Showing total 1,151,381 results

1. Science and technology fields and higher education institutions with mathematically trained contributors: Metadata analysis of IEEE papers

Author

Ikegawa, Takashi

Published

2021

2. Selected Papers

Author

Calvin C. Elgot, Stephen L. Bloom, Calvin C. Elgot, and Stephen L. Bloom

Subjects

Mathematics, Application software, Elementary particles (Physics), Quantum field theory

Abstract

Cal Elgot was a very serious and thoughtful researcher, who with great determi­ nation attempted to find basic explanations for certain mathematical phenomena­ as the selection of papers in this volume well illustrate. His approach was, for the most part, rather finitist and constructivist, and he was inevitably drawn to studies of the process of computation. It seems to me that his early work on decision problems relating automata and logic, starting with his thesis under Roger Lyndon and continuing with joint work with Biichi, Wright, Copi, Rutledge, Mezei, and then later with Rabin, set the stage for his attack on the theory of computation through the abstract treatment of the notion of a machine. This is also apparent in his joint work with A. Robinson reproduced here and in his joint papers with John Shepherdson. Of course in the light of subsequent work on decision problems by Biichi, Rabin, Shelah, and many, many others, the subject has been placed on a completely different plane from what it was when Elgot left the area. But I feel that his papers, results-and style-were very definitely influential at the time and may well have altered the course of the investigation of these problems. As Sammy Eilenberg explains, the next big influence on Elgot's thinking was category theory, which gave him a way of expressing his ideas in a sharply algebraic manner. The joint book with Eilenberg is one illustration of this influence.

Published

2012

3. Exploratory Analysis of VET Market Segments. Technical Paper

Author

Palmer, Bryan

Subjects

Vocational Education, Foreign Countries, Labor Market, Multivariate Analysis, Cluster Grouping, Mathematics, Australia

Abstract

This paper summarises the exploratory quantitative analysis undertaken to investigate how vocational education and training (VET) students cluster and segment in the Australian VET market. This analysis is outlined in three sections. The first section focuses on 'clustering' as a technique for grouping data and the three clustering algorithms used. These are then discussed in more detail to provide some insights into how they operate. Their specific data requirements, along with their strengths and weaknesses, are also considered. In next section the outputs of the clustering approaches are considered. The resultant clusters are examined to better understand them, and meaningfully label and group them into segments. The final section returns to the raw data. This step was necessary to further explore (in this case, only some of) the identified market segments. Three key market segments are explored: students in targeted English programs; students in social inclusion programs; and migrant students.

Published

2022

4. Searching Promising Researchers through Network Centrality Measures of Co-author Networks of Technical Papers

Author

Fujita, Masanori, Inoue, Hiroto, and Terano, Takao

Published

2017

5. Construction Process of the Length of [cube root of 2] by Paper Folding

Author

Guler, Hatice Kubra and Gurbuz, Mustafa Cagri

Subjects

Paper (Material), Teaching Methods, Mathematics Instruction, Mathematics Teachers, Mathematical Logic, Mathematics, Professional Personnel, Thinking Skills, Geometric Concepts, Geometry, Secondary School Mathematics, Secondary School Teachers, Algebra, Problem Solving, Foreign Countries, Turkey

Abstract

The main purpose of this study is to investigate mathematics teachers' mathematical thinking process while they are constructing the length of [cube root of 2] by paper folding. To carry out this aim, two teachers--who are PhD. students--were interviewed one by one. During the construction, it was possible to observe the consolidation process of Pythagorean and Thales Theorem. All interviews were videotaped and analyzed through descriptive methods, according to abstraction in context, characteristics of consolidation and mathematical habits of mind. It was found that both two teachers constructed the knowledge of Pythagorean and Thales Theorems before the study and also these knowledges were consolidated. In addition, it was determined that these two approaches (abstraction in context and mathematical habits of mind) were close and corroborated each other. Moreover, consolidation process corroborated mathematical habits of mind.

Published

2018

6. Short Paper - A note on the Frank–Wolfe algorithm for a class of nonconvex and nonsmooth optimization problems

Author

de Oliveira, Welington

Subjects

Nonsmooth Optimization, Nonconvex Optimization, Frank–Wolfe Algorithm, Mathematics, QA1-939

Abstract

Frank and Wolfe’s celebrated conditional gradient method is a well-known tool for solving smooth optimization problems for which minimizing a linear function over the feasible set is computationally cheap. However, when the objective function is nonsmooth, the method may fail to compute a stationary point. In this work, we show that the Frank–Wolfe algorithm can be employed to compute Clarke-stationary points for nonconvex and nonsmooth optimization problems consisting of minimizing upper-$C^{1,\alpha }$ functions over convex and compact sets. Furthermore, under more restrictive assumptions, we propose a new algorithm variant with stronger stationarity guarantees, namely directional stationarity and even local optimality.

Published

2023

7. Inclusive Professional Framework for Societies: Changing Mental Models to Promote Diverse, Equitable, and Inclusive STEM Systems Change. WCER Working Paper No. 2021-8

Author

Leibnitz, Gretalyn, Gillian-Daniel, Donald L., Greenler, Robin M., Campbell-Montalvo, Rebecca, Metcalf, Heather, Segarra, Verónica A., Peters, Jan W., Patton, Shannon, Lucy-Putwen, Andrea, and Sims, Ershela L.

Subjects

STEM Education, Professional Associations, Inclusion, Diversity, Equal Education, Group Membership, Talent, Schemata (Cognition), Professional Identity, Change Agents, Guidelines, Scientists, Engineering, Disadvantaged, Disproportionate Representation, Minority Groups, Gender Differences, Labor Force, Professional Personnel, Organizational Change, Self Concept, Cultural Awareness, Equal Opportunities (Jobs), Power Structure, Capacity Building, Technology, Mathematics, Self Evaluation (Groups), Governance, Leadership, Meetings, Professional Development, Professional Recognition

Abstract

Science, technology, engineering, and mathematics (STEM) professional societies (ProS) are uniquely positioned to foster national-level diversity, equity, and inclusion (DEI) reform. ProS serve broad memberships, define disciplinary norms and culture, and inform accrediting bodies, thus providing "excellent leverage with which to design and promote change" (National Academy of Sciences et al., 2005). ProS could be instrumental in achieving the DEI culture reform necessary to optimize engagement of all STEM talent by leveraging disciplinary excellence resulting from diverse teams. Inclusive STEM culture reform requires that underlying "mental models'' be examined (Kania et al., 2018). The "Inclusive Professional Framework for Societies (IPF:Societies)" can help ProS change leaders (i.e., "boundary spanners'") and organizations identify and address mental models hindering DEI reform. "IPF:Societies" uses four "I's"--Identity awareness and Intercultural mindfulness (i.e., equity mindset) on which Inclusive relationships and Influential DEI actions are scaffolded. We discuss how "IPF:Societies" complements existing DEI tools. We explain how "IPF:Societies" can be applied to existing ProS policy and practice associated with common ProS functions (e.g., leadership, membership, conferences, awards, and professional development). Next steps are to pilot "IPF:Societies" with a cohort of STEM ProS. Ultimately, "IPF:Societies" has potential to promote more efficient, effective, and lasting DEI organizational transformation, and contribute to inclusive STEM disciplinary excellence.

Published

2021

8. Reassessing Riemann's Paper : On the Number of Primes Less Than a Given Magnitude

Author

Walter Dittrich and Walter Dittrich

Subjects

Mathematics, History, Number theory, Elementary particles (Physics), Quantum field theory

Abstract

In this book, the author pays tribute to Bernhard Riemann (1826-1866), a mathematician with revolutionary ideas, whose work on the theory of integration, the Fourier transform, the hypergeometric differential equation, etc. contributed immensely to mathematical physics. The text concentrates in particular on Riemann's only work on prime numbers, including ideas – new at the time – such as analytical continuation into the complex plane and the product formula for entire functions. A detailed analysis of the zeros of the Riemann zeta-function is presented. The impact of Riemann's ideas on regularizing infinite values in field theory is also emphasized. This revised and enhanced new edition contains three new chapters, two on the application of Riemann's zeta-function regularization to obtain the partition function of a Bose (Fermi) oscillator and one on the zeta-function regularization in quantum electrodynamics. Appendix A2 has been re-written to make the calculations more transparent. A summary of Euler-Riemann formulae completes the book.

Published

2021

9. Modelling and Simulation of Intelligent English Paper Generating Based on SSA-GA

Author

Limin Han, Hong Gao, and Rongjie Zhai

Subjects

Engineering (General). Civil engineering (General), TA1-2040, Mathematics, QA1-939

Abstract

To enhance the quality and efficiency of computer-enabled generation of papers for Test for English Majors Band 8 (TEM-8), a paper generation model supported by sparrow search algorithm-genetic algorithm was studied. First, a simplified test paper generation mathematical model was set up after analyzing and studying types and characteristics of TEM-8 tasks. In the model, quantity, type, difficulty, discrimination degree, scores, exposure, and answering time of test questions were taken into consideration. To enhance the optimizing effect of the genetic algorithm for searching test questions, the traditional genetic algorithm was improved by introducing the sparrow search algorithm into the model to achieve a better crossover rate, variance rate, optimization precision, and speed of the genetic algorithm. A new sparrow search-genetic algorithm (SSA-GA) was designed, and the optimizing effect of SSA-GA was verified to be ideal through optimizing six standard test functions. Then, SSA-GA was applied to conduct experimentation with test paper generation, and comparison with traditional genetic algorithms was also made. The values of best and average fitness of SSA-GA were better than those of the traditional genetic algorithm (GA) in the paper generation. Exposure rate and success rate in TEM-8 paper generation of SSA-GA were higher than those of traditional GA in TEM-8 paper generation. Results showed that the studied SSA-GA could implement test paper generation with higher speed and better quality.

Published

2023

10. Comments on the paper 'Best proximity point results with their consequences and applications'

Author

Sumit Som and Moosa Gabeleh

Subjects

Fixed point, Best proximity point, F-contraction, P-property, Altering distance function, Mathematics, QA1-939

Abstract

Abstract Very recently Jain et al. (J. Inequal. Appl. 2022:73, 2022) introduced the concept of multivalued F-contraction with altering distance function and investigated the existence of best proximity points for this class of mappings. In this article we prove that the existence of best proximity points for multivalued F-contraction non-self mappings can be obtained from the corresponding fixed point result for multivalued F-contraction self mappings, and so the main conclusion due to Jain et al. is not a real generalization of fixed point theory.

Published

2022

11. A scheme for the integration of $ \, {}^{C} \mathit{\boldsymbol{{D}}}^{(1/n)} $-type fractional differential equations (FDEs) is presented in this paper. The approach is based on the expansion of solutions to FDEs via fractional power series. It is proven that $ \, {}^{C} \mathit{\boldsymbol{{D}}}^{(1/n)} $-type FDEs can be transformed into equivalent $ \left(\, {}^{C} \mathit{\boldsymbol{{D}}}^{(1/n)}\right)^n $-type FDEs via operator calculus techniques. The efficacy of the scheme is demonstrated by integrating the fractional Riccati differential equation.

Author

R. Marcinkevicius, I. Telksniene, T. Telksnys, Z. Navickas, and M. Ragulskis

Subjects

fractional differential equation, operator calculus, fractional power series expansion, Mathematics, QA1-939

Abstract

A scheme for the integration of $ \, {}^{C} \mathit{\boldsymbol{{D}}}^{(1/n)} $-type fractional differential equations (FDEs) is presented in this paper. The approach is based on the expansion of solutions to FDEs via fractional power series. It is proven that $ \, {}^{C} \mathit{\boldsymbol{{D}}}^{(1/n)} $-type FDEs can be transformed into equivalent $ \left(\, {}^{C} \mathit{\boldsymbol{{D}}}^{(1/n)}\right)^n $-type FDEs via operator calculus techniques. The efficacy of the scheme is demonstrated by integrating the fractional Riccati differential equation.

Published

2022

12. Should Colleges Invest in Machine Learning? Comparing the Predictive Powers of Early Momentum Metrics and Machine Learning for Community College Credential Completion. CCRC Working Paper No. 118

Author

Yanagiura, Takeshi

Subjects

Community Colleges, Man Machine Systems, Artificial Intelligence, Prediction, Credentials, Academic Achievement, Regression (Statistics), Accuracy, Predictive Measurement, Mathematics, Models, Classification, Robustness (Statistics)

Abstract

Among community college leaders and others interested in reforms to improve student success, there is growing interest in adopting machine learning (ML) techniques to predict credential completion. However, ML algorithms are often complex and are not readily accessible to practitioners for whom a simpler set of near-term measures may serve as sufficient predictors. This study compares the out-of-sample predictive power of early momentum metrics (EMMs)--13 near-term success measures suggested by the literature--with that of metrics from ML-based models that employ approximately 500 predictors for community college credential completion. Using transcript data from approximately 50,000 students at more than 30 community colleges in two states, I find that the EMMs that were modeled by logistic regression accurately predict completion for approximately 80% of students. This classification performance is comparable to that of the ML-based models. The EMMs even outperform the ML-based models in probability estimation. These findings suggest that EMMs are useful predictors for credential completion and that the marginal gain from using an ML-based model over EMMs is small for credential completion prediction when additional predictors do not have strong rationales to be included in an ML-based model, no matter how large the number of those predictors may be.

Published

2020

13. DIGITAL TOOLS AND PAPER-AND-PENCIL IN SOLVING-AND-EXPRESSING: HOW TECHNOLOGY EXPANDS A STUDENT’S CONCEPTUAL MODEL OF A COVARIATION PROBLEM

Author

Hélia Jacinto and Susana Carreira

Subjects

mathematical problem-solving, conceptual model, covariation, paper-and-pencil, digital technology, techno-mathematical fluency, Mathematics, QA1-939

Abstract

This study aims at understanding the role of the tools chosen throughout the processes of solving a non-routine mathematical problem and communicating its solution. In assuming that problem-solving is a synchronous activity of mathematization and expression of mathematical thinking we take our proposed Mathematical Problem Solving with Technology (MPST) model to analyze the processes of solving-and-expressing-problems. Resorting to qualitative methods for data collection and analysis, we report on the case of an 8th grader working on a covariation problem to examine the role that paper-and-pencil and digital tools play in the development of a conceptual model of the situation. We found that the resources used throughout the solving-and-expressing activity influenced the depth of the conceptual model developed, within a process of progressive mathematization. Whereas paper-and-pencil led to the emergence of a conceptual model based on exploring particular cases, the digital transformation of the solution was triggered by the process of communicating its mathematical justification and expanded the previous model. Moreover, the complexity of this activity is evidenced by its multiple sequences of processes. Finally, the integration process seems crucial as the concomitant use of technological and mathematical resources precedes major advancements in the expansion of the conceptual model.

Published

2021

14. Paper Plate Fractions: The Counting Connection

Published

2016

15. A Framework for Tag-Based Research Paper Recommender System: An IR Approach

Author

Jomsri, P., Sanguansintukul, S., and Choochaiwattana, W.

Published

2010

16. Stability of School Contributions to Student Social-Emotional Learning Gains. Working Paper

Author

Fricke, Hans, Loeb, Susanna, Meyer, Robert, Rice, Andrew, and Pier, Libby

Subjects

Social Development, Emotional Development, Value Added Models, Measurement Techniques, Instructional Program Divisions, Correlation, Mathematics, Language Arts, Academic Achievement, School Effectiveness, Urban Schools, Self Efficacy, Self Management, Student Characteristics, Racial Differences, Ethnicity, Socioeconomic Status, Students with Disabilities, English Language Learners, Foster Care, Homeless People, California

Abstract

School value-added models are increasingly used to measure schools' contributions to student success. At the same time, policymakers and researchers agree that schools should support students' socialemotional learning (SEL) as well as academic development. Yet, the evidence regarding whether schools can influence SEL and whether statistical growth models can appropriately measure this influence is limited. Recent work shows meaningful differences across schools in changes in SEL scores by grade (Loeb, Christian, Hough, Meyer, Rice, & West, 2019), but whether these differences represent the effects of schools is still unclear. The current paper builds upon this earlier work by examining the stability of the estimated school-by-grade effects on SEL across two years, using a large-scale SEL survey administered in California's CORE districts. We find that correlations among school effects in the same grades across different years are positive, but they are lower than those for math and English Language Arts (ELA). Schools in the top or the bottom of the school effect distribution are more persistent in their impacts across years than those in the middle of the distribution. Overall, the results provide evidence that these school effects measure real contributions to SEL. However, the low stability of effects from one year to the next draw into question whether including these school value-added measures of self-reported SEL in school performance frameworks and systems would be beneficial.

Published

2019

17. Comparing student performance on paper- and computer-based math curriculum-based measures.

Author

Hensley K, Rankin A, and Hosp J

Subjects

Child, Humans, Students statistics & numerical data, Computer-Assisted Instruction methods, Computer-Assisted Instruction statistics & numerical data, Curriculum, Educational Measurement methods, Mathematics education

Abstract

As the number of computerized curriculum-based measurement (CBM) tools increases, it is necessary to examine whether or not student performance can generalize across a variety of test administration modes (i.e., paper or computer). The purpose of this study is to compare math fact fluency on paper versus computer for 197 upper elementary students. Students completed identical sets of probes on paper and on the computer, which were then scored for digits correct, problems correct, and accuracy. Results showed a significant difference in performance between the two sets of probes, with higher fluency rates on the paper probes. Because decisions about levels of student support and interventions often rely on measures such as these, more research in this area is needed to examine the potential differences in student performance between paper-based and computer-based CBMs.

Published

2017

18. Symbolic magnitude processing in elementary school children: A group administered paper-and-pencil measure (SYMP Test).

Author

Brankaer C, Ghesquière P, and De Smedt B

Subjects

Achievement, Child, Cognition, Female, Humans, Male, Reproducibility of Results, Schools, Academic Success, Dyscalculia psychology, Mathematics

Abstract

The ability to compare symbolic numerical magnitudes correlates with children's concurrent and future mathematics achievement. We developed and evaluated a quick timed paper-and-pencil measure that can easily be used, for example in large-scale research, in which children have to cross out the numerically larger of two Arabic one- and two-digit numbers (SYMP Test). We investigated performance on this test in 1,588 primary school children (Grades 1-6) and examined in each grade its associations with mathematics achievement. The SYMP Test had satisfactory test-retest reliability. The SYMP Test showed significant and stable correlations with mathematics achievement for both one-digit and two-digit comparison, across all grades. This replicates the previously observed association between symbolic numerical magnitude processing and mathematics achievement, but extends it by showing that the association is observed in all grades in primary education and occurs for single- as well as multi-digit processing. Children with mathematical learning difficulties performed significantly lower on one-digit comparison and two-digit comparison in all grades. This all suggests satisfactory construct and criterion-related validity of the SYMP Test, which can be used in research, when performing large-scale (intervention) studies, and by practitioners, as screening measure to identify children at risk for mathematical difficulties or dyscalculia.

Published

2017

19. A Review Paper: The Implementation of Learner Model Approaches in the Adaptive E-Learning Systems

Author

Hiba A. ABU-ALSAAD

Subjects

learner model, knowledge base, dynamic adaptive level supposition based model, adaptive e-learning system, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95

Abstract

Recently, the systems of e-learning are improved technologically and the led to the emergence of e-learning systems that reached the level of adaptation to students. Through which, it changed the entire education system during the Internet era. Nonetheless, the use of rule-based, assumption-based, and network-based method have some vital methodologies used to implement learner models across adaptive learning systems. The so common way to structure the learner models approaches rely on the personalization and user modelling. However, personalization and user modeling found out to be the best approaches-not only in developing students' talents but also in allowing students to take their own learning direction and making sure that they are using their potential to the fullest. The mismatching in viewpoints and perceptions between teachers and technicians along with a lack of appropriate technical knowledge have been identified as some of the major challenges affecting the learner model development. the main objective of this article is to show the use of different approaches through the recent scholars’ in implementing learner models within adaptive e-learning systems. Moreover, approaches and challenges in implementing learner models are also described

Published

2022

20. Feature Paper Collection of Mathematical and Computational Applications—2022

Author

Gianluigi Rozza, Oliver Schütze, and Nicholas Fantuzzi

Subjects

n/a, Applied mathematics. Quantitative methods, T57-57.97, Mathematics, QA1-939, Electronic computers. Computer science, QA75.5-76.95

Abstract

This Special Issue comprises the first collection of papers submitted by the Editorial Board Members (EBMs) of the journal Mathematical and Computational Applications (MCA), as well as outstanding scholars working in the core research fields of MCA [...]

Published

2023