Computational Thinking and Educational Robotics Integrated into Project-Based Learning

Pou, Albert Valls; Canaleta, Xavi; Fonseca, David

doi:10.3390/s22103746

Cited by 26 publications

(10 citation statements)

References 64 publications

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“…For this reason, numerous initiatives are being developed to provide classrooms with advanced technologies such as artificial intelligence, robotics, 3D printing, etc. However, all this technological enrichment in educational environments must be approached in a conscious and systematic way, for example, as indicated by the authors of [28], through the TPACK model [29], a model in which technology is curricularly integrated taking into account the content knowledge, technological knowledge and pedagogical knowledge of the teachers involved in the technological innovation to be developed. Therefore, for these authors, it is essential to integrate robotics and programming in the way described, in order to achieve real success in the development of computational-thinking skills.…”

Section: Introductionmentioning

confidence: 99%

Use of Arduino in Primary Education: A Systematic Review

García-Tudela

Marín-Marín

2023

Education Sciences

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In the last two decades, technological advances have been spectacular, and their transcendence has touched all areas of society. Specifically, in the field of education, these advances have allowed projects and approaches such as computational thinking to be taken up more strongly through interdisciplinary visions such as the STEM subjects and technological devices such as Arduino. The main objective of this article is to analyse the uses of Arduino and the achievements it has attained at primary-education level. To this end, a systematic review was carried out in the SCOPUS and Web of Science databases. The methodology used was the PRISMA statement and the SALSA framework. In accordance with the exclusion criteria applied, nine scientific papers from the last seven years were obtained. The qualitative software ATLAS.ti was used to extract the results. These papers reveal that the most commonly used methodology for incorporating the Arduino board into teaching is problem based learning (PBL) in the context of STEM subjects. In addition, programming environments, such as Scratch, and other electronic components have been used, which have enabled the development of computational thinking and the acquisition of technological knowledge, among other achievements.

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Section: Introductionmentioning

confidence: 99%

Use of Arduino in Primary Education: A Systematic Review

García-Tudela

Marín-Marín

2023

Education Sciences

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“…In short: Haar classifier = Haar-like features + integral graph method + Adaboost algorithm + cascade [ 15 ]. The Haar cascade algorithm implements image training in four main stages: determining Haar-like features, obtaining integral images, AdaBoost training, and classification using a cascade classifier [ 16 ]. The cascade classifier model diagram is shown in Figure 10 .…”

Section: Computer-based Identification Systemmentioning

confidence: 99%

Research on Educational Robot System Based on Vision Processing

Zhao

Hou

et al. 2023

Sensors

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Aimed at the poor recognition effect of current educational robots on objects with complex shapes and colors and the single design of related experiments, this paper proposes a robot teaching instrument. The robot adopts a servo motor with an encoder, a drive, and a variety of sensors to realize a motor current loop, speed loop, position loop, and closed-loop control functions. Three experimental schemes were designed: a PID adjustment experiment, a robot obstacle avoidance and object-grasping program writing experiment, and a complex object recognition experiment based on cascade classifiers. The robot is conducive to improving students’ self-initiative ability, deepening their understanding of PID closed-loop control, multi-sensor fusion, and deep learning knowledge. It can improve students’ programming ability, enabling them to effectively combine theory and practice, as well as to comprehensively apply professional knowledge.

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“…It is seen in the literature that learning programming with visual tools has a lot of positive outcomes especially for children [ 14 ]. Visual programming tools play an important role in learning and teaching robotics and it is clear in the literature that robotics can be used to support learning in the field of Science, Technology, Engineering, Arts and Mathematics (STEAM) [ 5 , 29 , 30 ]. STEAM involves the designing and creation products using a combination of science, technology, engineering, arts and mathematics fields [ 5 ].…”

Section: Literature Reviewmentioning

confidence: 99%

Co-Learning Computational and Design Thinking Using Educational Robotics: A Case of Primary School Learners in Namibia

Shipepe

Uwu-Khaeb

Villiers³

et al. 2022

Sensors

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In a two-day educational robotics workshop in a Namibian primary boarding school, learners with no programming skills managed to apply both computational and design thinking skills with the aid of educational robotics. Educational robotics has proved to be an area which enhances learning both computational thinking and design thinking. An educational robotics (ER) workshop focusing on Arduino robotics technologies was conducted with primary school learners at Nakayale Private Academy. Observation methods through watching, listening and video recordings were used to observe and analyze how the learners were interacting throughout the workshop. Based on the results, it was concluded that this approach could be applied in classrooms to enable the primary school learners apply computational and design thinking in preparation of becoming the producers and not only the consumers of the 4IR technologies.

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Computational Thinking and Educational Robotics Integrated into Project-Based Learning

Cited by 26 publications

References 64 publications

Use of Arduino in Primary Education: A Systematic Review

Use of Arduino in Primary Education: A Systematic Review

Research on Educational Robot System Based on Vision Processing

Co-Learning Computational and Design Thinking Using Educational Robotics: A Case of Primary School Learners in Namibia

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