Your search keyword '"Xinhua ZHENG"' showing total 2 results

1. Generative Strategies, Working Memory, and Word Problem Solving Accuracy in Children at Risk for Math Disabilities

Author

Xinhua Zheng, Amber S. Moran, Cathy Lussier, H. Lee Swanson, and Kathleen M. Bocian

Subjects

Working memory, Short-term memory, Paraphrase, Education, Comprehension, Behavioral Neuroscience, General Health Professions, Learning disability, medicine, Mathematics education, medicine.symptom, Psychology, Control (linguistics), At-risk students, Generative grammar, Cognitive psychology

Abstract

This study investigated the role of generative strategies and working memory capacity on word problem solving accuracy in children with math difficulties (MD). Within classrooms, children in Grade 3 with MD ( n = 69) were randomly assigned to one of three treatment conditions: paraphrase question propositions (Restate), paraphrase relevant propositions (Relevant), and paraphrase all propositions (Complete), or to an untreated control. An additional control group included children without MD ( n = 22). Mixed regression modeling showed that generative strategies significantly improved posttest scores for children with MD compared with the control condition, but outcomes were related to the type of dependent measures. The Relevant and Complete treatment conditions improved problem-solving accuracy, the Complete condition improved problem component identification, and the Restate and Relevant conditions improved operation span performance when compared with the control conditions. Only the Relevant and Complete generative learning treatments allowed children with MD to catch up to children without MD, but the results were moderated by working memory capacity.

Published

2013

2. Growth in Working Memory and Mathematical Problem Solving in Children at Risk and Not at Risk for Serious Math Difficulties.

Author

Swanson, H. Lee, Jerman, Olga, and Xinhua Zheng

Subjects

*AT-risk students, *MATHEMATICAL ability in children, *SHORT-term memory, *MEMORY, *COGNITIVE ability, *PROBLEM solving in children, *MATHEMATICS problems & exercises, *PRIMARY education

Abstract

The influence of cognitive growth in working memory (WM) on mathematical problem solution accuracy was examined in elementary school children (N = 353) at risk and not at risk for serious math problem solving difficulties. A battery of tests was administered that assessed problem solving, achievement, and cognitive processing (WM, inhibition, naming speed, phonological coding) in children in 1st, 2nd, and 3rd grade across 3 testing waves. The results were that (a) children identified as at risk for serious math problem solving difficulties in Wave 1 showed less growth rate and lower levels of performance on cognitive measures than did children not at risk; (b) fluid intelligence and 2 components of WM (central executive, visual-spatial sketchpad) in Wave 1 (Year 1) predicted Wave 3 word problem solving solution accuracy; and (c) growth in the central executive and phonological storage component of WM was related to growth in solution accuracy. The results support the notion that growth in WM is an important predictor of children's problem solving beyond the contribution of reading, calculation skills, and individual differences in phonological processing, inhibition, and processing speed. [ABSTRACT FROM AUTHOR]

Published

2008