;1:97-108. Stepanski E, Lamphere J, Badia P, Zorick F, Roth T. Sleep fragmentation and daytime sleepiness. Sleep 1984;7:18-26. Bonnet MH, Arand DL. Sleepiness as measured by modified Multiple Sleep Latency Testing varies as a function of preceding activity. Sleep 1998;21:477-83. Bonnet MH, Arand DL. Level of arousal and the ability to maintain wakefulness. J Sleep Res 1999;8:247-54. Bonnet MH, Arand DL. Arousal components which differentiate the MWT from the MSLT. Sleep 2001;24:441-7. Gross RT, Borkovec TD. Effects of a cognitive intrusion manipulation on the sleep onset latency of
; 21(5): 560-81. 15) Kushki A, Brain J, Dupuis A, Anagnostou E. Functional autonomic nervous system profile in children with autism spectrum disorder. Mol Autism 2014; 5: 39. 16) Levine TP, Sheinkopf SJ, Pescosolido M, Rodino A, Elia G, Lester B. Physiologic arousal to social stress in children with autism spectrum disorders: a pilot study. Res Autism Spectr Disord 2012; 6(1): 177-83. 17) Hollocks MJ, Howlin P, Papadopoulos AS, Khondoker M, Simonoff E. Differences in HPA-axis and heart rate responsiveness to psychosocial stress in children with autism spectrum
. (2008). Emotional valence and arousal interact in attentional control. Psychological Science , 19 , 290-295. doi:10.1111/j.1467-9280.2008.02082.x Juslin, P., Olsson, N., & Winman, A. (1996). Calibration and diagnosticity of confidence in eyewitness identification: Comments on what can be inferred from the low confidence-accuracy correlation. Journal of Experimental Psychology: Learning, Memory, and Cognition, 22 , 1304-1316. doi:10.1037/0278-73188.8.131.524 Kendall, P. C., Hollon, S. D., Beck, A. T., Hammen, C. L., & Ingram, R. E. (1987). Issues and recommendations
urban places, Paper to Noradic symposium, Local Planning in Change, New Possibilities and Roles, Lillehammer 14-16 Agust, 2003.  CANTER, D., The psychology of place, New York: St. Martin’s Press, 1977.  ROSENBERG, M. J., HOVLAND, C. I., Cognitive, affective and behavioural components of attitudes, In: C.I. Hovland, M. J, 1960.  MEHRABIAN, A., RUSSELL, A., An approach to environmental psychology. Cambridge, Mass: MIT Press, 1974.  ARIFIN, S., Cheung, P.Y.K. A Computation Method for Video Segmentation Utilizing the Pleasure- Arousal-Dominance Emotional
, & Computers , 36 (2), 339–346. https://doi.org/10.3758/BF03195580 Luna, F. G., Marino, J., Roca, J., & Lupiáñez, J. (2018). Executive and arousal vigilance decrement in the context of the attentional networks: The ANTI-Vea task. Journal of Neuroscience Methods , 306 , 77–87. https://doi.org/10.1016/j.jneumeth.2018.05.011 Luna, F. G., Roca, J., Martín-Arévalo, E., & Lupiáñez, J. (2020). Measuring attention and vigilance in the laboratory vs. online: The split-half reliability of the ANTI-Vea. Behavior Research Methods . https://doi.org/10.3758/s13428-020-01483-4 Luna
Implicit causality of interpersonal transitive verbs (IC) pertains to preferences to attribute the cause of a given action to the subject or the object referent in active clauses. Causal attribution is operationalized as the probability of referential continuation in a subsequent explanatory clause. This paper presents an explorative investigation into the causal biases of action verbs, which in contrast to affective verbs have received less attention in IC research. We approach implicit causality as a discourse level phenomenon based on the textual level of discourse representation and enriched by conceptual knowledge. In study 1, we targeted IC effects of German action verbs (N = 52) in sentences containing causal, additive and adversative connectives. Results showed that IC based categories of subject-object-, and non-biasing predicates were clearly discernable in causal contexts only. In study 2, we examined effects of situational knowledge (physical affectedness & social acceptability) and affective appraisals (valence & arousal) represented in the conceptual structure of the verbs on the construal of causality biases and their interplay with immediate contextual information such as gender of referents. Results show that higher degrees of physical affectedness were associated with causal attribution to the object referent. This effect was modulated by the affective properties of the verbs. Our findings revealed the influence of physiological arousal, an affective dimension not considered in previous investigations of IC. Actions with a strong physical impact that were characterized by high arousal, e.g., kick, or tickle were more likely to be explained with reference to the subject. Participants also considered the available contextual information, as indicated by the significant interactions of gender information with arousal. Within the subsample of non-biasing verbs, higher estimates for social behavior increased probabilities of causal attributions to the subject.
References  Hansen, J. H., Bou-Ghazale, S. E., Sarikaya, R., and Pellom, B. (1997). Getting started with SUSAS: a speech under simulated and actual stress database. Eurospeech , 97(4):1743–1746.  Hansen, J. H. SUSAS LDC99S78. Web Download. Philadelphia: Linguistic Data Consortium, 1999. Accessible at: https://catalog.ldc.upenn.edu/LDC99S78 .  Sabo, R., Rusko, M., Ridzik, A., and Rajčáni, J. (2016). Stress, Arousal, and Stress Detector Trained on Acted Speech Database. In International Conference on Speech and Computer , pages 675–682.  Rusko, M
References Berger, Jonah (2011), “Arousal Increases Social Transmission of Information”, Psychological Science, 22(7), 891 - 893. Berger, Jonah (2013): “Contagious: Why Things Catch On”; Simon & Schuster Cashmore, Pete (2009), “YouTube: Why Do We Watch?” http://www.cnn.com/2009/TECH/12/17/cashmore.youtube/index.html Godes, David and Dina Mayzlin (2009), “Firm-Created Word-of-Mouth Communication: Evidence from a Field Test”, Marketing Science, Vol. 28, pp. 721 - 739.
Fear, Stress, and Anxiety Disorders. Neuropsychopharmacology 35(1): 169–91. 25. Williams LM, Phillips ML, Brammer MJ, Skerrett D, Lagopoulos J, Rennie C, Bahramali H, Olivieri G, David AS, Peduto A, Gordon E. (2001): Arousal dissociates amygdala and hippocampal fear responses: evidence from simultaneous fMRI and skin conductance recording. Neuromage 14: 1070–1079. 26. Asahina M, Suzuki A, Mori M, Kanesaka T, Hattori T. (2003): Emotional sweating response in a patient with bilateral amygdala damage. Int J Psychophysiol 47: 87–93. 27. Critchley HD. (2002
conscientiousness in adolescent interpersonal relationships. Pers Soc Psychol B , 2007; 33: 368-383. Lang PJ, Bradley MM, Cuthbert BN. Emotion, motivation, and anxiety: brain mechanisms and psychophysiology. Biol Psychiatry , 1998; 44: 1248-63 Mardaga S, Laloyaux O, Hansenne M. Personality traits modulate skin conductance response to emotional pictures: An investigation with Cloninger's model of personality. Pers Indiv Differ , 2006; 40:1603-1614 Matthews G. The effects of extraversion and arousal on intelligence test performance. Brit J Psychol , 1985; 76: 479-493. Mauss IB