[{"citation":{"ama":"Tseng P, Tuennermann J, Roker-Knight N, Winter D, Scharlau I, Bridgeman B. Enhancing implicit change detection through action. Perception. 2010;39(10):1311-1321.","short":"P. Tseng, J. Tuennermann, N. Roker-Knight, D. Winter, I. Scharlau, B. Bridgeman, Perception 39 (2010) 1311–1321.","chicago":"Tseng, Philip, Jan Tuennermann, Nancy Roker-Knight, Dorina Winter, Ingrid Scharlau, and Bruce Bridgeman. “Enhancing Implicit Change Detection through Action.” Perception 39, no. 10 (2010): 1311–21.","bibtex":"@article{Tseng_Tuennermann_Roker-Knight_Winter_Scharlau_Bridgeman_2010, title={Enhancing implicit change detection through action.}, volume={39}, number={10}, journal={Perception}, author={Tseng, Philip and Tuennermann, Jan and Roker-Knight, Nancy and Winter, Dorina and Scharlau, Ingrid and Bridgeman, Bruce}, year={2010}, pages={1311–1321} }","mla":"Tseng, Philip, et al. “Enhancing Implicit Change Detection through Action.” Perception, vol. 39, no. 10, 2010, pp. 1311–21.","apa":"Tseng, P., Tuennermann, J., Roker-Knight, N., Winter, D., Scharlau, I., & Bridgeman, B. (2010). Enhancing implicit change detection through action. Perception, 39(10), 1311–1321.","ieee":"P. Tseng, J. Tuennermann, N. Roker-Knight, D. Winter, I. Scharlau, and B. Bridgeman, “Enhancing implicit change detection through action.,” Perception, vol. 39, no. 10, pp. 1311–1321, 2010."},"status":"public","volume":39,"user_id":"42165","_id":"6067","page":"1311 - 1321","abstract":[{"lang":"eng","text":"Implicit change detection demonstrates how the visual system can benefit from stored information that is not immediately available to conscious awareness. We investigated the role of motor action in this context. In the first two experiments, using a one-shot implicit change detection paradigm, participants responded to unperceived changes either with an action (jabbing the screen at the guessed location of a change) or with words (verbal report), and sat either 60 cm or 300 cm (with a laser pointer) away from the display. Our observers guessed the locations of changes at a reachable distance better with an action than with a verbal judgment. At 300 cm, beyond reach, the motor advantage disappeared. In experiment 3, this advantage was also unavailable when participants sat at a reachable distance but responded with hand-held laser pointers near their bodies. We conclude that a motor system specialized for real-time visually guided behavior has access to additional visual information. "}],"publication":"Perception","issue":"10","department":[{"_id":"424"}],"type":"journal_article","keyword":["implicit change detection","action perception","visual system","perceptual judgment","verbal fluency","Analysis of Variance","Awareness","Female","Humans","Male","Psychomotor Performance","Random Allocation","Reaction Time","Visual Perception","Visual Memory","Visual Stimulation","Implicit Memory","Judgment","Perceptual Discrimination"],"date_created":"2018-12-10T07:02:19Z","intvolume":" 39","publication_status":"published","date_updated":"2022-06-06T16:47:26Z","publication_identifier":{"issn":["0301-0066"]},"author":[{"full_name":"Tseng, Philip","last_name":"Tseng","first_name":"Philip"},{"last_name":"Tuennermann","first_name":"Jan","full_name":"Tuennermann, Jan"},{"last_name":"Roker-Knight","first_name":"Nancy","full_name":"Roker-Knight, Nancy"},{"full_name":"Winter, Dorina","last_name":"Winter","first_name":"Dorina"},{"id":"451","last_name":"Scharlau","first_name":"Ingrid","orcid":"0000-0003-2364-9489","full_name":"Scharlau, Ingrid"},{"first_name":"Bruce","last_name":"Bridgeman","full_name":"Bridgeman, Bruce"}],"title":"Enhancing implicit change detection through action.","year":"2010","language":[{"iso":"eng"}]},{"intvolume":" 64","date_updated":"2022-06-07T00:28:04Z","publication_status":"published","publication_identifier":{"issn":["0031-5117"]},"author":[{"id":"451","full_name":"Scharlau, Ingrid","first_name":"Ingrid","last_name":"Scharlau","orcid":"0000-0003-2364-9489"}],"year":"2002","title":"Leading, but not trailing, primes influence temporal order perception: Further evidence for an attentional account of perceptual latency priming.","language":[{"iso":"eng"}],"main_file_link":[{"open_access":"1","url":"https://kw.uni-paderborn.de/fileadmin/fakultaet/Institute/psychologie/Kognitive_Psychologie/Publikationen/Scharlau2002P_PLeadingTrailing.pdf"}],"abstract":[{"text":"Presenting a masked prime leading a target influences the perceived onset of the masking target. This priming effect is explained by the asynchronous updating model: The prime initiates attentional allocation toward its location, which renders a trailing target at the same place consciously available earlier. In 3 experiments, this perceptual latency priming by leading primes was examined jointly with the effects of trailing primes in order to compare the explanation of the asynchronous updating model with the onset-averaging and the P-center hypotheses. Exp 1 (n=15, mean age 27.1 yrs) showed that an attended, as well as an unattended, prime leads to perceptual latency priming. In addition, a large effect of trailing primes on the onset of a target was found. As Exp 2 (n=13, mean age 26.5 yrs) demonstrated, this effect is quite robust, although smaller than that of a leading prime. In Exp 3 (n=13, mean age 24.8 yrs), masked primes were used. Under these conditions, no influence of tra","lang":"eng"}],"extern":"1","publication":"Perception & Psychophysics","issue":"8","department":[{"_id":"424"}],"type":"journal_article","keyword":["attention","leading primes","trailing primes","temporal order perception","perceptual latency priming","Adult","Attention","Female","Fixation","Ocular","Humans","Male","Perceptual Masking","Random Allocation","Time Perception","Visual Perception","Attention","Masking","Priming","Stimulus Frequency","Temporal Frequency","Temporal Order (Judgment)"],"date_created":"2018-12-10T07:04:51Z","status":"public","volume":64,"user_id":"42165","_id":"6074","page":"1346 - 1360","citation":{"ieee":"I. Scharlau, “Leading, but not trailing, primes influence temporal order perception: Further evidence for an attentional account of perceptual latency priming.,” Perception & Psychophysics, vol. 64, no. 8, pp. 1346–1360, 2002.","apa":"Scharlau, I. (2002). Leading, but not trailing, primes influence temporal order perception: Further evidence for an attentional account of perceptual latency priming. Perception & Psychophysics, 64(8), 1346–1360.","mla":"Scharlau, Ingrid. “Leading, but Not Trailing, Primes Influence Temporal Order Perception: Further Evidence for an Attentional Account of Perceptual Latency Priming.” Perception & Psychophysics, vol. 64, no. 8, 2002, pp. 1346–60.","bibtex":"@article{Scharlau_2002, title={Leading, but not trailing, primes influence temporal order perception: Further evidence for an attentional account of perceptual latency priming.}, volume={64}, number={8}, journal={Perception & Psychophysics}, author={Scharlau, Ingrid}, year={2002}, pages={1346–1360} }","chicago":"Scharlau, Ingrid. “Leading, but Not Trailing, Primes Influence Temporal Order Perception: Further Evidence for an Attentional Account of Perceptual Latency Priming.” Perception & Psychophysics 64, no. 8 (2002): 1346–60.","short":"I. Scharlau, Perception & Psychophysics 64 (2002) 1346–1360.","ama":"Scharlau I. Leading, but not trailing, primes influence temporal order perception: Further evidence for an attentional account of perceptual latency priming. Perception & Psychophysics. 2002;64(8):1346-1360."},"oa":"1"}]