A Project-Based Learning Approach to Teach Identification and Control Systems

Rodas, Carlos Felipe Rengifo; Bravo, Diego

doi:10.1109/rita.2020.2979171

Cited by 8 publications

(7 citation statements)

References 2 publications

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“…Una vez obtenidas estas constantes, el algoritmo de control PID se implementó en un controlador digital haciendo uso de la tarjeta Arduino, esta tarjeta tiene entradas y salidas analógicas y digitales y es de fácil y libre programación, lo que la hace ideal para proyectos de instrumentación y control, [10]. El resultado de la implementación del controlador, Ec.…”

Section: Simulación Y Sintonización Del Pdunclassified

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Modelado y control de un sistema de levitación magnética

2021

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En este artículo se realizó el modelado y control de un sistema de levitación magnética ( MAGLEV). Para ello se construyó un prototipo con materiales de bajo costo con el objetivo de realizar prácticas experimentales para la enseñaanza de sistemas de control en el programa de Ingeniería Física. Los resultados muestran que es posible utilizar el sistema para controlar la posición de una bola mediante una estrategia de control lineal.

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Section: Simulación Y Sintonización Del Pdunclassified

“…Este sistema es no lineal e inestable [9]. Tales particularidades han incrementado el interés de muchos investigadores en proporcionar herramientas de enseñanza e investigación que permitan afianzar los conocimientos relacionados con las diferentes estrategias de control [10].…”

Section: Introduccciónunclassified

Modelado y control de un sistema de levitación magnética

2021

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“…Its success is above all due to the fact that, at a low cost, it offers students the possibility of applying and reinforcing the acquisition of learning, of concepts, promoting a creative spirit, the development of learning autonomy and collaborative learning [1,[17][18][19][20][21][22][23] Teachers also make a very positive assessment of Arduino as a facilitating element of the teaching-learning processes [25,26]. It is true that Arduino requires the execution of project-based learning [28], collaborative learning [19] or task-based learning [17]. Students need to be able to interact and be able to work with discovery learning in order to face problem solving [4].…”

Section: Figure 5 Thematic Evolution By H-indexmentioning

confidence: 99%

“…On the other hand, these experiences conclude with high degrees of satisfaction for both the students and their teachers [26]. It is noteworthy that the use of Arduino in education promotes the use of robotics in education [27] From a methodological point of view, the educational experiences proposed for the use of Arduino in classrooms opt for the implementation of pedagogical methods such as project-based learning [28], collaborative learning [19] or learning based on tasks [17]. These methods allow interaction between students, answer both explicit and implicit questions, develop inferential thinking, learn problem-solving processes, and reduce students' fear of using microcontroller boards [4].…”

Section: Introductionmentioning

confidence: 99%

Arduino Advances in Web of Science. A Scientific Mapping of Literary Production

et al. 2020

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“…Their study revealed that the most relevant methodology for incorporating the Arduino board into teaching is problem-based learning in the curricula of STEM subjects. Aside from problem-based learning, other pedagogical methods such as collaborative learning (Jawaid et al, 2020), project-based learning (Rengifo and Bravo, 2020), the 5E learning cycle model (Pabuçcu-Akış and Demirer, 2022), or task-centered hands-on STEM learning (Chang and Chen, 2020) have been preferred for the use of Arduino in classrooms throughout all levels by researchers.…”

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confidence: 99%

Using Arduino in Science, Technology, Engineering, and Mathematics (STEM) Education: Bibliometric Analysis

Pabuçcu Akış

2024

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The dramatic increase in science, technology, engineering, and mathematics (STEM) education studies has resulted in more authors promoting the use of Arduino in STEM education. Although there are educational research studies utilizing bibliometric procedures for the exploration of Arduino and STEM separately, there is a further need for research on their relationship. The current study utilizes several software tools (Vosviewer, Biblioshiny) and bibliometric procedures for this research domain. The documents were retrieved from the Scopus database from 2013 to 2022. Performance analysis was used to reveal publications and citation trends with the top contributors. Moreover, bibliographic mapping was used to comprehend the conceptual (co-occurrences), intellectual (bibliographic coupling), and social (collaboration network) structures of the retrieved data. The results revealed that the most prolific authors and institutes were addressed in Turkey. Besides, the most cited authors and institutes were from the USA. However, it seems this situation will change soon to the advantage of Turkey because of its highest annual growth rate and smallest document average age. This research also shows that there is a sign of the risk of monopolization in this area soon. Moreover, little cooperation was found within the dataset implying the importance and necessity of encouraging the mobility of researchers as well as increasing the collaboration between universities at both national and international levels. Overall, the study reveals that Arduino has great potential in using STEM activities in the future.

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A Project-Based Learning Approach to Teach Identification and Control Systems

Cited by 8 publications

References 2 publications

Modelado y control de un sistema de levitación magnética

Modelado y control de un sistema de levitación magnética

Arduino Advances in Web of Science. A Scientific Mapping of Literary Production

Using Arduino in Science, Technology, Engineering, and Mathematics (STEM) Education: Bibliometric Analysis

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