都市計画支援システムに関する研究

博士（学術）神戸大

Supplemental material to the manuscript "Improving silent reading rates through feedback on eye movements: First feasibility tests"

This repository accompanies the manuscript: "Improving silent reading rates through feedback on eye movements: First feasibility tests" Organized into four subfolders it provides the data and the R-scripts allowing the replication of all analyses and the manuscript's figures. For further information please refer to the README.txt files in the individual subfolders. For a more convenient download files were zipped

Reaction times of the Face Decision Task and standard scores of cognitive tests for both reader groups.

1<p>in milliseconds;</p>2<p>standard scores range from 1–19, thus 10 represents an average score.</p

Grand average waveforms and scalp maps.

<p>The upper panel shows global field power (GFP) curves for words (left) and faces (right). ERP waveforms at selected electrode positions are shown in the lower panel. Grey squares indicate microstate boarders, red vertical dashes in the upper panel mark difference wave peaks, and the green squares indicate time window boarders where significant mean amplitude differences between reader groups were found. Maps in the upper panel show the scalp distribution of differences waves averaged over time points in the relevant time window. The maps below represent topographical maps at ERP peaks of the grand average computed across both reader groups.</p

Text-fading based training leads to transfer effects on children\u27s sentence reading fluency

Previous studies used a text-fading procedure as a training tool with the goal to increase silent reading fluency (i.e., proficient reading rate and comprehension). In recently published studies, this procedure resulted in lasting reading enhancements for adult and adolescent research samples. However, studies working with children reported mixed results. While reading rate improvements were observable for Dutch reading children in a text-fading training study, reading fluency improvements in standardized reading tests post-training attributable to the fading manipulation were not detectable. These results raise the question of whether text-fading training is not effective for children or whether research design issues have concealed possible transfer effects. Hence, the present study sought to investigate possible transfer effects resulting from a text-fading based reading training program, using a modified research design. Over a period of 3 weeks, two groups of German third-graders read sentences either with an adaptive text-fading procedure or at their self-paced reading rate. A standardized test measuring reading fluency at the word, sentence, and text level was conducted pre- and post-training. Text level reading fluency improved for both groups equally. Post-training gains at the word level were found for the text-fading group, however, no significant interaction between groups was revealed for word reading fluency. Sentence level reading fluency gains were found for the text-fading group, which significantly differed from the group of children reading at their self-paced reading routine. These findings provide evidence for the efficacy of text-fading as a training method for sentence reading fluency improvement also for children. (DIPF/Orig.

Text-fading based training leads to transfer effects on children’s sentence reading fluency

Previous studies used a text-fading procedure as a training tool with the goal to increase silent reading fluency (i.e., proficient reading rate and comprehension). In recently published studies, this procedure resulted in lasting reading enhancements for adult and adolescent research samples. However, studies working with children reported mixed results. While reading rate improvements were observable for Dutch reading children in a text-fading training study, reading fluency improvements in standardized reading tests post-training attributable to the fading manipulation were not detectable. These results raise the question of whether text-fading training is not effective for children or whether research design issues have concealed possible transfer effects. Hence, the present study sought to investigate possible transfer effects resulting from a text-fading based reading training program, using a modified research design. Over a period of three weeks, two groups of German third-graders read sentences either with an adaptive text-fading procedure or at their self-paced reading rate. A standardized test measuring reading fluency at the word, sentence, and text level was conducted pre- and post-training. Text level reading fluency improved for both groups equally. Post-training gains at the word level were found for the text-fading group, however, no significant interaction between groups was revealed for word reading fluency. Sentence level reading fluency gains were found for the text-fading group, which significantly differed from the group of children reading at their self-paced reading routine. These findings provide evidence for the efficacy of text-fading as a training method for sentence reading fluency improvement also for children

Text-fading based training leads to transfer effects on children's sentence reading fluency

Previous studies used a text-fading procedure as a training tool with the goal to increase silent reading fluency (i.e., proficient reading rate and comprehension). In recently published studies, this procedure resulted in lasting reading enhancements for adult and adolescent research samples. However, studies working with children reported mixed results. While reading rate improvements were observable for Dutch reading children in a text-fading training study, reading fluency improvements in standardized reading tests post-training attributable to the fading manipulation were not detectable. These results raise the question of whether text-fading training is not effective for children or whether research design issues have concealed possible transfer effects. Hence, the present study sought to investigate possible transfer effects resulting from a text-fading based reading training program, using a modified research design. Over a period of 3 weeks, two groups of German third-graders read sentences either with an adaptive text-fading procedure or at their self-paced reading rate. A standardized test measuring reading fluency at the word, sentence, and text level was conducted pre- and post-training. Text level reading fluency improved for both groups equally. Post-training gains at the word level were found for the text-fading group, however, no significant interaction between groups was revealed for word reading fluency. Sentence level reading fluency gains were found for the text-fading group, which significantly differed from the group of children reading at their self-paced reading routine. These findings provide evidence for the efficacy of text-fading as a training method for sentence reading fluency improvement also for children

Revisiting the electrophysiological correlates of valence and expectancy in reward processing – A Multi-lab replication

Two event-related brain potential (ERP) components elicited during feedback processing are the frontocentral feedback-related negativity (FRN), followed by the posterior P300. According to the Error-Related Reinforcement Learning Theory (Holroyd &amp; Coles, 2002), the FRN amplitude is largest when the outcome is negative and unexpected. Complementing this, studies on the subsequent P300 have often reported larger amplitudes for positive than negative outcomes. In an influential ERP study, Hajcak et al., (2005) manipulated outcome valence and expectancy in a guessing task. However, they found that the FRN component was larger for negative (no-reward) than positive (reward) outcomes, irrespective of expectancy. Conversely, the P300 component was larger for unexpected than expected outcomes, irrespective of valence. These results were at odds with prominent theories and extant literature. Here, we aim to replicate these results within the #EEGManyLabs project (Pavlov et al., 2021). Across thirteen labs we will not only undertake a close replication, but test the robustness of these effects to analytical choices (e.g. quantification of ERPs) and supplement the findings with Bayesian multilevel linear models to test for the reported absence of the effects