Linda Mannila scite author profile

Three decades of active research on the teaching of introductory programming has had limited effect on classroom practice. Although relevant research exists across several disciplines including education and cognitive science, disciplinary differences have made this material inaccessible to many computing educators. Furthermore, computer science instructors have not had access to a comprehensive survey of research in this area. This paper collects and classifies this literature, identifies important work and mediates it to computing educators and professional bodies.We identify research that gives well-supported advice to computing academics teaching introductory programming. Limitations and areas of incomplete coverage of existing research efforts are also identified. The analysis applies publication and research quality metrics developed by a previous ITiCSE working group [74].

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Computational Thinking in K-9 Education

Mannila

et al. 2014

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In this report we consider the current status of the coverage of computer science in education at the lowest levels of education in multiple countries. Our focus is on computational thinking (CT), a term meant to encompass a set of concepts and thought processes that aid in formulating problems and their solutions in different fields in a way that could involve computers \cite{Wing-2011}. \ud The main goal of this report is to help teachers, those involved in teacher education, and decision makers to make informed decisions about how and when CT can be included in their local institutions. We begin by defining CT and then discuss the current state of CT in K-9 education in multiple countries in Europe as well as the United States. Since many students are exposed to CT outside of school, we also discuss the current state of informal educational initiatives in the same set of countries. \ud An important contribution of the report is a survey distributed to K-9 teachers, aiming at revealing to what extent different aspects of CT are already part of teachers' classroom practice and how this is done. The survey data suggest that some teachers are already involved in activities that have strong potential for introducing some aspects of CT. In addition to the examples given by teachers participating in the survey, we present some additional sample activities and lesson plans for working with aspects of CT in different subjects. We also discuss ways in which teacher training can be coordinated as well as the issue of repositories. We conclude with future directions for research in CT at school

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A review of models for introducing computational thinking, computer science and computing in K-12 education

2016

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Development of computational thinking, digital competence and 21^stcentury skills when learning programming in K-9

et al. 2019

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Teachers around the world have started teaching programming at the K-9 level, some due to the formal introduction of programming in the national curriculum, others without such pressure and on their own initiative. In this study, we attempted to understand which skillsboth CT-related and generalare developed among pupils in the process of working with programming in schools. To do so, we interviewed 19 Swedish teachers who had been teaching programming for a couple of years on their own initiative. The teachers were selected based on their experience in teaching programming. Our thematic analysis of these interviews shed light on what skills teachers perceive pupils develop when programming. This led us to identify three themes related to CT skills and five themes related to general skills. The CT skills identified corresponded well with and were thus thematically structured according to the dimensions of CT proposed in the framework of Brennan and Resnick, namely computational concepts, computational practices and computational perspectives. In addition to the CT skills, our thematic analysis also resulted in the identification of general skills related to digital competency and 21st century skills, namely cognitive skills and attitudes, language skills, collaborative skills and attitudes and creative problem-solving skills and attitudes.

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A survey of literature on the teaching of introductory programming

Pears¹,

Seidman

Malmi³

et al. 2007

SIGCSE Bull.

329

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Linda Mannila

A survey of literature on the teaching of introductory programming

Computational Thinking in K-9 Education

A review of models for introducing computational thinking, computer science and computing in K-12 education

Development of computational thinking, digital competence and 21^stcentury skills when learning programming in K-9

A survey of literature on the teaching of introductory programming

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About

Linda Mannila

A survey of literature on the teaching of introductory programming

Computational Thinking in K-9 Education

A review of models for introducing computational thinking, computer science and computing in K-12 education

Development of computational thinking, digital competence and 21stcentury skills when learning programming in K-9

A survey of literature on the teaching of introductory programming

Contact Info

Product

Resources

About

Development of computational thinking, digital competence and 21^stcentury skills when learning programming in K-9