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Synthese

, Volume 195, Issue 6, pp 2577–2625 | Cite as

Predictive brains, dreaming selves, sleeping bodies: how the analysis of dream movement can inform a theory of self- and world-simulation in dreams

  • Jennifer M. Windt
S.I. : Predictive Brains

Abstract

In this paper, I discuss the relationship between bodily experiences in dreams and the sleeping, physical body. I question the popular view that dreaming is a naturally and frequently occurring real-world example of cranial envatment. This view states that dreams are functionally disembodied states: in a majority of dreams, phenomenal experience, including the phenomenology of embodied selfhood, unfolds completely independently of external and peripheral stimuli and outward movement. I advance an alternative and more empirically plausible view of dreams as weakly phenomenally-functionally embodied states. The view predicts that bodily experiences in dreams can be placed on a continuum with bodily illusions in wakefulness. It also acknowledges that there is a high degree of variation across dreams and different sleep stages in the degree of causal coupling between dream imagery, sensory input, and outward motor activity. Furthermore, I use the example of movement sensations in dreams and their relation to outward muscular activity to develop a predictive processing account. I propose that movement sensations in dreams are associated with a basic and developmentally early kind of bodily self-sampling. This account, which affords a central role to active inference, can then be broadened to explain other aspects of self- and world-simulation in dreams. Dreams are world-simulations centered on the self, and important aspects of both self- and world-simulation in dreams are closely linked to bodily self-sampling, including muscular activity, illusory own-body perception, and vestibular orienting in sleep. This is consistent with cognitive accounts of dream generation, in which long-term beliefs and expectations, as well as waking concerns and memories play an important role. What I add to this picture is an emphasis on the real-body basis of dream imagery. This offers a novel perspective on the formation of dream imagery and suggests new lines of research.

Keywords

Dreaming Sleep behavior Bodily experience Self-consciousness Predictive processing Full-body illusions 

Notes

Acknowledgements

I wish to thank two anonymous reviewers for their extremely thorough comments and helpful suggestions. I am grateful to Melanie Rosen for some great discussions and for raising important questions about the dream body at the 2017 Pacific APA meeting in Seattle. And I would like to thank Jesse Buck for valuable comments on an earlier version of this manuscript.

References

  1. Adler, S. R. (2011). Sleep paralysis: Night-mares, nocebos, and the mind-body connection. New Brunswick, New Jersey & London: Rutgers University Press.Google Scholar
  2. Alessandria, M., Vetrugno, R., Cortelli, P., & Montagna, P. (2011). Normal body scheme and absent phantom limb experience in amputees while dreaming. Consciousness and Cognition, 20(4), 1831–1834.Google Scholar
  3. Apps, M. A., & Tsakiris, M. (2014). The free-energy self: A predictive coding account of self-recognition. Neuroscience & Biobehavioral Reviews, 41, 85–97.Google Scholar
  4. Arkin, A. M., Toth, M. F., Baker, J., & Hastey, J. M. (1970). The degree of concordance between the content of sleep talking and mentation recalled in wakefulness. The Journal of Nervous and Mental Disease, 151(6), 375–393.Google Scholar
  5. Arnold-Forster, M. (1921). Studies in dreams. London: George Allen & Unwin.Google Scholar
  6. Arzy, S., Seeck, M., Ortigue, S., Spinelli, L., & Blanke, O. (2006). Induction of an illusory shadow person. Nature, 443(7109), 287–287.Google Scholar
  7. Blackmore, S. (1988). A theory of lucid dreams and OBEs. In J. Gackenbach & S. LaBerge (Eds.), Conscious mind, sleeping brain: Perspectives on lucid dreaming (pp. 373–387). New York: Plenum Press.Google Scholar
  8. Blagrove, M., Blakemore, S.-J., & Thayer, B. R. (2006). The ability to self-tickle following Rapid eye movement sleep dreaming. Consciousness and Cognition, 15(2), 285–294.Google Scholar
  9. Blakemore, S.-J., Smith, J., Steel, R., Johnstone, E., & Frith, C. D. (2000). The perception of self-produced sensory stimuli in patients with auditory hallucinations and passivity experiences: Evidence for a breakdown in self-monitoring. Psychological Medicine, 30(05), 1131–1139.Google Scholar
  10. Blanke, O., & Metzinger, T. (2009). Full-body illusions and minimal phenomenal selfhood. Trends in Cognitive Sciences, 13(1), 7–13.Google Scholar
  11. Blanke, O., & Mohr, C. (2005). Out-of-body experience, heautoscopy, and autoscopic hallucination of neurological origin: Implications for neurocognitive mechanisms of corporeal awareness and self-consciousness. Brain Research Reviews, 50(1), 184–199.Google Scholar
  12. Block, N. (2005). Action in perception by Alva Noë. The Journal of Philosophy, 102, 259–272.Google Scholar
  13. Blumberg, M. S. (2010). Beyond dreams: Do sleep-related movements contribute to brain development? Frontiers in Neurology, 1, 140.Google Scholar
  14. Blumberg, M. S. (2015). Developing sensorimotor systems in our sleep. Current Directions in Psychological Science, 24(1), 32–37.Google Scholar
  15. Blumberg, M. S., & Plumeau, A. M. (2016). A new view of “dream enactment” in REM sleep behavior disorder. Sleep Medicine Reviews, 30, 34–42.Google Scholar
  16. Blumberg, M. S., Coleman, C. M., Gerth, A. I., & McMurray, B. (2013). Spatiotemporal structure of REM sleep twitching reveals developmental origins of motor synergies. Current Biology, 23(21), 2100–2109.Google Scholar
  17. Blumberg, M. S., Marques, H. G., & Iida, F. (2013). Twitching in sensorimotor development from sleeping rats to robots. Current Biology, 23(12), R532–R537.Google Scholar
  18. Boeve, B. F. (2010). REM sleep behavior disorder: Updated review of the core features, the RBD-neurodegenerative disease association, evolving concepts, controversies, and future directions. Annals of the New York Academy of Sciences, 1184, 15–54.Google Scholar
  19. Botvinick, M., & Cohen, J. (1998). Rubber hands ’feel’ touch that eyes see. Nature, 391(6669), 756–756.Google Scholar
  20. Bradley, F. (1894). On the failure of movement in dream. Mind, 3(11), 373–377.Google Scholar
  21. Brugger, P. (2006). From phantom limb to phantom body: Varieties of extracorporeal awareness. In G. Knoblich, I. M. Thornton, M. Grosjean, & M. Shiffrar (Eds.), Human body perception from the inside out. Oxford: Oxford University Press.Google Scholar
  22. Brugger, P. (2008). The phantom limb in dreams. Consciousness and Cognition, 17(4), 1272–1278.Google Scholar
  23. Bucci, A., & Grasso, M. (2017). Sleep and dreaming in the predictive processing framework. In T. K. Metzinger & W. Wiese (Eds.), Philosophy and predictive processing. Frankfurt: MIND Group.Google Scholar
  24. Cheyne, J. A. (2003). Sleep paralysis and the structure of waking-nightmare hallucinations. Dreaming, 13(3), 163.Google Scholar
  25. Cheyne, J. A. (2005). Sleep paralysis episode frequency and number, types, and structure of associated hallucinations. Journal of Sleep Research, 14(3), 319–324.Google Scholar
  26. Cheyne, J. A., & Girard, T. A. (2007a). Paranoid delusions and threatening hallucinations: A prospective study of sleep paralysis experiences. Consciousness and Cognition, 16(4), 959–974.Google Scholar
  27. Cheyne, J. A., & Girard, T. A. (2007b). The nature and varieties of felt presence experiences: A reply to Nielsen. Consciousness and Cognition, 16(4), 984–991.Google Scholar
  28. Cheyne, J. A., & Girard, T. A. (2009). The body unbound: Vestibular-motor hallucinations and out-of-body experiences. Cortex, 45(2), 201–215.Google Scholar
  29. Cheyne, J. A., Rueffer, S. D., & Newby-Clark, I. R. (1999). Hypnagogic and hypnopompic hallucinations during sleep paralysis: Neurological and cultural construction of the night-mare. Consciousness and Cognition, 8(3), 319–337.Google Scholar
  30. Cicogna, P., & Bosinelli, M. (2001). Consciousness during dreams. Consciousness and Cognition, 10(1), 26–41.Google Scholar
  31. Clark, A. (2012). Dreaming the whole cat: Generative models, predictive processing, and the enactivist conception of perceptual experience. Mind, 121(483), 753–771.Google Scholar
  32. Clark, A. (2013). Whatever next? Predictive brains, situated agents, and the future of cognitive science. Behavioral and Brain Sciences, 36(03), 181–204.Google Scholar
  33. Clark, A. (2015). Surfing uncertainty: Prediction, action, and the embodied mind. Oxford: Oxford University Press.Google Scholar
  34. Clark, A. (2016). Busting out: Predictive brains, embodied minds, and the puzzle of the evidentiary veil. Nous,. doi: 10.1111/nous.12140.Google Scholar
  35. Dement, W., & Kleitman, N. (1957). The relation of eye movements during sleep to dream activity: An objective method for the study of dreaming. Journal of Experimental Psychology, 53(5), 339–346.Google Scholar
  36. Dement, W., & Wolpert, E. A. (1958). The relation of eye movements, body motility, and external stimuli to dream content. Journal of Experimental Psychology, 55(6), 543.Google Scholar
  37. Dennett, D. C. (1991). Consciousness explained. Boston: Little, Brown and Co.Google Scholar
  38. Dennett, D. C. (2013). Intuition pumps and other tools for thinking. New York: W. W. Norton & Company.Google Scholar
  39. Descartes, R. (1641/2013). René descartes: Meditations on first philosophy: With selections from the objections and replies. In J. Cottingham (Ed.), Cambridge: Cambridge University Press.Google Scholar
  40. Desseilles, M., Dang-Vu, T. T., Sterpenich, V., & Schwartz, S. (2011). Cognitive and emotional processes during dreaming: A neuroimaging view. Consciousness and Cognition, 20(4), 998–1008.Google Scholar
  41. Domhoff, G. W. (2007). Realistic simulation and bizarreness in dream content: Past findings and suggestions for future research. In D. Barrett & P. McNamara (Eds.), The new science of dreaming: Content, recall, and personality characteristics (Vol. 2, pp. 1–27). Westport, CT: Praeger Press.Google Scholar
  42. Domhoff, G. W. (2013). Finding meaning in dreams: A quantitative approach. Berlin: Springer.Google Scholar
  43. Doneshka, P., & Kehaiyov, A. (1977). Some peculiarities of the dreams of patients with vestibular diseases. Acta Medica Iugoslavica, 32(1), 45–50.Google Scholar
  44. Dresler, M., Koch, S. P., Wehrle, R., Spoormaker, V. I., Holsboer, F., Steiger, A., et al. (2011). Dreamed movement elicits activation in the sensorimotor cortex. Current Biology, 21(21), 1833–1837.Google Scholar
  45. Erlacher, D., Schädlich, M., Stumbrys, T., & Schredl, M. (2014). Time for actions in lucid dreams: Effects of task modality, length, and complexity. Frontiers in psychology, 4, 1013.Google Scholar
  46. Ermis, U., Krakow, K., & Voss, U. (2010). Arousal thresholds during human tonic and phasic REM sleep. Journal of Sleep Research, 19(3), 400–406.Google Scholar
  47. Fenwick, P., Schatzman, M., Worsley, A., Adams, J., Stone, S., & Baker, A. (1984). Lucid dreaming: Correspondence between dreamed and actual events in one subject during REM sleep. Biological Psychology, 18(4), 243–252.Google Scholar
  48. Fernandez-Arcos, A., Iranzo, A., Serradell, M., Gaig, C., & Santamaria, J. (2015). The clinical phenotype of idiopathic Rapid eye movement sleep behavior disorder at presentation: A study in 203 consecutive patients. Sleep, 39(1), 121–132.Google Scholar
  49. Fletcher, P. C., & Frith, C. D. (2009). Perceiving is believing: A Bayesian approach to explaining the positive symptoms of schizophrenia. Nature Reviews Neuroscience, 10(1), 48–58.Google Scholar
  50. Fox, K. C. R., Nijeboer, S., Solomonova, E., Domhoff, G. W., & Christoff, K. (2013). Dreaming as mind wandering: Evidence from functional neuroimaging and first-person content reports. Frontiers in Human Neuroscience, 7.Google Scholar
  51. Frank, B., & Lorenzoni, E. (1989). Experiences of phantom limb sensations in dreams. Psychopathology, 22(4), 182–187.Google Scholar
  52. Friston, K., Adams, R., Perrinet, L., & Breakspear, M. (2012). Perceptions as hypotheses: Saccades as experiments. Frontiers in Psychology, 3, 151.Google Scholar
  53. Furlanetto, T., Bertone, C., & Becchio, C. (2013). The bilocated mind: New perspectives on self-localization and self-identification. Frontiers in Human Neuroscience, 7, 71.Google Scholar
  54. Gardner, R, Jr., Grossman, W. I., Roffwarg, H. P., & Weiner, H. (1975). The relationship of small limb movements during REM sleep to dreamed limb action. Psychosomatic Medicine, 37(2), 147–159.Google Scholar
  55. Germain, A., & Nielsen, T. A. (2003). Sleep pathophysiology in posttraumatic stress disorder and idiopathic nightmare sufferers. Biological Psychiatry, 54(10), 1092–1098.Google Scholar
  56. Gilestro, G. F., Tononi, G., & Cirelli, C. (2009). Widespread changes in synaptic markers as a function of sleep and wakefulness in Drosophila. Science, 324(5923), 109–112.Google Scholar
  57. Helmholtz, H. V. (1866). Concerning the perceptions in general. In Treatise on physiological optics (Vol. III, 3rd edn., J. P. C. Southall, Trans. 1925 Opt. Soc. Am. Section 26, reprinted New York: Dover, 1962).Google Scholar
  58. Herlin, B., Leu-Semenescu, S., Chaumereuil, C., & Arnulf, I. (2015). Evidence that non-dreamers do dream: A REM sleep behaviour disorder model. Journal of Sleep Research, 24(6), 602–609.Google Scholar
  59. Herman, J. (2000). Reflexive and orienting properties of REM sleep dreaming and eye movements. Behavioral and Brain Sciences, 23(6), 950.Google Scholar
  60. Hirscher, V., Unbehaun, T., Feige, B., Nissen, C., Riemann, D., & Spiegelhalder, K. (2015). Patients with primary insomnia in the sleep laboratory: Do they present with typical nights of sleep? Journal of Sleep Research, 24(4), 383–389.Google Scholar
  61. Hobson, J. A. (1988). The dreaming brain. New York: Basic Books.Google Scholar
  62. Hobson, J. A. (2009). REM sleep and dreaming: Towards a theory of protoconsciousness. Nature Reviews Neuroscience, 10(11), 803–813.Google Scholar
  63. Hobson, J. A., & Friston, K. J. (2012). Waking and dreaming consciousness: Neurobiological and functional considerations. Progress in Neurobiology, 98(1), 82–98.Google Scholar
  64. Hobson, J. A., & Friston, K. J. (2014). Consciousness, dreams, and inference: The cartesian theatre revisited. Journal of Consciousness Studies, 21(1–2), 6–32.Google Scholar
  65. Hobson, J. A., Pace-Schott, E. F., & Stickgold, R. (2000). Dreaming and the brain: Toward a cognitive neuroscience of conscious states. Behavioral and Brain Sciences, 23(6), 793–842. (discussion 904–1121) .Google Scholar
  66. Hodoba, D., Hrabric, K., Krmpotic, P., & Kujundzic-Tiljak, M. (2008). Dream recall after night awakenings from tonic/phasic REM sleep. Collegium Antropologicum, 32(Supplement 1), 69–73.Google Scholar
  67. Hoff, H. (1929). Zusammenhang von Vestibulärfunktion, Schlafstellung und Traumleben. European Neurology, 71(5–6), 366–372.Google Scholar
  68. Hoff, H., & Pötzl, O. (1937). Über die labyrinthären Beziehungen von Flugsensationen und Flugträumen. European Neurology, 97(4), 193–211.Google Scholar
  69. Hohwy, J. (2013). The predictive mind. Oxford: Oxford University Press.Google Scholar
  70. Hohwy, J. (2014). The neural organ explains the mind Open MIND: Open MIND. Frankfurt: MIND Group.Google Scholar
  71. Hohwy, J. (2015). The diversity of bayesian explanation. In T. Metzinger & J. M. Windt (Eds.), Open MIND: 19(T). Frankfurt: MIND Group.Google Scholar
  72. Hohwy, J. (2016). Prediction, agency and body ownership. (2016). In A. K. Engel, K. J. Friston, & D. Kragic (Eds.), The Pragmatic turn: Toward action-oriented views in cognitive science, Strüngmann forum reports, vol. 18, J. Lupp, series editor. Cambridge, MA: MIT Press.Google Scholar
  73. Hohwy, J. (in press). The predictive processing theory and 4e cognition. In A. Newen, L. Bruin, & S. Gallagher (Eds.), The Oxford handbook of cognition: embodied, embedded, enactive and extended. Oxford: Oxford University Press.Google Scholar
  74. Hohwy, J., & Michael, J. (in press). Why should any body have a self? In F. de Vignemont & A. Alsmith (Eds.), The body and the self, revisited. Cambridge (MA): MIT Press.Google Scholar
  75. Hong, C. C. H., Harris, J. C., Pearlson, G. D., Kim, J. S., Calhoun, V. D., Fallon, J. H., et al. (2009). fMRI evidence for multisensory recruitment associated with rapid eye movements during sleep. Human Brain Mapping, 30(5), 1705–1722.Google Scholar
  76. Honma, M., Plass, J., Brang, D., Florczak, S. M., Grabowecky, M., & Paller, K. A. (2016). Sleeping on the rubber-hand illusion: Memory reactivation during sleep facilitates multisensory recalibration. Neuroscience of Consciousness, 2016(1), 1–10.Google Scholar
  77. Honma, M., Yoshiike, T., Ikeda, H., Kim, Y., & Kuriyama, K. (2014). Sleep dissolves illusion: Sleep withstands learning of visuo-tactile-proprioceptive integration induced by repeated days of rubber hand illusion training. PLOS ONE, 9(1), e85734.Google Scholar
  78. Howell, M. J., & Schenck, C. H. (2015). REM sleep behavior disorder. In Disorders of sleep and circadian rhythms in Parkinson’s Disease (pp. 131–144). Springer.Google Scholar
  79. Jezower, I. (1928/1985). Das Buch der Träume. Frankfurt: Ullstein.Google Scholar
  80. Kahn, D., Stickgold, R., Pace-Schott, E., & Hobson, J. (2000). Dreaming and waking consciousness: A character recognition study. Journal of Sleep Research, 9(4), 317–325.Google Scholar
  81. Kaliuzhna, M., Vibert, D., Grivaz, P., & Blanke, O. (2015). Out-of-body experiences and other complex dissociation experiences in a patient with unilateral peripheral vestibular damage and deficient multisensory integration. Multisensory Research, 28(5–6), 613–635.Google Scholar
  82. Kirchhoff, M. D. (2017). Predictive processing, perceiving and imagining: Is to perceive to imagine, or something close to it? Philosophical Studies, Online first, pp. 1–17.Google Scholar
  83. LaBerge, S. (1985). Lucid dreaming: The power of being awake and aware in your dreams. Los Angeles: Jeremy P. Tarcher.Google Scholar
  84. LaBerge, S. P., Nagel, L. E., Dement, W. C., & Zarcone, V. P. (1981). Lucid dreaming verified by volitional communication during REM sleep. Perceptual and Motor Skills, 52, 727–732.Google Scholar
  85. LaBerge, S., & DeGracia, D. J. (2000). Varieties of lucid dreaming experience. Individual Differences in Conscious Experience, 20, 269.Google Scholar
  86. Leclair-Visonneau, L., Oudiette, D., Gaymard, B., Leu-Semenescu, S., & Arnulf, I. (2010). Do the eyes scan dream images during rapid eye movement sleep? Evidence from the rapid eye movement sleep behaviour disorder model. Brain, 133(6), 1737–1746.Google Scholar
  87. Lenggenhager, B., & Lopez, C. (2015). Vestibular contributions to the sense of body, self, and others. In T. Metzinger & J. M. Windt (Eds.), Open MIND: 23(T). Frankfurt: MIND Group.Google Scholar
  88. Lenggenhager, B., Lopez, C., & Blanke, O. (2008). Influence of galvanic vestibular stimulation on egocentric and object-based mental transformations. Experimental Brain Research, 184(2), 211–221.Google Scholar
  89. Lenggenhager, B., Tadi, T., Metzinger, T., & Blanke, O. (2007). Video ergo sum: Manipulating bodily self-consciousness. Science, 317(5841), 1096–1099.Google Scholar
  90. Leslie, K., & Ogilvie, R. (1996). Vestibular dreams: The effect of rocking on dream mentation. Dreaming, 6(1), 1.Google Scholar
  91. Limanowski, J., & Blankenburg, F. (2013). Minimal self-models and the free energy principle. Frontiers in Human Neuroscience, 7, 547.Google Scholar
  92. Limanowski, J. (2017). (Dis-)Attending to the body. In T. K. Metzinger & W. Wiese (Eds.), Philosophy and predictive processing. Frankfurt: MIND Group.Google Scholar
  93. Llinás, R. R., & Paré, D. (1991). Of dreaming and wakefulness. Neuroscience, 44(3), 521–535.Google Scholar
  94. Llinás, R., & Ribary, U. (1994). Perception as an oneiric-like state modulated by the senses. In C. Koch & J. Davis (Eds.), Large-scale neuronal theories of the brain (pp. 111–124). Cambridge, MA: MIT Press.Google Scholar
  95. Lopez, C., Halje, P., & Blanke, O. (2008). Body ownership and embodiment: Vestibular and multisensory mechanisms. Neurophysiologie Clinique/Clinical Neurophysiology, 38(3), 149–161.Google Scholar
  96. Mach, E. (1919). Die Analyse der Empfindungen und das Verhältnis des Psychischen zum Physischen. Jena: Verlag von Gustav Fischer.Google Scholar
  97. Macnish, R. (1838). The philosophy of sleep. Glasgow: WR M’Phun.Google Scholar
  98. Madary, M. (2015). Extending the explanandum for predictive processing: A commentary on Andy Clark. In T. Metzinger & J. M. Windt (Eds.), Open MIND: 7(C). Frankfurt: MIND Group.Google Scholar
  99. Mavromatis, A. (1987). Hypnagogia: The unique state of consciousness between wakefulness and sleep. London: Routledge.Google Scholar
  100. McNamara, P., McLaren, D., Smith, D., Brown, A., & Stickgold, R. (2005). A “Jekyll and Hyde” within aggressive versus friendly interactions in REM and non-REM dreams. Psychological Science, 16(2), 130–136.Google Scholar
  101. Metzinger, T. (2003). Being no one: The self-model theory of subjectivity. Cambridge (MA): MIT Press.Google Scholar
  102. Metzinger, T. (2009). The ego tunnel. The science of the soul and the myth of the self. New York: Basic Books.Google Scholar
  103. Metzinger, T. K. (2013). Why are dreams interesting for philosophers? The example of minimal phenomenal selfhood, plus an agenda for future research. Frontiers in Psychology, 4, 746.Google Scholar
  104. Mulder, T., Hochstenbach, J., Dijkstra, P. U., & Geertzen, J. H. (2008). Born to adapt, but not in your dreams. Consciousness and Cognition, 17(4), 1266–1271.Google Scholar
  105. Nielsen, T. A. (1992). A self-observational study of spontaneous hypnagogic imagery using the upright napping procedure. Imagination, Cognition and Personality, 11(4), 353–366.Google Scholar
  106. Nielsen, T. A. (1993). Changes in the kinesthetic content of dreams following somatosensory stimulation of leg muscles during REM sleep. Dreaming, 3(2), 99.Google Scholar
  107. Nielsen, T. A. (1995). Describing and modeling hypnagogic imagery using a systematic self-observation procedure. Dreaming, 5(2), 75.Google Scholar
  108. Nielsen, T. A. (2007). Felt presence: Paranoid delusion or hallucinatory social imagery? Consciousness and Cognition, 16(4), 975–983.Google Scholar
  109. Nielsen, T. A. (2010). Dream analysis and classification: The reality simulation perspective. In M. Kryger, T. Roth, & W. C. Dement (Eds.), Principles and practice of sleep medicine (5th ed., pp. 595–603). New York: Elsevier.Google Scholar
  110. Nielsen, T. (2017). Microdream neurophenomenology. Neuroscience of Consciousness, 3(1), 1–17.Google Scholar
  111. Nielsen, T. A., Zadra, A. L., Simard, V., Saucier, S., Stenstrom, P., Smith, C., et al. (2003). The typical dreams of Canadian university students. Dreaming, 13(4), 211.Google Scholar
  112. Nielsen, T., Ouellet, L., & Zadra, A. (1995). Pressure stimulation during REM sleep alters dream limb activity and body bizarreness. Sleep Research, 24, 134.Google Scholar
  113. Nielsen, T., Svob, C., & Kuiken, D. (2009). Dream-enacting behaviors in a normal population. Sleep, 32(12), 1629–1636.Google Scholar
  114. Noë, A. (2004). Action in perception. Cambridge (MA): MIT press.Google Scholar
  115. Occhionero, M., Cicogna, P., Natale, V., Esposito, M. J., & Bosinelli, M. (2005). Representation of self in SWS and REM dreams. Sleep and Hypnosis, 7(2), 77.Google Scholar
  116. Oudiette, D., Leu, S., Pottier, M., Buzare, M.-A., Brion, A., & Arnulf, I. (2009). Dreamlike mentations during sleepwalking and sleep terrors in adults. Sleep, 32(12), 1621–1627.Google Scholar
  117. Pace-Schott, E. F. (2013). Dreaming as a story-telling instinct. Frontiers in Psychology, 4, 159.Google Scholar
  118. Pagel, J., Blagrove, M., Levin, R., Stickgold, B., & White, S. (2001). Definitions of dream: A paradigm for comparing field descriptive specific studies of dream. Dreaming, 11(4), 195.Google Scholar
  119. Pezzulo, G. (2017). Tracing the roots of cognition in predictive processing. In T. K. Metzinger & W. Wiese (Eds.), Philosophy and Predictive Processing. Frankfurt: MIND Group.Google Scholar
  120. Pfeiffer, C., Serino, A., & Blanke, O. (2014). The vestibular system: A spatial reference for bodily self-consciousness. Frontiers in Integrative Neuroscience, 8, 31.Google Scholar
  121. Putnam, H. (1981). Brains in a vat. In H. Putnam (Ed.), Reason, truth, and history. Cambridge: Cambridge University Press.Google Scholar
  122. Rechtschaffen, A., & Buchignani, C. (1983). Visual dimensions and correlates of dream images. Sleep Research, 12, S189.Google Scholar
  123. Rechtschaffen, A., & Foulkes, D. (1965). Effect of visual stimuli on dream content. Perceptual and Motor Skills, 20(3 supplement), 1149–1160.Google Scholar
  124. Revonsuo, A. (2005). The self in dreams. In T. E. Feinberg & J. P. Keenan (Eds.), The lost self: Pathologies of the brain and identity (pp. 206–219). Oxford: Oxford University Press.Google Scholar
  125. Revonsuo, A. (2006). Inner presence: Consciousness as a biological phenomenon. Cambridge, MA: MIT Press.Google Scholar
  126. Revonsuo, A., & Salmivalli, C. (1995). A content analysis of bizarre elements in dreams. Dreaming, 5(3), 169.Google Scholar
  127. Revonsuo, A., Tuominen, J., & Valli, K. (2015). The avatars in the machine: Dreaming as a simulation of social reality. In T. Metzinger & J. M. Windt (Eds.), Open MIND: 32(T). Frankfurt am Main: MIND Group.Google Scholar
  128. Saurat, M.-T., Agbakou, M., Attigui, P., Golmard, J.-L., & Arnulf, I. (2011). Walking dreams in congenital and acquired paraplegia. Consciousness and Cognition, 20(4), 1425–1432.Google Scholar
  129. Sauvageau, A., Nielsen, T. A., & Montplaisir, J. (1998). Effects of somatosensory stimulation on dream content in gymnasts and control participants: Evidence of vestibulomotor adaptation in REM Sleep. Dreaming, 8(2), 125–134.Google Scholar
  130. Seth, A. K. (2013). Interoceptive inference, emotion, and the embodied self. Trends in Cognitive Sciences, 17(11), 565–573.Google Scholar
  131. Schönhammer, R. (2005). ’Typical dreams’: Reflections of arousal. Journal of Consciousness Studies, 12(4–5), 18–37.Google Scholar
  132. Schredl, M. (2006). Factors affecting the continuity between waking and dreaming: Emotional intensity and emotional tone of the waking-life event. Sleep and Hypnosis, 8(1), 1.Google Scholar
  133. Schredl, M., & Erlacher, D. (2011). Dream consciousness and sleep physiology. In D. Cvetkovic & I. Cosic (Eds.), States of consciousness: Experimental insights into meditation, waking, sleep, and dreams (pp. 93–108). Heidelberg: Springer.Google Scholar
  134. Schwabe, L., & Blanke, O. (2008). The vestibular component in out-of-body experiences: A computational approach. Frontiers in Human Neuroscience, 2, 17.Google Scholar
  135. Schwartz, S. (2000). A historical loop of one hundred years: Similarities between 19th century and contemporary dream research. Dreaming, 10(1), 55.Google Scholar
  136. Schwitzgebel, E. (2007). Do you have constant tactile experience of your feet in your shoes? Or is experience limited to what’s in attention? Journal of Consciousness Studies, 14(3), 5–35.Google Scholar
  137. Sikka, P., Valli, K., Virta, T., & Revonsuo, A. (2014). I know how you felt last night, or do I? Self-and external ratings of emotions in REM sleep dreams. Consciousness and Cognition, 25, 51–66.Google Scholar
  138. Speth, J., Frenzel, C., & Voss, U. (2013). A differentiating empirical linguistic analysis of dreamer activity in reports of EEG-controlled REM-dreams and hypnagogic hallucinations. Consciousness and Cognition, 22(3), 1013–1021.Google Scholar
  139. Strauch, I., & Meier, B. (1996). In search of dreams: Results of experimental dream research. New York: State University of New York Press.Google Scholar
  140. Stumbrys, T., Erlacher, D., Schädlich, M., & Schredl, M. (2012). Induction of lucid dreams: A systematic review of evidence. Consciousness and Cognition, 21(3), 1456–1475.Google Scholar
  141. Symons, D. (1993). The stuff that dreams aren’t made of: Why wake-state and dream-state sensory experiences differ. Cognition, 47(3), 181–217.Google Scholar
  142. Tiriac, A., Del Rio-Bermudez, C., & Blumberg, M. S. (2014). Self-generated movements with “unexpected” sensory consequences. Current Biology, 24(18), 2136–2141.Google Scholar
  143. Tsakiris, M., & Haggard, P. (2005). The rubber hand illusion revisited: Visuotactile integration and self-attribution. Journal of Experimental Psychology: Human Perception and Performance, 31(1), 80.Google Scholar
  144. Valli, K., Frauscher, B., Gschliesser, V., Wolf, E., Falkenstetter, T., Schönwald, S. V., et al. (2012). Can observers link dream content to behaviours in rapid eye movement sleep behaviour disorder? A cross-sectional experimental pilot study. Journal of Sleep Research, 21(1), 21–29.Google Scholar
  145. Vetrugno, R., Arnulf, I., & Montagna, P. (2008). Disappearance of “phantom limb” and amputated arm usage during dreaming in REM sleep behaviour disorder. Journal of Neurology, Neurosurgery, and Psychiatry, 79, 481– 483.Google Scholar
  146. Vetrugno, R., Arnulf, I., & Montagna, P. (2009). Disappearance of “phantom limb” and amputated arm usage during dreaming in REM sleep behaviour disorder. BMJ Case Reports, 2009, bcr0920080851.Google Scholar
  147. Voss, U., & Hobson, A. (2015). What is the state-of-the-art on lucid dreaming? In T. Metzinger & J. M. Windt (Eds.), Open MIND: 38(T). Frankfurt: MIND Group.Google Scholar
  148. Voss, U., Schermelleh-Engel, K., Windt, J., Frenzel, C., & Hobson, A. (2013). Measuring consciousness in dreams: The lucidity and consciousness in dreams scale. Consciousness and Cognition, 22(1), 8–21.Google Scholar
  149. Voss, U., Tuin, I., Schermelleh-Engel, K., & Hobson, A. (2011). Waking and dreaming: Related but structurally independent. Dream reports of congenitally paraplegic and deaf-mute persons. Consciousness and Cognition, 20(3), 673–687.Google Scholar
  150. Wehrle, R., Kaufmann, C., Wetter, T. C., Holsboer, F., Auer, D. P., Pollmächer, T., et al. (2007). Functional microstates within human REM sleep: First evidence from fMRI of a thalamocortical network specific for phasic REM periods. European Journal of Neuroscience, 25(3), 863–871.Google Scholar
  151. Weygandt, W. (1893). Entstehung der Träume. Leipzig: Grübel & Sommerblatte.Google Scholar
  152. Wiese, W. (2016). Action is enabled by systematic misrepresentations. Erkenntnis, Online first, pp. 1–20.Google Scholar
  153. Windt, J. M. (2010). The immersive spatiotemporal hallucination model of dreaming. Phenomenology and the Cognitive Sciences, 9(2), 295–316.Google Scholar
  154. Windt, J. M. (2013). Reporting dream experience: Why (not) to be skeptical about dream reports. Frontiers in Human Neuroscience, 7, 708.Google Scholar
  155. Windt, J. M. (2015a). Dreaming: A conceptual framework for philosophy of mind and empirical research. Cambridge, MA: MIT Press.Google Scholar
  156. Windt, J. M. (2015b). Just in time-dreamless sleep experience as pure subjective temporality: A commentary on Evan Thompson. In T. Metzinger & J. M. Windt (Eds.), Open MIND: 37(C). Frankfurt am Main: MIND Group.Google Scholar
  157. Windt, J. M., Harkness, D. L., & Lenggenhager, B. (2014). Tickle me, I think I might be dreaming! Sensory attenuation, self-other distinction, and predictive processing in lucid dreams. Frontiers in Human Neuroscience, 8, 717.Google Scholar
  158. Windt, J. M., Nielsen, T., & Thompson, E. (2016). Does consciousness disappear in dreamless sleep? Trends in Cognitive Sciences, 20(12), 871–882.Google Scholar
  159. Wundt, W. M. (1874). Grundzüge der physiologischen psychologie. Leipzig: W. Engelman.Google Scholar
  160. Yu, C. K.-C. (2008). Typical dreams experienced by Chinese people. Dreaming, 18(1), 1.Google Scholar
  161. Zadra, A. L. (2001). Recurrent dreams: Their relation to life events. In D. Barrett (Ed.), Trauma and dreams (pp. 231–247). Cambridge, MA: Harvard University Press.Google Scholar

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© Springer Science+Business Media B.V. 2017

Authors and Affiliations

  1. 1.Philosophy DepartmentMonash UniversityClaytonAustralia

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