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035   $a(CKB)3710000000504583
035   $a(WaSeSS)IndRDA00058782
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/60934
035   $a(EXLCZ)993710000000504583
100   $a20160707d2014      ||             |
101 0 $aeng
135   $aur|||||||||||
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aTime and causality /$ftopic editor, Marc J. Buehner
210   $cFrontiers Media SA$d2014
210  1$a[Lausanne, Switzerland] :$cFrontiers Media SA,$d2014.
215   $a1 online resource (118 pages)
225 0 $aFrontiers Research Topics,$x1664-8714
311   $a2-88919-252-0 
320   $aIncludes bibliographical references.
327   $aTime and Causality: Editorial / Marc J. Buehner -- Assessing Evidence for a Common Function of Delay in Causal Learning and Reward Discounting / W. James Greville and Marc J. Buehner -- Dysphoric Mood States are Related to Sensitivity to Temporal Changes in Contingency / Rachel M. Msetfi, Robin A. Murphy and Diana E. Kornbrot -- The Temporal Priority Principle: At what Age Does this Develop? / Michelle L. Rankin and Teresa McCormack -- Domain-Specific Perceptual Causality in Children Depends on the SpatioTemporal Configuration, Not Motion Onset / Anne Schlottmann, Katy Cole, Rhianna Watts and Marina White -- Context Modulates the Contribution of Time and Space in Causal Inference / Adam J. Woods, Matthew Lehet and Anjan Chatterjee -- The Influence of Perceived Causation on Judgments Of Time: An Integrative Review and Implications for Decision-Making / David Faro, Ann L. McGill and Reid Hastie -- Attribution of Intentional Causation Influences the Perception of Observed Movements: Behavioral Evidence and Neural Correlates James W. Moore, Christoph Teufel, Naresh Subramaniam, Greg Davis and Paul C. Fletcher -- To Lead and To Lag :Forward and Backward Recalibration of Perceived VisuoMotor Simultaneity / Marieke Rohde and Marc O. Ernst -- Motor-Sensory Recalibration Modulates Perceived Simultaneity of Cross-Modal Events at Different Distances / Brent D. Parsons, Scott D. Novich and David M. Eagleman -- Cutaneous Rabbit Hops Toward a Light: Unimodal and Cross-Modal Causality on the Skin Tomohisa Asai and Noriaki Kanayama -- Erratum: Cutaneous Rabbit Hops Toward a Light: Unimodal and Cross-Modal Causality on the Skin Tomohisa Asai and Noriaki Kanayama.
330   $aThe problem of how humans and other intelligent systems construct causal representations from non-causal perceptual evidence has occupied scholars in cognitive science for many decades. Most contemporary approaches agree with David Hume that patterns of covariation between two events of interest are the critical input to the causal induction engine, irrespective of whether this induction is believed to be grounded in the formation of associations (Shanks & Dickinson, 1987), rule-based evaluation (White, 2004), appraisal of causal powers (Cheng, 1997), or construction of Bayesian Causal Networks (Pearl, 2000). Recent research, however, has repeatedly demonstrated that an exclusive focus on covariation while neglecting contiguity (another of Hume's cues) results in ecologically invalid models of causal inference. Temporal spacing, order, variability, predictability, and patterning all have profound influence on the type of causal representation that is constructed. The influence of time upon causal representations could be seen as a bottom-up constraint (though current bottom-up models cannot account for the full spectrum of effects). However, causal representations in turn also constrain the perception of time: Put simply, two causally related events appear closer in subjective time than two (equidistant) unrelated events. This reversal of Hume's conjecture, referred to as Causal Binding (Buehner & Humphreys, 2009) is a top-down constraint, and suggests that our representations of time and causality are mutually influencing one another. At present, the theoretical implications of this phenomenon are not yet fully understood. Some accounts link it exclusively to human motor planning (appealing to mechanisms of cross-modal temporal adaptation, or forward learning models of motor control). However, recent demonstrations of causal binding in the absence of human action, and analogous binding effects in the visual spatial domain, challenge such accounts in favour of Bayesian Evidence Integration. This Research Topic reviews and further explores the nature of the mutual influence between time and causality, how causal knowledge is constructed in the context of time, and how it in turn shapes and alters our perception of time. We draw together literatures from the perception and cognitive science, as well as experimental and theoretical papers. Contributions investigate the neural bases of binding and causal learning/perception, methodological advances, and functional implications of causal learning and perception in real time.
606   $aCausation
610   $aTime Perception
610   $asensory integration
610   $aperceptual causality
610   $acontingency
610   $acognitive development
610   $abinding
610   $atime
610   $acausality
610   $acontiguity
610   $aJudgment
615  0$aCausation.
676   $a122
700   $aMarc J. Buehner$4auth$01352891
702   $aBuehner$b Marc J.
801  0$bWaSeSS
801  1$bWaSeSS
906   $aBOOK
912   $a9910688234403321
996   $aTime and causality$93205462
997   $aUNINA