Advancing preuniversity students' computational thinking skills through an educational project based on tangible elements and virtual block‐based programming

Abstract As a critical set of skills in the 21st century, computational thinking has attracted increasing attention in K-12 education. Microcontrollers, combined with LEDs, actuators, and a variety of sensors, provide students countless real-world projects, such as autonomous vehicles, smart homes, and robotics. By solving those projects through programming, students will not only learn computational skills but also benefit from the hands-on activities to get some experience on solving real-world problems. It makes microcontroller projects a perfect tool to develop the computational thinking skills of K-12 students. Our previous work has proposed a solution for higher graders to program Arduino through Ch, a C/C++ interpreter. It is necessary, however, to develop a platform for lower graders (K-6) since most of them do not have the ability to type through the keyboard. This paper extends our previous work such that students can program Arduino on RoboBlockly, a block-based programming platform. In the paper, we will present two case studies to demonstrate how to build blocks to control the Arduino board and what concepts students will learn from those projects. In addition, the proposed platform also provides an interactive way of transitioning students from the block-based program to a text-based program in Ch.

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Simulador de Robótica Educativa para la promoción del Pensamiento Computacional

Revista de Educación a Distancia (RED) ◽

10.6018/red.410191 ◽

2020 ◽

Vol 20 (63) ◽

Author(s):

Cristian Manuel Ángel-Díaz ◽

Eduardo Segredo ◽

Rafael Arnay ◽

Coromoto León

Keyword(s):

Educational Institution ◽

Computational Thinking ◽

Software Tool ◽

Thinking Skills ◽

Visual Programming ◽

Free Software ◽

Different Types ◽

Block Based ◽

Visual Programming Language ◽

Algorithmic Thinking

Este trabajo presenta una herramienta Web libre y gratuita que facilita a cualquier centro educativo la enseñanza de conceptos básicos sobre robótica y programación y que, al mismo tiempo, permite desarrollar habilidades relacionadas con el pensamiento computacional: descomposición, abstracción, reconocimiento de patrones y pensamiento algorítmico. Dicha herramienta permite diseñar y personalizar un robot a través del uso de distintos tipos de sensores. Tras su creación, dicho robot se podrá poner a prueba en un entorno de simulación mediante distintos retos. En dicho entorno podremos definir el comportamiento del robot por medio de un lenguaje de programación visual basado en bloques. Dichos bloques permiten definir las acciones a llevar a cabo por el robot en función de la información recogida por los sensores con el objetivo de superar los desafíos propuestos. This work presents a free software tool that facilitates the teaching of basic robotics and programming concepts at any educational institution. At the same time, it allows the development of computational thinking skills to be carried out: decomposition, abstraction, pattern recognition and algorithmic thinking. This tool allows the design and configuration of a robot through the specification of different types of sensors. After designing the robot, its behaviour can be simulated by means of different challenges proposed to the user. This behaviour is defined through a block-based visual programming language. Blocks allow actions that the robot has to perform based on the information gathered by the different sensors to be defined in order to pass a challenge.

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An Investigation of The Effect of Block-Based Programming and Unplugged Coding Activities on Fifth Graders’ Computational Thinking Skills, Self-Efficacy and Academic Performance

Contemporary Educational Technology ◽

10.30935/cedtech/11477 ◽

2022 ◽

Vol 14 (1) ◽

pp. ep341

Author(s):

Nihan Arslan Namli ◽

Birsel Aybek

Keyword(s):

Academic Performance ◽

Self Efficacy ◽

Fifth Graders ◽

Computational Thinking ◽

Thinking Skills ◽

Block Based

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Progression Of Computational Thinking Skills In Swedish Compulsory Schools With Block-based Programming

Proceedings of the Twenty-Second Australasian Computing Education Conference ◽

10.1145/3373165.3373173 ◽

2020 ◽

Author(s):

LeChen Zhang ◽

Jalal Nouri ◽

Lennart Rolandsson

Keyword(s):

Computational Thinking ◽

Thinking Skills ◽

Block Based ◽

Compulsory Schools

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Computer Science Unplugged: A Systematic Literature Review

Journal of Educational Technology Systems ◽

10.1177/00472395211018801 ◽

2021 ◽

pp. 004723952110188

Author(s):

Ali Battal ◽

Gülgün Afacan Adanır ◽

Yasemin Gülbahar

Keyword(s):

Literature Review ◽

Computer Science ◽

Systematic Literature Review ◽

Computational Thinking ◽

Thinking Skills ◽

Inclusion Criteria ◽

Relevant Research ◽

Tangible Programming ◽

Review Procedure ◽

Research Studies

The computer science (CS) unplugged approach intends to teach CS concepts and computational thinking skills without employing any digital tools. The current study conducted a systematic literature review to analyze research studies that conducted investigations related to implementations of CS unplugged activities. A systematic review procedure was developed and applied to detect and subsequently review relevant research studies published from 2010 to 2019. It was found that 55 research studies (17 articles + 38 conference proceedings) satisfied the inclusion criteria for the analysis. These research studies were then examined with regard to their demographic characteristics, research methodologies, research results, and main findings. It was found that the unplugged approach was realized and utilized differently among researchers. The majority of the studies used the CS unplugged term when referring to “paper–pencil activities,” “problem solving,” “storytelling,” “games,” “tangible programming,” and even “robotics.”

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Exploring the key influencing factors on college students’ computational thinking skills through flipped-classroom instruction

International Journal of Educational Technology in Higher Education ◽

10.1186/s41239-020-00196-0 ◽

2020 ◽

Vol 17 (1) ◽

Cited By ~ 4

Author(s):

Di Gong ◽

Harrison H. Yang ◽

Jin Cai

Keyword(s):

College Students ◽

Influencing Factors ◽

Flipped Classroom ◽

Classroom Instruction ◽

Computational Thinking ◽

Thinking Skills

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The Interplay Between Mathematical and Computational Thinking in Primary School Students’ Mathematical Problem-Solving Within a Programming Environment

Journal of Educational Computing Research ◽

10.1177/0735633120979930 ◽

2021 ◽

pp. 073563312097993

Author(s):

Zhihao Cui ◽

Oi-Lam Ng

Keyword(s):

Problem Solving ◽

Mathematical Thinking ◽

Mathematics Learning ◽

Mathematical Problem ◽

Computational Thinking ◽

Programming Environment ◽

Primary School Students ◽

School Students ◽

Mathematical Concepts ◽

Block Based

In this paper, we explore the challenges experienced by a group of Primary 5 to 6 (age 12–14) students as they engaged in a series of problem-solving tasks through block-based programming. The challenges were analysed according to a taxonomy focusing on the presence of computational thinking (CT) elements in mathematics contexts: preparing problems, programming, create computational abstractions, as well as troubleshooting and debugging. Our results suggested that the challenges experienced by students were compounded by both having to learn the CT-based environment as well as to apply mathematical concepts and problem solving in that environment. Possible explanations for the observed challenges stemming from differences between CT and mathematical thinking are discussed in detail, along with suggestions towards improving the effectiveness of integrating CT into mathematics learning. This study provides evidence-based directions towards enriching mathematics education with computation.

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