production. Journal of the Acoustical Society of America 76(3):7–8–721. [SCdR]Google Scholar

Ford, J. M., & Hillyard, S. A. (1981) Event related potentials (ERPs) to interruptions of steady rhythm. Psychophysiology 18:322–30. [aRN]Google Scholar

Ford, J. M., Roth, W. T. & Kopell, B. S. (1976a) Auditory evoked potentials to unpredictable shifts in pitch. Psychophysiology 13:32–39. [aRN]Google Scholar

(1976b) Attention effects on auditory evoked potentials to infrequent events. Biological Psychology 4:65–77. [aRN]Google Scholar

Gaillard, A. W. K. (1976) Effects of warning-signal modality on the contingent negative variation (CNV). Biological Psychology 4:139–54. [aRN]Google Scholar

(1978) Slow brain potentials preceding task performance. Academische Press B. V. [aRN]Google Scholar

Gaillard, A. W. K., & Lawson, E. A. (1984) Evoked potentials to consonant-vowel syllables in a memory-scanning task. In: Brain and information: Event-related potentials, ed. Karrer, R., Cohen, J. & Tueting, P.. Annals of the New York Academy of Sciences 425. [aRN]Google Scholar

Gaillard, A. W. K., & Verduin, C. J. (1985) Comparisons across paradigms: An ERP study. In: Attention and performance XI, ed. Posner, M. I. & Marin, O. S. M.. Erlbaum. [aRN]Google Scholar

Giard, M. H., Perrin, F. & Pernier, J. (in press) Brain generators implicated in processing of auditory stimulus deviance: A topographic ERP study. Psychophysiology. [aRN]Google Scholar

Giard, M. H., Perrin, F., Pernier, J. & Peronnet, F. (1988) Several attention-related waveforms in auditory areas: A topographic study. Electroencephalography and Clinical Neurophysiology 69:371–84. [aRN, KG, JCH]Google Scholar

Gibson, E. J., & Walk, R. D. (1960) The “visual cliff.” Scientific American 202:64–71. [KG]Google Scholar

Gjerdingen, D. B., & Tomsic, R. (1970) Recovery functions of human cortical potentials evoked by tones, shocks, vibrations and flashes. Psychonomic Science 19:228–29. [aRN]Google Scholar

Glezer, V. D., & Zukkerman, I. I. (1961) Information and vision (in Russian). Leningrad. [KG]Google Scholar

Glezer, V. D., Leushina, L. I., Nevskaja, A. A. & Prazdnikova, N. V. (1974) Studies on visual pattern recognition in man and animals. Vision Research 14:555–83. [KG]Google Scholar

Goff, G. D., Matsumiya, Y., Allison, T. & Goff, W. R. (1977) The scalp topography of human somatosensory and auditory evoked potentials. Electroencephalography and Clinical Neurophysiology 42:57–76. [aRN]Google Scholar

Goldberg, G. (1985) Supplementary motor area structure and function: Review and hypotheses. Behavioral and Brain Sciences 8:567–616. [aRN]Google Scholar

Goldberg, M. E., & Seagraves, M. A. (1987) Visuospatial and motor attention in the monkey. Neuropsychologia 25:107–18. [KG]Google Scholar

Goldman-Rakic, P. S. (1987) Circuitry of primate prefrontal cortex and regulation of behavior by representational memory. In: Handbook of physiology: The nervous system V (Higher cortical function), ed. Plum, F. & Mountcastle, V.. American Physiological Society. [ABS]Google Scholar

(1988) Topography of cognition: Parallel distributed networks in primate association cortex. Annual Review of Neuroscience 11:137–56. [MRH]Google Scholar

Goodin, D. S., Squires, K. C, Henderson, B. H. & Starr, A. (1978) An early event-related cortical potential. Psychophysiology 15:360–65. [aRN]Google Scholar

Gould, J. D. (1967) Pattern recognition and eye-movement parameters. Perception and Psychophysics 2:399–407. [rRN]Google Scholar

Gould, J. D., & Dill, A. B. (1969) Eye-movement parameters and pattern discrimination. Perception and Psychophysics 6:311–320. [rRN]Google Scholar

Gould, J. D., & Peeples, D. R. (1970) Eye movements during visual search and discrimination of meaningless, symbol, and object patterns. Journal of Experimental Psychology 1:51–55. [rRN]Google Scholar

Graham, F. K. (1975) The more or less startling effects of weak prestimulation. Psychophysiology 12:238–48. [aRN]Google Scholar

(1979) Distinguishing among orienting, defence, and startle reflexes. In: The orienting reflex in humans, ed. Kimmel, H. D., van Olst, E. H. & Orlebeke, J. F.. Erlbaum. [aRN]Google Scholar

Greenberg, G. & Larkin, W. (1968) Frequency-response characteristic of auditory observers detecting signals of a single frequency in noise: The probe-signal method. Journal of the Acoustical Society of America 44: 1513–23. [BS]Google Scholar

Greenwald, A. G. (1970) A double stimulation test of ideomotor theory with implications for selective attention. Journal of Experimental Psychology 84:392–98. [aRN]Google Scholar

Groeger, J. A. (1988) Qualitatively different effects of undetected and unidentified auditory primes. Quarterly Journal of Experimental Psychology 40A:323–39. [GU]Google Scholar

Gross, C. G., Rocha-Miranda, C. E. & Bender, D. B. (1972) Visual properties of neurons in inferotemporal cortex of the macaque. Journal of Neurophysiology 35:96–111. [KG]Google Scholar

Grossberg, S. (1976) Adaptive pattern classification and universal recoding, II: Feedback, expectation, olfaction, and illusions. Biological Cybernetics 23:187–202. [SG]Google Scholar

(1978) A theory of human memory: Self-organization and performance of sensory-motor codes, maps, and plans. In: Progress in theoretical biology, vol. 5, ed. Rosen, R. and Snell, F.. Academic Press. [SG]Google Scholar

(1980) How does a brain build a cognitive code? Psychological Review 87:1–51, [SG]Google Scholar

(1982) The processing of expected and unexpected events during conditioning and attention: A psychophysiological theory. Psychological Review 89:529–72. [aRN, SG]Google Scholar

(1984) Some psychophysiological and pharmacological correlates of a developmental, cognitive and motivational theory. In: Brain and information: Event-related potentials. New York Academy of Science. [aRN, SG]Google Scholar

(1986) The adaptive self-organization of serial order in behavior: Speech, language, and motor control. In: Pattern recognition by humans and machines, vol. 1: Speech perception, ed. Schwab, E. C. & Nusbaum, H. C.. Academic Press. [SG]Google Scholar

Grossberg, S. & Stone, G. O. (1986) Neural dynamics of word recognition and recall: Attentional priming, learning, and resonance. Psychological Review 93:46–74. [SG]Google Scholar

Haber, R. N. (1983) The impending demise of the icon: A critique of the concept of iconic storage in visual information processing. Behavioral and Brain Sciences 6:1–54. [aRN, IC]Google Scholar

Hackley, S. A., & Graham, F. K. (1984) Early selective attention effects on cutaneous and acoustic blink reflexes. Physiological Psychology 11:235–42. [aRN]Google Scholar

(1987) Effects of attending selectively to the spatial position of reflex-eliciting and reflex-modulating stimuli. Journal of Experimental Psychology: Human Perception and Performance 13:411–24. [aRN]Google Scholar

Hackley, S. A., Woldorff, M. & Hillyard, S. A. (1987) Combined use of microreflexes and event-related potentials as measures of auditory selective attention. Psychophysiology 24:632–47. [aRN, MW]Google Scholar

(in press) Cross-modal selective attention effects on retinal, myogenic, brainstem and cerebral evoked potentials. Psychophysiology. [aRN, KC]Google Scholar

Haenny, P. E., Maunsell, J. H. R. & Schiller, P. H. (1988) State dependent activity in monkey visual cortex: II. Retinal and extraretinal factors in V4. Experimental Brain Research 69:245–59. [ABS]Google Scholar

Hämäläinen, H., Kekoni, J., Sams, M., Reinikainen, K., Hamalainen, M. & Naatanen, R. (1990) Human somatosensory evoked potentials to mechanical pulses and vibration. Electroencephalography and Clinical Neurophysiology 75:13–21. [aRN]Google Scholar

Hanna, T. E., von Gierke, S. M. & Green, D. M. (1986) Detection and intensity discrimination of a sinusoid. Journal of the Acoustical Society of America 80:1335–40. [KK]Google Scholar

Hansen, J. C., & Hillyard, S. A. (1980) Endogenous brain potentials associated with selective auditory attention. Electroencephalography and Clinical Neurophysiology 49:277–90. [aRN, JCH, TO, ABS]Google Scholar

(1983) Selective attention to multidimensional auditory stimuli. Journal of Experimental Psychology: Human Perception and Performance 9:1—19. [aRN, DLW]Google Scholar

(1984) Effects of stimulation rate and attribute cuing on event-related potentials during selective auditory attention. Psychophysiology 21:394–405. [aRN]Google Scholar

(1988) Temporal dynamics of human auditory selective attention. Psychophysiology 25:316–29. [aRN, DLW]Google Scholar

Hansen, J. C, Dickstein, P. W., Berka, C. & Hillyard, S. A. (1983) Event-related potentials during selective attention to speech sounds. Biological Psychology 16:211–24. [aRN]Google Scholar

Hansen, J. C., & Woldorff, M. (in press) Mechanisms of auditory selective attention as revealed by event-related potentials. In: Proceedings of the ninth international conference on event-related potentials of the brain, ed. C. H. M. Brunia, A. Gaillard, A. W. K. Kok, G. Mulder & M. N. Verbaten. Tilburg University Press. [JCH, MGW]Google Scholar

Hari, R. (1980) Evoked potentials elicited by long vibrotactile stimuli in the human EEG. Pfliigers Archives 384:167–70. [aRN]Google Scholar

(in press) The neuromagnetic method in the study of human auditory cortex. In: Auditory evoked potentials and fields, ed. F. Grandori, G. L.Romani & M. Hoke. Karger. [aRN]Google Scholar

Hari, R., Aittoniemi, K., Jarvinen, M. L., Katila, T. & Varpula, T. (1980) Auditory transient and sustained magnetic fields of the human brain. Localization of neural generators. Experimental Brain Research 40:237–40. [aRN]Google Scholar

Hari, R., Hämäläinen, M., Ilmoniemi, R., Kaukoranta, E., Reinikainen, K., Salminen, J., Alho, K., Näätänen, R. & Sams, M. (1984) Responses of the primary auditory cortex to pitch changes in a sequence of tone pips: Neuromagnetic recordings in man. Neuroscience Letters 50; 127–32. [aRN]Google Scholar

Hari, R., Hämäläinen, M., Kaukoranta, E., Mäkëla, J., Joutsiniemi, S.-L. & Tiihonen, J. (1989) Selective listening modifies activity of the human auditory cortex. Experimental Brain Research 74:463–70. [aRN]Google Scholar

Hari, R., Joutsiniemi, S.-L., Hämäläinen, M. & Vilkman, V. (1989) Neuromagnetic responses of human auditory cortex to interruptions in a steady rhythm. Neuroscience Letters. [aRN]Google Scholar

Hari, R., Kaila, K., Katila, T., Tuomisto, T. & Varpula, T. (1982) Interstimulus interval dependence of the auditory vertex response and its magnetic counterpart: Implications for their neural generation. Electroencephalography and Clinical Neurophysiology 54:561–69. [aRN, MNV]Google Scholar

Hari, R., Pelizzone, M., Mäkëla, J. P., Hällström, J., Leinonen, L. & Lounasmaa, O. V. (1987) Neuromagnetic responses of the human auditory cortex to on- and offsets of noise bursts. Audiology 26:31–43. [aRN]Google Scholar

Harter, M. R. (in press) Visual-spatial attention: Preparation and selection in children and adults. In: Proceedings of the ninth international conference on event-related potentials of the brain, ed. C. H. M. Brunia, A. W. K. Gaillard, A. Kok, G. Mulder & M. N. Verbaten. Elsevier. [MRH]Google Scholar

Harter, M. R., & Aine, C. J. (1984) Brain mechanisms of visual selective attention. In: Varieties of attention, ed. Parasuraman, R.. Academic Press. [aRN, JCH, MRH]Google Scholar

(1986) Discussion of neural-specificity model of selective attention: A response to Hillyard and Mangun and to Näätänen. Biological Psychology 23:297–312. [MRH]Google Scholar

Harter, M. R., Anllo-Vento, L. & Wood, F. B. (1989) Event-related potentials, spatial orienting, and reading disabilities. Psychophysiology 26:404–21. [MRH]Google Scholar

Harter, M. R., & Guido, W. (1980) Attention to pattern orientation: Negative cortical potentials, reaction time, and the selection process. Electroencephalography and Clinical Neurophysiology 49:461–75. [aRN, IC]Google Scholar

Harter, M. R., Miller, S. L., Price, N. J., LaLonde, M. E. & Keyes, A. L. (1989) Neural processes involved in directing attention. Journal of Cognitive Neuroscience 1:223–37. [MRH]Google Scholar

Harter, M. R., & Previc, F. H. (1978) Size-specific information channels and selective attention: Visual evoked potential and behavioral measures. Electroencephalography and Clinical Neurophysiology 45:628–40. [aRN, IC, JCH]Google Scholar

Hartley, I. R. (1970) The effect of stimulus relevance on the cortical evoked potentials. Quarterly Journal of Experimental Psychology 22:531–46. [aRN, JCH]Google Scholar

Helson, H. (1964) Adaptation-level theory: An experimental and systematic approach to behavior. Harper and Row. [PU]Google Scholar

Hernandez-Peon, R., Scherrer, H. & Jouvet, M. (1956) Modification of electrical activity in the cochlear nucleus during attention in unanesthetized cats. Science 123:331–32. [aRN]Google Scholar

Hillyard, S. A. (1981) Selective auditory attention and early event-related potentials: A rejoinder. Canadian Journal of Psychology 35:85–100. [aRN, JCH]Google Scholar

Hillyard, S. A., Hink, R. F., Schwent, V. L. & Picton, T. W. (1973) Electrical signs of selective attention in the human brain. Science 182:177–80. [aRN, JCH, GK]Google Scholar

Hillyard, S. A., & Kutas, M. (1983) Electrophysiology of cognitive processing. Annual Review of Psychology 34:33–61. [aRN]Google Scholar

Hillyard, S. A., & Mangun, G. R. (1986) The neural basis of visual selective attention: A commentary on Harter and Aine. Biological Psychology 23:265–79. [aRN]Google Scholar

(1987) Commentary: Sensory gating as a physiological mechanism for visual selective attention. In: Current trends in event-related potential research (EEG Supplement 40), ed. Johnson, R. Jr., Parasuraman, R. & Rohrbaugh, J. W.. Elsevier. [aRN]Google Scholar

Hillyard, S. A., & Miinte, T. F. (1984) Selective attention to color and location: An analysis with event-related brain potentials. Perception and Psychophysics 36:185–98. [aRN]Google Scholar

Hillyard, S. A., Miinte, T. F. & Neville, H. J. (1985) Visual-spatial attention, orienting, and brain physiology. In: Attention and performance XI, ed. Posner, M. I. & Marin, O. S. M.. Erlbaum. [aRN, MRH]Google Scholar

Hillyard, S. A., & Picton, T. W. (1979) Event-related brain potentials and selective information processing in man. In: Cognitive components in cerebral event-related potentials and selective attention. Progress in Clinical Neurophysiology 6, ed. Desmedt, J. E.. Karger. [aRN]Google Scholar

Hillyard, S. A., Woldorff, M., Mangun, G. R. & Hansen, J. C. (1987) Mechanisms of early selective attention in auditory and visual modalities. In: The London symposia (EEG Supplement 39), ed. Ellingson, R. J., Murray, N. M. F. & Halliday, A. M.. Elsevier. [aRN]Google Scholar

Hink, R. F., Fenton, W. H. Jr., Pfefferbaum, A., Tinklenberg, J. R. & Kopell, B. S. (1978) The distribution of attention across auditory input channels: An assessment using the human evoked potential. Psychophysiology 15:466–73. [aRN]Google Scholar

Hink, R. F., Hillyard, S. A. & Benson, P. J. (1978) Event-related brain potentials and selective attention to acoustic and phonetic cues. Biological Psychology 6:1–16. [aRN]Google Scholar

Hink, R. F., Van Voorhis, S. T., Hillyard, S. A. & Smith, T. S. (1977) The division of attention and the human auditory evoked potential. Neuropsychologia 15:597–605. [TO]Google Scholar

Hocherman, S., Benson, D. A., Goldstein, M. H., Heifher, H. E. & Hienz, R. D. (1976) Evoked unit activity in auditory cortex of monkeys performing a selective attention task. Brain Research 117:51–68. [aRN]Google Scholar

Holender, D. (1986) Semantic activation without conscious identification in dichotic listening, parafoveal vision, and visual masking: A survey and appraisal. Behavioral and Brain Sciences 9:1–66. [aRN, JM, MDR, GU]Google Scholar

Horn, G. (1965) Physiological and psychological aspects of selective perception. In: Advances in animal behavior 1, ed. Lehrmann, D. S. & Hinde, R. A.. Academic Press. [aRN]Google Scholar

Hyona, J., Nierni, P. & Underwood, G. (1989) Reading long words embedded in sentences: Informativeness of word halves affects eye movements. Journal of Experimental Psychology: Human Perception and Performance 15:142–52. [GU]Google Scholar

Imig, T. J., & Brugge, J. F. (1978) Sources and terminations of callosal axons related to binaural and frequency maps in primary auditory cortex of the cat. Journal of Comparative Neurology 182:637–60. [DLW]Google Scholar

Intons-Peterson, M. J. (1980) The role of loudness in auditory imagery. Memory ir Cognition 8:385–93. [NC]Google Scholar

James, W. (1890) The principles of psychology. Holt. [aRN, IC]Google Scholar

Järvilehto, T., Hari, R. & Sams, M. (1978) Effect of stimulus repetition on negative sustained potentials associated with motor and mental acts in man. Biological Psychology 7:1–12. [aRN]Google Scholar

Johnston, W. A., & Dark, V. J. (1982) In defence of intraperceptual theories of attention. Journal of Experimental Psychology: Human Perception and Performance 8:407–21. [aRN]Google Scholar

(1986) Selective attention. Annual Review of Psychology 37:43–75. [aRN, MDR]Google Scholar

Johnston, W. A., Hawley, K. J., Plewe, S. H., Elliot, J. M. & DeWitt, M. J. (submitted) The popout of novel words from briefly exposed arrays. [WAJ]Google Scholar

Julesz, B. & Bergen, J. R. (1983) Textons, the fundamental elements in preattentive vision and perception of textures. The Bell System Technical Journal 62(6): 1619–45. [ABS]Google Scholar

Julesz, B. & Chiarucci, E. (1973) Short term memory for stroboscopic movement perception. Perception 2:249–60. [KG]Google Scholar

Kahneman, D. (1973) Attention and effort. Prentice-Hall. [PTM, ES]Google Scholar

Kahneman, D. & Henik, A. (1981) Perceptual organization and attention. In: Perceptual organization, ed. Kubovy, M & Pomerantz, J. R.. Erlbaum. [PTM]Google Scholar

Kahneman, D. & Treisman, A. M. (1984) Changing views of attention and automaticity. In: Varieties of attention, ed. Parasuraman, R. & Davies, D. R.. Academic Press. [aRN]Google Scholar

Karlin, L. (1970) Cognition, preparation, and sensory-evoked potentials. Psychological Bulletin 73:122–36. [aRN]Google Scholar

Kasamatsu, T. & Pettigrew, J. D. (1976) Depletion of brain catecholamines: Failure of ocular dominance shift after monocular occlusion in kittens. Science 194:206–09. [SG]Google Scholar

Kaufman, L. (1985) Attention related difference waves in the magnetoencephalography. Electroencephalography and Clinical Neurophysiology 61:S35. [MG]Google Scholar

Kaufman, L. & Williamson, S. J. (1987) Recent developments in neuromagnetism. In: Evoked potentials III, ed. Barber, C. & Blum, T.. Butterworths. [aRN]Google Scholar

(1988) Recent developments in neuromagnetism: Implications for imaging. In: Functional brain imaging, ed. Pfurtscheller, G. & Lopes da Silva, F. H.. Hans Huber Publishers. [aRN]Google Scholar

Kaukoranta, E., Sams, M., Hari, R., Hämäläinen, M. & Näätänen, R. (1989) Reactions of human auditory cortex to a change in tone duration. Hearing Research 41:15–21. [aRN]Google Scholar

Keidel, W. D. (1973) Kurzgefasstes Lehrbuch der Physiologic. Georg Thieme Verlag. [PU]Google Scholar

Kemp-Wheeler, S. M., & Hill, A. B. (1988) Semantic priming without awareness: Some methodological considerations and replications. Quarterly Journal of Experimental Psychology 40A:671–92. [GU]Google Scholar

Kenemans, J. L., Verbaten, M. N., Melis, C. & Slangen, J. L. (submitted) Average and single-trial ERPs to visual probes: Effects of task load and repeated stimulus change. [MNV]Google Scholar

Kenemans, J. L., Verbaten, M. N., Roelofs, J. W. & Slangen, J. L. (1989) Initial- and change-orienting reactions: An analysis based on single-trial event-related potentials. Biological Psychology 28:199–226. [MNV]Google Scholar

Knight, R. T. (1984) Decreased response to novel stimuli after prefrontal lesions in man. Electroencephalography and Clinical Neurophysiology 59:9–20. [aRN]Google Scholar

(in press) Neural mechanisms of event related potentials: Evidence from human lesion studies. In: Event-related brain potentials: Issues and interdisciplinary vantages, ed. J. W. Rohrbaugh, R. Parasuraman & R. Johnson, Jr. Oxford University Press. [aRN]Google Scholar

Knight, R. T., Hillyard, S. A., Woods, D. L. & Neville, H. J. (1981) The effects of frontal cortex lesions on event-related potentials during auditory selective attention. Electroencephalography and Clinical Neurophysiology 52:571–82. [aRN]Google Scholar

Kodera, K., Hink, R. F., Yamada, O. & Suzuki, J. (1979) Effects of rise time on simultaneously recorded auditory-evoked potentials from the early, middle and late ranges. Audiology 18:395–402. [aRN]Google Scholar

Konorski, J. (1967) Integrative activity of the brain: An interdisciplinary approach. University of Chicago Press. [KC]Google Scholar

Kornhuber, H. H., Deecke, L., Lang, W., Lang, M. & Komjiuber, A. (1989) Will, volitional action, attention and cerebral potentials in man: Bereitschaftspotential, performance-related potentials, directed attention potential, EEG spectrum changes. In: Volitional action: Advances in psychology, ed. Hershberger, W.. Elsevier. [LD]Google Scholar

Kramer, A. F., Sirevaag, E. & Hughes, P. (1988) Effects of foveal task load on visual-spatial attention: Event-related brain potential and performance. Psychophysiology 25:512–31. [ES]Google Scholar

Kramer, A. F., & Strayer, D. L. (1988) Assessing the development of automatic processing: An application of dual-task and event-related brain potential methodologies. Biological Psychology 26:231–67. [JPB]Google Scholar

Kristeva, R. (1977) Study of the motor potential during voluntary recurrent movement. Electroencephalography and Clinical Neurophysiology 42:538. [RK]Google Scholar

Kroll, N. E. A. (1975) Visual short-term memory. In: Short-term memory, ed. Deutsch, D. & Deutsch, J. A.. Academic Press. [aRN]Google Scholar

Kropotov, J. D., & Ponomarev, V. A. (in press) Subcortical neuronal correlates of component P300 in man. Electroencephalography and Clinical Neurophysiology. [rRN]Google Scholar

Krôse, B. J. A. (1986) A description of visual structure: Relations with human information processing mechanisms. Offsetdrukkerij Kanters B.V. [ABS]Google Scholar

Kutas, M. & Hillyard, S. A. (1980) Reading senseless sentences: Brain potentials reflect semantic incongruity. Science 207:203–04. [SCdR]Google Scholar

Labov, W. (1972) Sociolinguistic patterns. University of Pennsylvania Press. [SCdR]Google Scholar

Lambert, A. J., Beard, C. T. & Thompson, R. J. (1988) Selective attention, visual laterality, awareness, and perceiving the meaning of parafoveally presented words. Quarterly Journal of Experimental Psychology 40A:615–52. [GU]Google Scholar

Laming, D. (1988) Precis of sensory analysis. Behavioral and Brain Sciences 11:275–339. [KK]Google Scholar

Lang, A. H., Nyrke, T., Aaltonen, O., Tuhkanen, M., Raimo, I. & Naatanen, R. (submitted) Event-related potentials in passive condition predict individual accuracy of auditory discrimination performance. [aRN]Google Scholar

Lang, A. H., Nyrke, T., Ek, M., Aaltonen, O., Raimo, I. & Näätänen, R. (in press) Pitch discrimination performance and auditory event-related potentials. In: Proceedings of the Ninth International Conference on event-related potentials of the brain, ed. C. H. M. Brunia, A. W. K. Gaillard, A. Kok, G. Mulder & M. N. Verbaten. Tilburg University Press. [aRN]Google Scholar

Lang, W., Lang, M., Heise, B., Deecke, L. & Kornhuber, H. H. (1984) Brain potentials related to voluntary hand tracking, motivation and attention. Human Neurobiology 3:235–40. [LD]Google Scholar

Lang, W., Lang, M., Uhl, F., Koska, Ch., Kornhuber, A. & Deecke, L. (1988) Negative cortical DC shifts preceding and accompanying simultaneous and sequential finger movements. Experimental Brain Research 71:579–87. [LD]Google Scholar

LeDoux, J. E., & Hirst, W. (1986) Cognitive neuroscience: An overview. In: Mind and brain: Dialogues in cognitive neuroscience, ed. LeDoux, J. E. & Hirst, W.. Cambridge University Press. [SCdR]Google Scholar

Lehtonen, J. B. (1973) Functional differentiation between late components of visual evoked potentials recorded at occiput and vertex: Effect of stimulus interval and contour. Electroencephalography and Clinical Neurophysiology 35:75–82. [aRN]Google Scholar

Libet, B. (1982) Brain stimulation in the study of neuronal functions for conscious sensory experiences. Human Neurobiology 1:235–42. [BL]Google Scholar

(1987) Consciousness: Conscious, subjective experience. In: Encyclopedia of Neurosdience, ed. Adelman, G.. Birkhauser. [GL]Google Scholar

(in press) Conscious subjective experience vs. unconscious mental functions: A theory of cerebral processes involved. In: Models of Brain Function, ed. R. Cotterill. Cambridge University Press. [BL]Google Scholar

Libet, B., Alberts, W. W., Wright, E. W. & Feinstein, B. (1967) Responses of human somatosensory cortex to stimuli below threshold for conscious sensation. Science 158:1597–1600. [BL]Google Scholar

(1975) Cortical representation of evoked potentials relative to conscious sensory responses and of somatosensory qualities. In: The somatosensory system, ed. Kornhuber, H. H.. Georg Thieme. [BL]Google Scholar

Linden, R. D., Picton, T. W., Hamel, G. & Campbell, K. B. (1987) Human auditory steady-state evoked potentials during selective attention. Electroencephalography and Clinical Neurophysiology 66:145–59. [aRN]Google Scholar

Lindsley, D. B. (1960) Attention, consciousness, sleep and wakefulness. In: Handbook of physiology, neurophysiology III, ed. Field, J. et al., Washington D.C.: American Physiological Society. [aRN]Google Scholar

(1961) The reticular activating system and perceptual integration. In: Electrical stimulation of the brain, ed. Sheer, D. E.. University of Texas Press. [aRN]Google Scholar

Livingston, R. B. (1978) Sensory processing, perception and behavior. Raven Press. [KG]Google Scholar

Logan, G. D. (1979) On the use of a concurrent memory load to measure attention and automaticity. Journal of Experimental Psychology: Human Perception and Performance 5:189–207. [aRN]Google Scholar

Lounasmaa, O. V., Hari, R., Joutsiniemi, S. L. & Hämäläinen, M. (1989) Multi SQUID recordings of human cerebral magnetic fields may give information about memory processes in the human brain. Europhysics Letters 9:603–8. [aRN]Google Scholar

Loveless, N. E. (1979) Event-related slow potentials of the brain as expressions of orienting function. In: The orienting reflex in humans, ed. Kimmel, H. D., van Olst, E. H. & Orlebeke, J. F.. Erlbaum. [aRN]Google Scholar

(1983) The orienting response and evoked potentials in man. In: Orienting and habituation: Perspectives in human research, ed. Siddle, D.. Wiley. [aRN]Google Scholar

Loveless, N. E., & Sanford, A. J. (1974) Slow potential correlates of preparatory set. Biological Psychology 1:303–14. [aRN]Google Scholar

Loveless, N. E., Simpson, M. & Naatanen, R. (1987) Frontal negative and parietal positive components of the slow wave dissociated. Psychophysiology 24:340–45. [aRN]Google Scholar

Lueck, C. J., Zeki, S., Friston, K. J., Deiber, M. P., Cope, P. S., Cunningham, V. J., Lammertsma, A. A., Kennard, C. & Frackowiak, R. S. (1989) Color center in the cerebral cortex on man. Nature 340:386–89. [KG]Google Scholar

Lukas, J. H. (1980) Human auditory attention: The olivocochlear bundle may function as a peripheral filter. Psychophysiology 17:444–52. [aRN]Google Scholar

(1981) The role of efferent inhibition in human auditory attention. An examination of the auditory brainstem potentials. International Journal of Neuroscience 12:137–45. [aRN, KG]Google Scholar

Luria, A. R., & Homskaya, E. D. (1970) Frontal lobes and the regulation of arousal processes. In: Attention: Contemporary theory and analysis, ed. Mostofsky, D. I.. Appleton-Century-Crofts. [aRN]Google Scholar

Lyytinen, H. (submitted) Comparison of ERP- and ANS-responses to auditory stimuli in ignore and attended conditions. (Handout of poster presentation on IXth EPIC Meeting,. Noordwijk, 1989.) [GK]Google Scholar

Lyytinen, H., Blomberg, A.-P. & Näätänen, R. (submitted) Autonomic concomitants of event-related potentials in the auditory oddball paradigm. [aRN]Google Scholar

Lyytinen, H. & Näätänen, R. (1987) Autonomic and ERP responses to deviant stimuli: Analysis of covariation. In: Current trends in event-related potential research (EEG Supplement 40), ed. Johnson, R. Jr., Parasuraman, R. & Rohrbaugh, J. W.. Elsevier. [aRN]Google Scholar

Maiste, A. C., & Picton, T. W. (1987) Auditory evoked potentials during selective attention. In: Evoked potentials III, ed. Barber, C. & Blum, T.. Butterworths. [aRN]Google Scholar

Mäkelä, J. P. (1988) Auditory evoked magnetic fields in man. Doctoral dissertation. University of Helsinki. [aRN]Google Scholar

Mäkelä, J. P., Hari, R. & Leinonen, L. (1988) Magnetic responses of the human auditory cortex to noise/square wave transitions. Electroencephalography and Clinical Neurophysiology 69:423–30. [aRN]Google Scholar

Mäkelä, J. P., Hari, R. & Linnankivi, A. (1987) Different analysis of frequency and amplitude modulations of a continuous tone in the human auditory cortex: A neuromagnetic study. Hearing Research 27:257–64. [aRN]Google Scholar

Mangun, G. R., Hansen, J. C. & Hillyard, S. A. (1987) The spatial orienting of attention: Sensory facilitation or response bias? In: Current trends in event-related potential research (EEG Supplement 40), ed. Johnson, R. Jr., Rohrbaugh, J. W. & Parasuraman, R.. Elsevier. [MRH, JM]Google Scholar

(1986) Electroretinograms reveal no evidence for centrifugal modulation of retinal inputs during selective attention in man. Psychophysiology 23:156–165. [rRN]Google Scholar

Mangun, G. R., & Hillyard, S. A. (1987) The spatial allocation of visual attention as indexed by event-related brain potentials. Human Factors 29:195–211. [aRN]Google Scholar

Mäntysalo, S. & Näätänen, R. (1987) The duration of a neuronal trace of an auditory stimulus as indicated by event-related potentials. Biological Psychology 24:183–95. [aRN]Google Scholar

Massaro, D. W. (1976) Auditory information processing. In: Handbook of learning and memory, ed. Estes, W. K.. Erlbaum. [rRN]Google Scholar

(1975) Backward recognition masking. Journal of the Acoustical Society of America 58:1059–65. [NC]Google Scholar

Mast, T. E., & Watson, C. S. (1968) Attention and auditory evoked responses to low-detectability signals. Perception and Psychophysics 4:237–40. [aRN]Google Scholar

Matsubara, J. A., & Phillips, D. P. (1989) Intracortical connections and their physiological correlates in the primary auditory cortex (AI) of the cat. Journal of Comparative Neurology 268:38–48. [KK]Google Scholar

McCallum, W. C, Barrett, K. & Pocock, P. V. (in press) Late ERP components to eighth equiprobable stimuli in an auditory target detection task. Psychophysiology. [aRN]Google Scholar

McCallum, W. C, Curry, S. H., Cooper, R., Pocock, P. V. & Papakostopoulos, D. (1983) Brain event-related potentials as indicators of early selective processes in auditory target localization. Psychophysiology 20:1–117. [aRN]Google Scholar

McClelland, J. (1979) On the time relations of mental processes: An examination of systems of processes in cascade. Psychological Review 86:287–330. [ES]Google Scholar

McMillan, N. A. (1973) Detection and recognition of intensity changes in tone and noise: The detection-recognition disparity. Perception and Psychophysics 13:65–75. [aRN]Google Scholar

Merzenich, M. M., & Brugge, J. F. (1973) Representation of the cochlear partition on the superior temporal plane of the macaque monkey. Brain Research 50:275–96. [DLW]Google Scholar

Mesulam, M. M. (1981) A cortical network for directed attention and unilateral neglect. Annals of Neurology 10:309–25. [DLW]Google Scholar

Meyer, D. E., & Gordon, P. C. (1982) Dependencies between rapid speech perception and production: Evidence for a shared sensorimotor voicing mechanism. In: Attention and performance X: Control of language processes, ed. Bouma, H. & Bouwhuis, D. G.. Erlbaum. [SCdR]Google Scholar

Meuter, R. & Donald, M. W. (1987) A comparison of first- and second-language ERPs in bilinguals. In: Current trends in event-related potential research, ed. Johnson, R., Rohrbaugh, J. W. & Parasuraman, R.. EEG, Supplement 40). Elsevier. [SCdR]Google Scholar

Michie, P. T., Bearpark, H. M., Crawford, J. M. & Glue, L. C. T. (submitted) The nature of selective attention effects on auditory event-related potentials. [PTM]Google Scholar

Michie, P. T., Crawford, J. M., Bearpark, H. M. & Glue, L. C. T. (1986) The nature of selective attention effects on auditory ERPs. Proceedings of the Eighth International Conference on Event-related Potentials of the Brain (Stanford, CA) 171–73. [MG]Google Scholar

Michie, P. T., Fox, A. M., Ward, P. B., Catts, S. V. & McConaghy, N. (in press) ERP indices of selective attention and cortical lateralization in schizophrenia. Psychophysiology. [PTM]Google Scholar

Michie, P. T., Solowij, N., Crawford, J. M. & Glue, L. C. T. (submitted) Auditory ERPs during auditory attention and a visual control task: Effects of auditory task difficulty. [PTM]Google Scholar

Moran, J. & Desimone, R. (1985) Selective attention gates visual processing in the extrastriate cortex. Science 229:782–84. [SPT, DLW]Google Scholar

Moray, N. (1959) Attention in dichotic listening: Affective cues and the influence of instructions. Quarterly Journal of Experimental Psychology 9:56–60. [aRN]Google Scholar

Mountcastle, V. B., Lynch, J. C, Georgopoulos, A., Sakata, H. & Acuna, C. (1975) Posterior parietal association cortex of the monkey: Command functions for operations within extrapersonal space. Journal of Neurophysiology 38:871–908. [LD]Google Scholar

Mulder, G. (1979) Mental load, mental effort and attention. In: Mental workload: Its theory and measurement, ed. Moray, N.. Plenum Press. [ES]Google Scholar

Näätänen, R. (1967) Selective attention and evoked potentials. Annales Academiae Scientiarum Fennieae B 151:1–226. [aRN]Google Scholar

(1970) Evoked potential, EEG and slow potential correlates of selective attention. In: Attention and performance III, ed. A. F. Sanders. Acta Psychologica 33:178–92. [aRN]Google Scholar

(1975) Selective attention and evoked potentials in humans: A critical review. Biological Psychology 2:237–307. [aRN]Google Scholar

(1979) Orienting and evoked potentials. In: The orienting reflex in humans, ed. Kimmel, H. D., van Olst, E. H. & Orlebeke, J. F.. Erlbaum. [aRN]Google Scholar

(1982) Processing negativity: An evoked-potential reflection of selective attention. Psychological Bulletin 92:605–40. [aRN, MRH]Google Scholar

(1984) In search of a short-duration memory trace of a stimulus in the human brain. In: Human action and personality. Essays in Honour of Martti Takala, ed. Pulkkinen, L. & Lyytinen, P.. Jyvaskyla Studies in Education, Psychology and Social Research 54. University of Jyvaskyla. [aRN]Google Scholar

(1986a) Neurophysiological basis of the echoic memory as suggested by event-related potentials and magnetoencephalogram. In Human memory and cognitive capabilities, ed. Klix, F. & Hagendorf, H.. Elsevier. [aRN, MW]Google Scholar

(1986b) The orienting response theory: An integration of informational and energetical aspects of brain function. In: Adaptation to stress and task demands: Energetical aspects of human information processing, ed. Hockey, R. G. J., Gaillard, A. W. K. & Coles, M. G. H.. Martinus Nijhoff. [aRN]Google Scholar

(1986c) Processing of the unattended message during selective dichotic listening. Behavioral and Brain Sciences 9:43–44. [aRN]Google Scholar

(1986d) N2 and automatic versus controlled processes: A classification of N2 kinds of ERP components. In: Cerebral psychophysiology: Studies in event-related potentials (EEG Supplement 38), ed. McCallum, W. C., Zappoli, R. & Denoth, F.. Elsevier. [aRN]Google Scholar

(1986e) The neural-specificity theory of visual selective attention evaluated: A commentary on Harter and Aine. Biological Psychology 23:281–95. [aRN]Google Scholar

(1987) Event-related brain potentials in research of cognitive processes: A classification of components. In: Knowledge aided information processing, ed. van der Meer, E. & Hoffmann, J.. Elsevier. [aRN]Google Scholar

(1988) Implications of ERP data for psychological theories of attention. Biological Psychology 26:117–63. [aRN, JCH, MRH, RK, TO]Google Scholar

Näätänen, R. & Gaillard, A. W. K. (1983) The orienting reflex and the N2 deflection of the event-related potential (ERP). In: Tutorials in ERP research: Endogenous components, ed. Gaillard, A. W. K. & Ritter, W.. North-Holland. [MW]Google Scholar

Näätänen, R., Gaillard, A. W. K. & Mäntysalo, S. (1978) Early selective attention effect on evoked potential reinterpreted. Acta Psychologica 42:313–29. [aRN, RC, SG, JCH, MW]Google Scholar

(1980) Brain potential correlates of voluntary and involuntary attention. In: Motivation, motor and sensory processes of the brain: Electrical potentials, behaviour and clinical use, Progress in Brain Research 54, ed Kornhuber, H. H. & Deecke, L.. Elsevier. [aRN, MW]Google Scholar

Näätänen, R., Gaillard, A. W. K. & Varey, C. A. (1981) Early attention effect on evoked potential as a function of interstimulus interval. Biological Psychology 13:173–87. [aRN]Google Scholar

Näätänen, R. & Michie, P. T. (1979) Early selective attention effects on the evoked potential. A critical review and reinterpretation. Biological Psychology 8:81–136. [aRN, ABS]Google Scholar

Näätänen, R., Paavilainen, P., Alho, K., Reinikainen, K. & Sams, M. (1987a) The mismatch negativity to intensity changes in an auditory stimulus sequence. In: Current trends in event-related brain potential research (EEG Supplement 40), ed. Johnson, R. Jr., Rohrbaugh, J. W. & Parasuraman, R.. Elsevier. [aRN]Google Scholar

(1987b) Inter-stimulus interval and the mismatch negativity. In: Evoked potentials III, ed. Barber, C. & Blum, T.. Butterworths. [aRN]Google Scholar

(1989a) Do event-related potentials reveal the mechanism of the auditory sensory memory in the human brain? Neuroscience Letters 98:217–21. [aRN]Google Scholar

(1989b) Event-related potentials to infrequent decrements in duration of auditory stimuli demonstrate a memory trace in man. Neuroscience Letters 107:347–52. [aRN]Google Scholar

Näätänen, R., Paavilainen, P., Tiitinen, H, Reinikainen, K. & Alho, K. (submitted) Automaticity of the mismatch negativity component of the ERP elicited by deviant tones in selective dichotic listening. [rRN]Google Scholar

Näätänen, R. & Picton, T. W. (1987) The NI wave of the human electric and magnetic response to sound: A review and an analysis of the component structure. Psychophysiology 24:375–425. [aRN, JCH, MNV]Google Scholar

Näätänen, R., Sams, M. & Alho, K. (1986) Mismatch negativity: An ERP sign of a cerebral mismatch process. In: Cerebral psychophysiology: Studies in event-related potentials (EEG Supplement 38), ed. McCallum, W. C., Zappoli, R. & Denoth, F.. Elsevier. [aRN, MNV]Google Scholar

Näätänen, R., Sams, M., Alho, K., Paavilainen, P., Reinikainen, K. & Sokolov, E. N. (1988) Frequency and location specificity of the human vertex Nl wave. Electroencephalography and Clinical Neurophysiology 69:523–31. [aRN]Google Scholar

Näätänen, R., Sams, M., Järvilehto, T. & Soininen, K. (1983) Probability of deviant stimulus and event-related brain potentials. In: Psychophysiology 1980, ed. Sinz, R. & Rosenzweig, M. R.. Elsevier. [aRN, PU]Google Scholar

Näätänen, R., Simpson, M. & Loveless, N. E. (1982) Stimulus deviance and evoked potentials. Biological Psychology 14:53–98. [aRN]Google Scholar

Näätänen, R., Teder, W., Alho, K. & Lavikainen, J. (in preparation) Processing negativity and the “Nl effect”: One or two selective-attention effects on the auditory event-related brain potential? [aRN]Google Scholar

Neisser, U. (1967) Cognitive psychology. Appleton-Century-Crofts. [aRN, KC]Google Scholar

Neumann, O., van der Heiden, A. H. C. & Allport, A. (1986) Visual selective attention: Introductory remarks. Psychological Research 48:185–88. [IC]Google Scholar

Neville, H. J., & Lawson, D. (1987) Attention to central and peripheral visual space in a movement detection task: An event-related potential and behavioral study. I. normal hearing adults. Brain Research 405:253–67. [aRN, KC, IC, ABS, MNV]Google Scholar

Newstead, S. E., & Dennis, I. (1979) Lexical and grammatical processing of unshadowed messages: A reexamination of the MacKay effect. Quarterly Journal of Experimental Psychology 31:477–88. [aRN]Google Scholar

Nordby, H., Roth, W. T. & Pfefferbaum, A. (1988a) Event-related potentials to time-deviant and pitch-deviant tones. Psychophysiology 25:249–61. [aRN]Google Scholar

(1988b) Event-related potentials to breaks in sequences of alternating pitches or interstimulus intervals. Psychophysiology 25:262–68. [aRN, RV]Google Scholar

Norman, D. A. (1968) Toward a theory of memory and attention. Psychological Review 75:522–36. [aRN]Google Scholar

Norman, D. A., & Bobrow, D. G. (1975) On data-limited and resource-limited processes. Cognitive Psychology 7:44–64. [JM]Google Scholar

Novak, G. P., Ritter, W., Vaughan, H. G. Jr. & Wiznitzer, M. L. (in press) Differentiation of negative event-related potentials in an auditory discrimination task. Electroencephalography and Clinical Neurophysiology. [aRN]Google Scholar

Nyman, G., Alho, K., Laurinen, P., Paavilainen, P., Radii, T., Reinikainen, K., Sams, M. & Näätänen, R. (in press) Mismatch negativity (MMN) for sequences of auditory and visual stimuli: Evidence for a mechanism specific to the auditory modality. Electroencephalography and Clinical Neurophysiology. [aRN, KC, IC, MNV]Google Scholar

Öhman, A. (1979) The orienting response, attention and learning: An information-processing perspective. In: The orienting reflex in humans, ed. Kimmel, H. D., van Olst, E. H. & Orlebeke, J. F.. Erlbaum. [aRN, FTM]Google Scholar

Okita, T. (1979) Event-related potentials and selective attention to auditory stimuli varying in pitch and localization. Biological Psychology 9:271–84. [aRN, TO]Google Scholar

(1981) Slow negative shifts of the human event-related potential associated with selective information processing. Biological Psychology 12:63–75. [aRN]Google Scholar

(1985) Selective attention and event-related potentials: Fixed vs. varying tone pips. Japanese Journal of Physiological Psychology and Psychophysiology 3:11–22. [TO]Google Scholar

(1987) Event-related potentials and selective attention to tones moving in location and pitch: An examination of movement velocity. Biological Psychology 24:225–37. [aRN, TO]Google Scholar

(1989) Within-channel selection and event-related potentials during selective auditory attention. Psychophysiology 26:127–39. [TO]Google Scholar

Okita, T., Konishi, K. & Inamori, R. (1983) Attention-related negative brain potential for speech words and pure tones. Biological Psychology 16:29–47. [aRN]Google Scholar

Okita, T., Konishi, K. & Matsunaga, I. (1986) Event-related potentials and human information processing (17): The relationship between attention-related negativity and stimulus selection processes [Summary]. Proceedings of the 50th Annual Convention of the Japanese Psychological Association 1103. [TO]Google Scholar

Onishi, S. & Davis, H. (1968) Effects of duration and rise time of tonebursts on evoked V-potentials. Journal of the Acoustical Society of America 44:582–91. [aRN]Google Scholar

Osterhammel, P., Shallop, J. & Terkildsen, K. (1985) The effect of sleep on the auditory brainstem response (ABR) and the middle latency response (MLR). Scandinavian Audiology 14:47–50. [aRN]Google Scholar

Paavilainen, P., Alho, K., Reinikainen, K., Sams, M. & Näätänen, R. (submitted) Right-hemisphere dominance of different mismatch negativities. [aRN]Google Scholar

Paavilainen, P., Cammann, R., Alho, K., Reinikainen, K., Sams, M. & Näätänen, R. (1987) Event-related potentials to pitch change in an auditory stimulus sequence during sleep. In: Current trends in event-related potential research (EEG Supplement 40), ed. Johnson, R. Jr., Parasuraman, R. & Rohrbaugh, J. W.. Elsevier. [aRN, RC, GK]Google Scholar

Paavilainen, P., Karlsson, M-L., Reinikainen, K. & Näätänen, R. (1989) Mismatch negativity to change in spatial location of an auditory stimulus. Electroencephalography and Clinical Neurophysiology 73:129–41. [aRN]Google Scholar

Packer, J. S., & Siddle, D. A. T. (1989) Stimulus miscuing, electrodermal activity, and the allocation of processing resources. Psychophysiology 26:192–200. [PTM]Google Scholar

Paller, K. A., Kutas, M. & Mayes, A. R. (1987) Neural correlates of encoding in an incidental learning paradigm. Electroencephalography and Clinical Neurophysiology 67:360–71. [SCdR]Google Scholar

Pantev, C, Hoke, M., Lehnertz, K. & Liitkenhoner, B. (1989) Neuromagnetic evidence of an amplitopic organization of the human auditory cortex. Electroencephalography and Clinical Neurophysiology 72:225–31. [aRN]Google Scholar

Pantev, C, Hoke, M., Lehnertz, K., Lütkenhöner, B., Anogianakis, G. & Wittkowski, W. (1988) Tonotopic organization of the human auditory cortex revealed by transient auditory evoked magnetic fields. Electroencephalography and Clinical Neurophysiology 69:160–70. [aRN]Google Scholar

Parasuraman, R. (1978) Auditory potentials and divided attention. Psychophysiology 15:460–65. [aRN, TO, ES]Google Scholar

(1980) Effects of information processing demands on slow negative shift latencies and N100 amplitude in selective and divided attention. Biological Psychology 11:217–33. [aRN]Google Scholar

(1984) The psychobiology of sustained attention. In: Sustained attention in human performance, ed. Warm, J. S.. Wiley. [SCdR]Google Scholar

(1985) Event-related brain potentials and intermodal divided attention. Proceedings of the Human Factors Society, 29th Annual Meeting, Santa Monica, CA. [ES]Google Scholar

Parasuraman, R. & Beatty, J. (1980) Brain events underlying detection and recognition of weak sensory signals. Science 210:80–83. [aRN]Google Scholar

Parasuraman, R., Richer, F. & Beatty, J. (1982) Detection and recognition: Concurrent processes in perception. Perception and Psychophysics 31:1—12. [aRN]Google Scholar

Pavlov, I. P. (1909) Natural science and the brain. (Speech at the General Assembly of the XII Congress of Naturalists and Physicians in Moscow, December 28.) After Sokolov, E. N. In: Zhurnal Vyshoj Nervnoj Deyatelnosti imeni Pavlova, 1986, 36:252–64. [KC]Google Scholar

(1927) Conditioned reflexes. Dover. [PTM]Google Scholar

Perret, D. J., Mistlin, A. J. & Chitty, A. J. (1987) Visual neurones responsive to faces. Trends in Neurosciences 10:358–64. [KC]Google Scholar

Petersen, S. E., Robinson, D. L. & Keys, W. (1985) Pulvinar nuclei of the behaving rhesus monkey: Visual responses and their modulation. Journal of Neurophysiology 54:867–86. [KC]Google Scholar

Pettigrew, J. D., & Kasamatsu, T. (1978) Local perfusion of noradrenaline maintains visual cortical plasticity. Nature 271:761–63. [SG]Google Scholar

Pfefferbaum, A., Buchsbaum, M. & Gips, J. (1971) Enhancement of the average evoked response to tone onset and cessation. Psychophysiology 8:332–39. [aRN]Google Scholar

Picton, T. W. (1980) The use of human event-related potentials in psychology. In. Techniques in psychophysiology, ed. Martin, I. & Venables, P. H.. Wiley. [aRN]Google Scholar

Picton, T. W., Campbell, K. B., Baribeau-Braun, J. & Proulx, G. B. (1978) The neurophysiology of human attention. A tutorial review. In: Attention and performance VII, ed. Requin, J.. Erlbaum. [aRN]Google Scholar

Picton, T. W., Hillyard, S. A., Krausz, H. I. & Galambos, R. (1974) Human auditory evoked potentials. I. Evaluation of components. Electroencephalography and Clinical Neurophysiology 36:179–90. [aRN]Google Scholar

Picton, T. W., Stapells, D. R. & Campbell, K. B. (1981) Auditory evoked potentials from the human cochlea and brainstem. Journal of Otolaryngology 10:1–41. [aRN]Google Scholar

Picton, T. W., & Stuss, D. T. (1980) The component structure of the human event-related potentials. In: Motivation, motor and sensory processes of the brain: Electrical potentials, behavior and clinical use. Progress in brain research, vol. 5, ed. Kornhuber, H. H. & Deecke, L.. North-Holland. [JM]Google Scholar

Picton, T. W., Stuss, D. T. & Marshall, K. C. (1986) Attention and the brain. In: The brain, cognition, and education, ed. Friedman, S. L., Klivington, K. A. & Patterson, R. W.. Academic Press. [aRN]Google Scholar

Picton, T. W., Woods, D. L. & Proulx, G. B. (1978a) Human auditory sustained potentials. II. Stimulus relationships. Electroencephalography and Clinical Neurophysiology 45:198–210. [aRN]Google Scholar

(1978b) Human auditory sustained potentials. I. The nature of the response. Electroencephalography and Clinical Neurophysiology 45:186–97. [aRN]Google Scholar

Plomp, R. (1964) Rate of decay of auditory sensation. Journal of the Acoustical Society of America 36:277–282. [rRN]Google Scholar

Popper, K. R. (1984) Critical remarks on the knowledge of lower and higher organism, the so-called sensory motor systems. In: Sensory-motor integration in the nervous system, ed. Creutzfeldt, O., et al. Springer-Verlag. [SCdR]Google Scholar

Posner, M. I. (1978) Chronometric explorations of mind. Erlbaum. [aRN, RC]Google Scholar

Posner, M. I., & Boies, S. J. (1971) Components of attention. Psychological Review 78:391–408. [aRN]Google Scholar

Posner, M., Nissen, M-J. & Klein, R. (1976) Visual dominance: An information-processing account of its origins and significance. Psychological Review 83:157–71. [aRN]Google Scholar

Posner, M. I., & Snyder, C. R. R. (1975a) Attention and cognitive control. In: Information processing and cognition: The Loyola Symposium, ed. Solso, R. L.. Erlbaum. [aRN, SG]Google Scholar

(1975b) Facilitation and inhibition in the processing of signals. In: Attention and performance V, ed. Rabbitt, P. M. A. & Dornic, S.. Academic Press. [aRN, SG]Google Scholar

Pribram, K. H., & Luria, A. R. (1973) Psychophysiology of the frontal lobes. Academic Press. [aRN]Google Scholar

Pritchard, W. S. (1981) Psychophysiology of P300. Psychological Bulletin 89:506–40. [aRN]Google Scholar

Puel, J., Bonfils, P. & Pujol, R. (1988) Selective attention modifies the active micromechanical properties of the cochlea. Brain Research 447:380–83. [BS]Google Scholar

Renault, B., Baribeau-Braun, J., Dalbokova, D. & El Massioui, F. (1986) Differential topographical analysis of auditory components in a selective attention task. In: Cerebral psychophysiology: Studies in event-related potentials (EEG Supplement 38), ed. McCallum, W. C., Zappoli, R. & Denoth, F.. Elsevier. [aRN]Google Scholar

Renault, B. & Lesèvre, N. (1978) Topographical study of the emitted potential obtained after the omission of an expected visual stimulus. In: Multidisciplinary perspectives in event-related brain potential research, EPA 600/9–77–043, ed. Otto, D.. U.S. Government Printing Office. [aRN]Google Scholar

(1979) A trial-by-trial study of the visual omission response in reaction time situations. In: Human evoked potentials, ed. Lehmann, D. & Callaway, E.. Plenum. [arRN]Google Scholar

Risberg, J. & Prohovnik, I. (1983) Cortical processing of visual and tactile stimuli studied by non-invasive rCBF measurements. Human Neurobiology 2:5–10. [aRN]Google Scholar

Ritter, W., Paavilainen, P., Lavikainen, J., Reinikainen, K. & Näätänen, R. (in preparation) Event-related potentials to stimulus repetition and change. [rRN]Google Scholar

Ritter, W., Simson, R. & Vaughan, H. G. Jr. (1983) Event-related potential correlates of two stages of information processing in physical and semantic discrimination tasks. Psychophysiology 20:168–79. [MNV]Google Scholar

Ritter, W., Vaughan, H. G. Jr. & Costa, L. D. (1968) Orienting and habituation to auditory stimuli: A study of short term changes in average evoked responses. Electroencephalography and Clinical Neurophysiology 25:550–56. [aRN, MNV]Google Scholar

Rohrbaugh, J. W., & Gaillard, A. W. K. (1983) Sensory and motor aspects of the contingent negative variation. In: Tutorials in ERP research: Endogenous components, ed. Gaillard, A. W. K. & Ritter, W.. North-Holland. [aRN]Google Scholar

Roland, P. E. (1981) Somatotopical tuning of postcentral gyrus during focal attention in man. A regional cerebral blood flow study. Journal of Neurophysiology 46:744–54. [aRN, MRH, GK]Google Scholar

(1982) Cortical regulation of selective attention in man. A regional cerebral blood flow study. Journal of Neurophysiology 48:1059–77. [aRN]Google Scholar

(1985) Cortical organization of voluntary behavior in man. Human Neurobiology 4:155–67. [aRN]Google Scholar

Roland, P. E., & Larsen, B. (1976) Focal increase of cerebral blood flow during stereognostic testing in man. Archives of Neurology 33:551–58. [aRN]Google Scholar

Roland, P. E., & E., Skinhøj (1981) Focal activation of the cerebral cortex during visual discrimination in man. Brain Research 222:166–71. [aRN]Google Scholar

Roland, P. E., Skinhøj, E. & Lassen, N. A. (1981) Focal activations of human cerebral cortex during auditory discrimination. Journal of Neurophysiology 45:1139–51. [aRN]Google Scholar

Roland, P. E., & Widen, L. (1988) Quantitative measurements of brain metabolism during physiological stimulation. In: Functional brain imaging, ed. Pfurtseheller, G. & Lopes da Silva, F. H.. Hans Huber. [aRN]Google Scholar

Rossignol, S. & Jones, G. M. (1976) Audio-spinal influence in man studied by the H-reflex and its possible role on rhythmic movements synchronized to sound. Electroencephalography and Clinical Neurophysiology 41:83–92. [aRN]Google Scholar

Roth, W. T. (1983) A comparison of P300 and skin conductance response. In: Tutorials in ERP research: Endogenous components, ed. Gaillard, A. W. K. & Ritter, W.. North-Holland. [aRN]Google Scholar

Rugg, M. D. (in press) ERPs and selective attention: Commentary. In: Proceedings of the Ninth International Conference on event-related potentials of the brain, ed. C. H. M. Brunia, A. W. K. Gaillard, A. Kok, G. Mulder & M. N. Verbaten. Elsevier. [MDR]Google Scholar

Sams, M., Alho, K. & Näätänen, R. (1983) Sequential effects in the ERP in discriminating two stimuli. Biological Psychology 17:41–58. [aRN]Google Scholar

(1984) Short-term habituation and dishabituation of the mismatch negativity of the ERP. Psychophysiology 21:434–41. [aRN, PU, MW]Google Scholar

Sams, M., Paavilainen, P., Alho, K. & Näätänen, R. (1985) Auditory frequency discrimination and event-related potentials. Electroencephalography and Clinical Neurophysiology 62:437–48. [aRN, MW]Google Scholar

Sams, M., Hämäläinen, M., Antervo, A., Kaukoranta, E., Reinikainen, K. & Hari, R. (1985) Cerebral neuromagnetic responses evoked by short auditory stimuli. Electroencephalography and Clinical Neurophysiology 61:254–66. [aRN]Google Scholar

Samuel, A. G., van Santen, J. P. H. & Johnston, J. C. (1982) Length effects in word perception: We is better than I but worse than you or them. Journal of Experimental Psychology: Human Perception and Performance 8:91–105. [SG]Google Scholar

(1983) Reply to Matthei: We really is worse than you or them, and so are ma and pa. Journal of Experimental Psychology: Human Perception and Performance 9:321–22. [SG]Google Scholar

Sanders, A. F. (1975) The foreperiod effect revisited. Quarterly Journal of Experimental Psychology 27:591–98. [aRN]Google Scholar

Sapir, S., McClean, M. D. & Larson, C. R. (1983) Human laryngeal responses to auditory stimulation. Journal of the Acoustical Society of America 73:315–21. [SCdR]Google Scholar

Scharf, B. (in press) Spectral specificity in auditory detection: The effect of listening on hearing. Journal of the Acoustical Society of Japan. [BS]Google Scholar

Scharf, B. & Houtsrna, A. J. (1986) Audition II: Loudness, pitch, localization, aural distortion, pathology. In: Handbook of perception and human performance: Vol. I., Sensory processes and perception, ed. Boff, K. R., Kaufman, L. & Thomas, J. P.. Wiley. [aRN]Google Scholar

Scharf, B., Quigley, S., Aoki, C, Peachey, N. & Reeves, H. (1987) Focused auditory attention and frequency selectivity. Perception and Psychophysics 42:215–23. [MG, BS]Google Scholar

Scherg, M. (in press) Fundamentals of dipole source potential analysis. In: Auditory evoked potentials and fields, ed. F. Grandori, G. L. Rornani & M. Hoke. Karger. [aRN, GK]Google Scholar

Scherg, M., Vajsar, J. & Picton, T. W. (1989) A source analysis of the human auditory evoked potentials. Journal of Cognitive Neuroscience 1:336–55. [aRN]Google Scholar

Schneider, W., Dumais, S. T. & Shiffirin, R. M. (1984) Automatic and control processing and attention. In: Varieties of attention, ed. Parasuraman, R. & Davies, D. R.. Academic Press. [aRN]Google Scholar

Schneider, W. & Shiffrin, R. M. (1977) Controlled and automatic human information processing: I. Detection, search, and attention. Psychological Review 84:1–66. [aRN, RC, KC]Google Scholar

Schvaneveldt, R. W., & McDonald, J. E. (1981) Semantic context and the encoding of words: Evidence for two modes of stimulus analysis. Journal of Experimental Psychology: Human Perception and Performance 7:673–87. [SG]Google Scholar

Schwent, V. L., & Hillyard, S. A. (1975) Evoked potential correlates of selective attention with multichannel auditory inputs. Electroencephalography and Clinical Neurophysiology 38:1311—38. [aRN]Google Scholar

Schwent, V. L., Hillyard, S. A. & Galambos, R. (1976) Selective attention and the auditory vertex potential. I. Effects of stimulus delivery rate. Electroencephalography and Clinical Neurophysiology 40:604–14.[arRN]Google Scholar

Schwent, V. L., Snyder, E. & Hillyard, S. A. (1976) Auditory evoked potentials during multichannel selective listening: Role of pitch and localization cues. Journal of Experimental Psychology: Human Perception and Performance 2:313–25. [aRN]Google Scholar

Semjen, A., Bonnet, M. & Requin, J. (1973) Relation between the time course of Hoffman Reflexes and the foreperiod duration in a reaction-time task. Physiology and Behaviour 10:1041–50. [aRN]Google Scholar

Shelley, A. M., Ward, P. B., Michie, P. T., Andrews, S., Mitchell, P. F., Catts, S. V. & McConaghy, N. (submitted) The effects of repeated testing on ERP components during auditory selective attention. [PTM]Google Scholar

Shiffrin, R. M., & Schneider, W. (1977) Controlled and automatic information processing: II. Perceptual learning, automatic attending, and a general theory. Psychological Review 84:127–89. [aRN, RC]Google Scholar

Siddle, D. A. T., & Packer, J. S. (1987) Stimulus omission and dishabituation of the electrodermal orienting response: The allocation of processing resources. Psychophysiology 24:181–90. [PTM]Google Scholar

Simson, R., Vaughan, H. G. Jr. & Ritter, W. (1976) The scalp topography of potentials associated with missing visual or auditory stimuli. Electroencephalography and Clinical Neurophysiology 40:33–42. [rRN]Google Scholar

(1977) The scalp topography of potentials in auditory and visual discrimination tasks. Electroencephalography and Clinical Neurophysiology 42:528–35. [aRN]Google Scholar

Singer, W. (1982) The role of attention in developmental plasticity. Human Neurobiology 1:41–43. [SG]Google Scholar

Sirevaag, E., Kramer, A., Coles, M. G. H. & Donchin, E. (1989) Resource reciprocity: An event-related brain potentials analysis. Acta Psychologica 70:77–97. [ES]Google Scholar

Skinner, J. S., & Yingling, C. D. (1977) Central gating mechanisms that regulate event-related potentials and behavior. In: Attention, voluntary contraction and event-related cerebral potentials, ed. Desmedt, J. E.. Karger. [KC, MNV]Google Scholar

Snyder, E. & Hillyard, S. A. (1976) Long-latency evoked potentials to irrelevant deviant stimuli. Behavioural Biology 16:319–31. [aRN, KC]Google Scholar

Sokolov, E. N. (1963) Higher nervous functions: The orienting reflex. Annual Review of Physiology 25:545–80. [aRN, PTM]Google Scholar

(1975) The neuronal mechanisms of the orienting reflex. In: Neuronal mechanisms of the orienting reflex, ed. Sokolov, E. N. & Vinogradova, O. S.. Erlbaum. [aRN]Google Scholar

Solowij, N., Michie, P. T., Crawford, J. C. & Glue, L. C. T. (submitted) Auditory ERPs during auditory attention and a visual control task: Effects of visual task difficulty. [PTM]Google Scholar

Sparks, D. L. (1986) Translation of sensory signals into commands for control of saccadic eye movements: Role of primate superior colliculus. Physiological Review 66:118–71. [KC]Google Scholar

Sperling, G. (1960) The information available in brief visual presentations. Psychological Monographs 74:1–29. [aRN]Google Scholar

Spinks, J. A., & Siddle, D. (1983) The functional significance of the orienting response. In: Orienting and habituation: Perspectives in human research, ed. Siddle, D.. Wiley. [PTM]Google Scholar

Spitzer, H., Desimone, R. & Moran, J. (1988) Increased attention enhances both behavioral and neuronal performance. Science 240:338–40. [ABS]Google Scholar

Spong, P., Haider, M. & Lindsley, D. B. (1965) Selective attentiveness and cortical evoked responses to visual and auditory stimuli. Science 148:395–97. [aRN]Google Scholar

Spoor, A., Timmer, F. & Odenthal, D. W. (1969) The evoked auditory response (ear) to intensity modulated and frequency modulated tones and tone bursts. International Audiology 8:410–15. [aRN]Google Scholar

Squires, K. C, Donchin, E., Herning, R. I. & McCarthy, G. (1977) On the influence of task relevance and stimulus probability on event-related potential components. Electroencephalography and Clinical Neurophysiology 42:1–14. [aRN, DLW]Google Scholar

Squires, K. C, Hillyard, S. A. & Lindsay, P. H. (1973) Vertex potentials evoked during auditory signal detection: Relation to decision criteria. Perception and Psychophysics 14:265–72. [aRN]Google Scholar

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 1:268–79. [aRN]Google Scholar

Squires, N. K., Squires, K. C. & Hillyard, S. A. (1975) Two varieties of long-latency positive waves evoked by unpredictable auditory stimuli in man. Electroencephalography and Clinical Neurophysiology 38:387–401. [aRN]Google Scholar

Starr, A. & Don, M. (1988) Brain potentials evoked by acoustic stimuli. In: Human event-related potentials. EEG handbook (revised series, vol. 3), ed. Picton, T. W.. Elsevier. [aRN]Google Scholar

Sternberg, S. (1969) The discovery of processing stages: Extensions of Donders’ method. Ada Psychologica 30:273–315. [KC, ES]Google Scholar

Strayer, D. & Kramer, A. F. (1990) Attentional requirements of automatic and controlled processing. Journal of Experimental Psychology: Learning, Memory and Cognition 16(1):67–82. [ES]Google Scholar

Stuss, D. T., & Benson, D. F. (1986) The frontal lobes. Raven Press. [aRN]Google Scholar

Sutton, S., Braren, M., Zubin, J. & John, E. R. (1965) Evoked potential correlates of stimulus uncertainty. Science 150:1187–88. [aRN]Google Scholar

Sziklai, G. C. (1957) Some studies on the speed of visual perception. Transactions of the Institute of Radio Engineers. Information Theory 2:125–33. [KC]Google Scholar

Taylor, M. J. (1978) Bereitschaftspotential during the acquisition of a skilled motor task. Electroencephalography and Clinical Neurophysiology 45:568–76. [RK]Google Scholar

Thompson, R. F., Berry, S. D., Rinaldi, P. C. & Berger, T. W. (1979) Habituation and the orienting reflex: The dual-process theory revisited. In: The orienting reflex in humans, ed. Kimmel, H. D., Van Olst, E. H. & Orlebeke, J. F.. Erlbaum. [aRN]Google Scholar

Tipper, S. P. (1985) The negative priming effect: Inhibitory effects of ignored primes. Quarterly Journal of Experimental Psychology 37A:571–90. [SPT, GU]Google Scholar

Treisman, A. M. (1988) Features and objects: The Fourteenth Bartlett Memorial Lecture. Quarterly Journal of Experimental Psychology 40A:201–37. [rRN, MDR]Google Scholar

Treisman, A. M., & Gelade, G. (1980) A feature-integration theory of attention. Cognitive Psychology 12:97–136. [ABS]Google Scholar

Treisman, A. M. (1960) Contextual cues in selective listening. Quarterly Journal of Experimental Psychology: Human Perception and Performance 12:242–48. [aRN]Google Scholar

(1964) Selective attention in man. British Medical Bulletin 20:12–16. [aRN, JCH, JM]Google Scholar

Treisman, A. M., Kahneman, D. & Burkell, M. (1983) Perceptual objects and the cost of filtering. In: Perception & Psychophysics 33:527–32. [IC]Google Scholar

Treisman, A. M., Squire, R. & Green, J. (1974) Semantic processing in dichotic listening? A replication. Memory and Cognition 2:641–46. [aRN]Google Scholar

Ullsperger, P. & Gille, H.-G. (1988) The late positive component of the ERP and the adaptation-level theory. Biological Psychology 26:299–306. [PU]Google Scholar

Ullsperger, P., Gille, H.-G. & Pietschmann, M. (1985) Is there a mismatch negativity in ERPs elicited by occasionally added or omitted tones of short stimulus trains? In: Psychophysiological approaches to human information processing, ed. Klix, F., Näätänen, R. & Zimmer, K.. Elsevier. [PU]Google Scholar

Underwood, G. (1981) Lexical recognition of embedded unattended words: Some implications for reading processes. Ada Psychologica 47:267–83. [GU]Google Scholar

Underwood, G., Clews, S. & Everatt, J. (in press) How do readers know where to look next? Local information distributions influence eye fixations. Quarterly Journal of Experimental Psychology 42A. [GU]Google Scholar

Underwood, G. & Niemi, P. (1985) Mind before matter? Behavioral and Brain Sciences 8:554–55. [SCdR]Google Scholar

Underwood, G. & Thwaites, S. (1982) Automatic phonological coding of unattended printed words. Memory and Cognition 10:434–42. [GU]Google Scholar

Van Essen, D. C. (1979) Visual areas of the mammalian cerebral cortex. Annual Review of Neurosciences 2:227–63. [KG]Google Scholar

Van Voorhis, S. & Hillyard, S. A. (1977) Visual evoked potentials and selective attention to points in space. Perception and Psychophysics 22:54–62. [ES]Google Scholar

Van Voorhis, S., Hillyard, S. A. & Näätänen, R. (unpublished data, 1976) University of California, San Diego, California. [aRN]Google Scholar

Vaughan, H. G. Jr. & Arezzo, J. C. (1988) The neural basis of event-related potentials. In: Human event-related potentials. EEG handbook (revised series, vol. 3), ed. Picton, T. W.. Elsevier. [aRN]Google Scholar

Vaughan, H. G. Jr. & Ritter, W. (1970) The sources of auditory evoked responses recorded from the human scalp. Electroencephalography and Clinical Neurophysiology 28:360–67. [aRN]Google Scholar

Velasco, M. & Velasco, F. (1986) Subcortical correlates of the somatic, auditory and visual vertex activities in man. II. Referential EEG responses. Electroencephalography and Clinical Neurophysiology 63:62–67. [aRN]Google Scholar

Velasco, M., Velasco, F. & Olvera, A. (1985) Subcortical correlates of the somatic, auditory and visual vertex activities in man. I. Bipolar EEG responses and electrical stimulation. Electroencephalography and Clinical Neurophysiology 61:519–29. [aRN]Google Scholar

Verbaten, M. N., Roelofs, J. W., Sjouw, W. & Slangen, J. L. (1986) Habituation of early and late visual ERP components and the orienting reaction: The effect of stimulus information. International Journal of Psychophysiology 3:287–98. [MNV]Google Scholar

Verleger, R. (1988) A critique of the context updating hypothesis and an alternative interpretation of P3. Behavioral and Brain Sciences 11:343–427. [aRN]Google Scholar

Vinogradova, O. S. (1975) The hippocampus and the orienting reflex. In: The neuronal mechanisms of the orienting reflex, ed. Sokolov, E. N. & Vinogradova, O. S., Erlbaum. [rRN]Google Scholar

Von Fieandt, K. & Moustgaard, I. K. (1977) The perceptual world. Academic Press. [aRN]Google Scholar

Ward, P. B., Catts, S. V., Fox, A. M., Michie, P. T. & McConaghy, N. (in revision) Auditory selective attention and event-related potentials in schizophrenia. [PTM]Google Scholar

Wastell, D. G., & Kleinman, D. (1980) Fast habituation of the late components of the visual evoked potential in man. Physiology and Behavior 25:93–97. [MNV]Google Scholar

Weinberger, N. M., & Diamond, D. M. (1987) Physiological plasticity in auditory cortex: Rapid induction by learning. Progress in Neurobiology 29:1–55. [GK]Google Scholar

Weinreich, U., Labov, W. & Herzog, M. (1968) Empirical foundations for a theory of language change. In: Directions for historical linguistics, ed. Lehmann, W. P. & Malkiel, Y.. University of Texas Press. [SCdR]Google Scholar

Weiskrantz, L., Warrington, E. K., Sanders, M. D. & Marshall, J. (1974) Visual capacity in the hemianopic field following a restricted occipital ablation. Brain 97:709–23. [BL]Google Scholar

Wickelgren, W. A. (1969) Associative strength theory of recognition memory for pitch. Journal of Mathematical Psychology 6:13–61. [NC]Google Scholar

Wickens, C. D. (1980) Processing resources in attention. In: Attention and performance VIII, ed. Nickerson, R. S.. Erlbaum. [ES]Google Scholar

Wickens, C. D., Kramer, A. F., Vanasse, L. & Donchin, E. (1983) The performance of concurrent tasks: A psychophysiological analysis of the reciprocity of information processing resources. Science 221:1080—82. [ES]Google Scholar

Wilding, J. M. (1987) Semantic effects without awareness: Dichotic listening and dichoptic viewing. Behavioral and Brain Sciences 10:767–68. [GU]Google Scholar

Wilkinson, R. T., & Ashby, S. M. (1974) Selective attention, contingent negative variation and the evoked potential. Biological Psychology 1:167–79. [aRN]Google Scholar

Wilkinson, R. T., & Lee, M. V.” (1972) Auditory evoked potentials and selective attention. Electroencephalography and Clinical Neurophysiology 33:411–18. [aRN]Google Scholar

Winkler, I., Alho, K., Teder, W. & Näätänen, R. (in preparation) Effects of selective attention on event-related potentials to deviant stimuli. [aRN]Google Scholar

Winkler, I., Paavilainen, P., Alho, K., Reinikainen, K., Sams, M. & Näätänen, R. (in press) The effect of small variation of the frequent sound on the event-related potential to the infrequent sound. Psychophysiology. [aRN]Google Scholar

Winkler, I., Paavilainen, P. & Näätänen, R. (submitted) Can echoic memory store two traces simultaneously? A study of event-related brain potentials. [rRN]Google Scholar

Winkler, I., Paavilainen, P., Reinikainen, K. & Näätänen, R. (in preparation) Mismatch negativity to a partial omission of a repetitive, complex auditory stimulus. [aRN]Google Scholar

Winkler, I., Reinikainen, K. & Näätänen, R. (submitted) Mismatch negativity of the event-related potential and recognition masking: Evidence for neuronal traces of sensory memory. [rRN]Google Scholar

Woldorff, M. (1989) Auditory selective attention in humans: Analysis of mechanisms using event-related brain potentials (Thesis presented at the University of California, San Diego). [JCH]Google Scholar

Woldorff, M., Hackley, S. A. & Hillyard, S. A. (1989) Is the mismatch negativity wave of the human auditory ERP independent of attention? Society for Neuroscience Abstracts 15:478. [JCH, MW]Google Scholar

(submitted) The effects of channel-selective attention on the mismatch negativity wave elicited by deviant tones. [MW]Google Scholar

Woldorff, M., Hansen, J. C. & Hillyard, S. A. (1987) Evidence for effects of selective attention in the mid-latency range of the human auditory event-related brain potential. In: Current trends in event-related brain potential research (EEG Supplement 40), ed. Johnson, R. Jr., Rohrbaugh, J. W. & Parasuraman, R.. Elsevier. [aRN, KG, JCH, MW]Google Scholar

Woldorff, M. & Hillyard, S. A. (submitted) Modulation of early auditory processing during selective listening to rapidly presented tones. [MW]Google Scholar

Wolpaw, J. R., & Penry, J. K. (1975) A temporal component of the auditory evoked response. Electroencephalography and Clinical Neurophysiology 39:609–20. [aRN]Google Scholar

Wood, C. C, McCarthy, G., Squires, N. K., Vaughan, H. G. Jr., Woods, D. L. & McCallum, W. C. (1984) Anatomical and physiological substrates of event-related potentials. Two case studies. Annals of the New York Academy of Sciences 425. [aRN]Google Scholar

Woods, D. L. (in press) The physiological basis of selective attention: Implications of event-related potential studies. In: Event-related brain potentials: Issues and interdisciplinary vantages, ed. J. W. Rohrbaugh, R. Parasuraman & R. Johnson, Jr. Oxford University Press. [aRN, DLW]Google Scholar

Woods, D. L., & Clayworth, C. C. (1987) Scalp topographies dissociate Nl and Nd Components during auditory selective attention. In: Current trends in event-related brain potential research (EEG Supplement 40), ed. Johnson, R. Jr., Rohrbaugh, J. W. & Parasuraman, R.. Elsevier. [aRN, JCH]Google Scholar

Woods, D. L., & Elmasian, R. (1986) The habituation of event-related potentials to speech sounds and tones. Electroencephalography and Clinical Neurophysiology 65:447–59. [aRN]Google Scholar

Woods, D. L., & Hillyard, S. A. (1978) Attention at the cocktail party: Brainstem evoked responses reveal no peripheral gating. In: Multidisciplinary perspectives in event-related brain potential research, EPA-600/9–77–043, ed. Otto, D. A.. U.S. Government Printing Office. [aRN]Google Scholar

Woods, D. L., Hillyard, S. A. & Hansen, J. C. (1984) Event-related brain potentials reveal similar mechanisms during selective listening and shadowing. Journal of Experimental Psychology: Human Perception and Performance 10:761–77. [aRN, DLW]Google Scholar

Woods, D. L., & Knight, R. T. (1986) Electrophysiologic evidence of increased distractability after dorsolateral prefrontal lesions. Neurology 36:212–16. [aRN, MRH]Google Scholar

Woodworth, R. S. (1938) Experimental psychology. Holt. [aRN]Google Scholar

Wurtz, R. H., Goldberg, M. E. & Robinson, D. L. (1980) Progress in Psychohiology and Physiological Psychology 9:43–83. [KG]Google Scholar

Wurtz, R. H., Richmond, B. J. & Newsome, W. J. (1984) Modulation of cortical visual processing by attention, perception, and movement. In: Dynamic aspects of brain function, ed. Edelman, G. M., Gall, W. E. & Cowan, W. M.. Wiley. [DLW]Google Scholar

Tingling, C. D., & Skinner, J. E. (1977) Gating of thalamic input to cerebral cortex by nucleus reticularis thalami. Attention, voluntary contraction and event-related cerebral potentials. Progress in Clinical Neurophysiology, vol. 1, ed. Desmedt, J. E.. Karger. [MNV]Google Scholar

Zeki, S. (1983a) Colour coding in the cerebral cortex: The reaction of cells in monkey visual cortex to wavelengths and colours. Neuroscience 9:741–65. [ABS]Google Scholar

(1983b) Colour coding in the cerebral cortex: The responses of wavelength -selective and colour-coded cells in monkey visual cortex to changes in wavelength composition. Neuroscience 9:767–81. [ABS]Google Scholar

Article contents

Selective auditory attention: Complex processes and complex ERP generators

Abstract

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests