Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform

Vitta Charris Mateus; Alvaro Every  Pulido Aponte; Claudia Lorena Garzon Castro

doi:10.1109/CONCAPAN66820.2025.11512627

Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform

Título traducido de la contribución: Software para apoyar el desarrollo del pensamiento métrico y espacial implementado en una plataforma robótica

Vitta Charris Mateus (Estudiante de pregrado)
, Alvaro Every Pulido Aponte (Segundo Autor)
, Claudia Lorena Garzon Castro (Autor Corresponsal)

Producción científica: Capítulo del libro/informe/acta de congreso/productos no especializados › Proceedings › revisión exhaustiva

Resumen

Metric and spatial thinking are inherent abilities for understanding magnitudes, measurements, and mental habits that lead to problem solving. These abilities must be strengthened at an early age. Poor development of these skills could have negative effects on other cognitive processes associated with quantitative reasoning, logic, and communication. In Colombia, specifically in the Cundinamarca and Boyacá regions, it has been shown that around 60 % of preschool-aged children have difficulties understanding these concepts. Therefore, the implementation of strategies involving educational software could
contribute to minimizing this issue. This paper presents the design and implementation of custom software for a differential robotic platform aimed at reinforcing the development of metric and spatial thinking in preschool children. The tool integrates voice processing and Quick Response (QR) code reading so that users can guide the robot using verbal commands articulated through a
dynamic HMI interface. Python 3.13 was used under the objectoriented
programming paradigm and a Model View Controller architecture to ensure modularity and scalability. The evaluation consisted of three experiments with four-year-old girls in a noisy environment, where the success rate in recognizing the commands “forward,” “backward,” “left,” and “right” was measured. The
results showed success rates of 82.2 %, 84.4 %, 78.9 %, and 80.0 %, respectively, with an average of 18.6 % of commands not recognized and a sustained improvement throughout the repetitions attributable to the users' familiarization. These findings demonstrate the effectiveness and potential of the tool as a playful virtual learning object for strengthening metric and spatial skills in preschoolers.

Título traducido de la contribución	Software para apoyar el desarrollo del pensamiento métrico y espacial implementado en una plataforma robótica
Idioma original	Inglés
Título de la publicación alojada	Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform
Editorial	Institute of Electrical and Electronics Engineers Inc.
Páginas	1-5
Número de páginas	5
ISBN (versión digital)	979-8-3315-0348-2
DOI	https://doi.org/10.1109/CONCAPAN66820.2025.11512627
Estado	Publicada - 13 may. 2026
Evento	The Forty-Third IEEE Convention of Central America and Panama (CONCAPAN 2025): CONCAPAN 2025 - Hotel Hilton, San Salvador, El Salvador Duración: 26 nov. 2025 → 28 nov. 2025 https://concapan2025.ieee.org.sv/

Conferencia

Conferencia	The Forty-Third IEEE Convention of Central America and Panama (CONCAPAN 2025)
Título abreviado	CONCAPAN 2025
País/Territorio	El Salvador
Ciudad	San Salvador
Período	26/11/25 → 28/11/25
Dirección de internet	https://concapan2025.ieee.org.sv/

Focos Estratégicos

Sociedad Digital y Competitividad (SocietalIA)

Clasificación de Articulo

Artículos Cortos

Acceder al documento

10.1109/CONCAPAN66820.2025.11512627

Robotic platform to support the development of metric and spatial thinking: MES-BOT
Garzon Castro, C. L. (Investigador principal), Pulido Aponte, A. E. (Investigador), Charris Mateus, V. (Estudiante pregrado), Lemus Rey, J. D. (Estudiante pregrado), Alba Vasquez, J. A. (Investigador) & Díaz Bernal , S. (Estudiante Maestría)
19/05/26 → 18/01/27
Proyecto: Convocatoria última milla

Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform
Garzon Castro, C. L. (Ponente)
28 nov. 2025
Actividad: Conferencia o presentación › Ponencia

Archivo

Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform,
Charris Mateus, V. (Estudiante de Pregrado), Pulido Aponte, A. E. (Segundo Autor) & Garzon Castro, C. L. (Autor), 28 nov. 2025
Premio: Premios, Distinciones, Reconocimiento Derivados de actividades académicas o Científicas

Archivo

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Charris Mateus, V., Pulido Aponte, A. E., & Garzon Castro, C. L. (2026). Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform. En Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform (pp. 1-5). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CONCAPAN66820.2025.11512627

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title = "Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform",

abstract = "Metric and spatial thinking are inherent abilities for understanding magnitudes, measurements, and mental habits that lead to problem solving. These abilities must be strengthened at an early age. Poor development of these skills could have negative effects on other cognitive processes associated with quantitative reasoning, logic, and communication. In Colombia, specifically in the Cundinamarca and Boyac{\'a} regions, it has been shown that around 60 \% of preschool-aged children have difficulties understanding these concepts. Therefore, the implementation of strategies involving educational software could contribute to minimizing this issue. This paper presents the design and implementation of custom software for a differential robotic platform aimed at reinforcing the development of metric and spatial thinking in preschool children. The tool integrates voice processing and Quick Response (QR) code reading so that users can guide the robot using verbal commands articulated through a dynamic HMI interface. Python 3.13 was used under the objectoriented programming paradigm and a Model View Controller architecture to ensure modularity and scalability. The evaluation consisted of three experiments with four-year-old girls in a noisy environment, where the success rate in recognizing the commands “forward,” “backward,” “left,” and “right” was measured. The results showed success rates of 82.2 \%, 84.4 \%, 78.9 \%, and 80.0 \%, respectively, with an average of 18.6 \% of commands not recognized and a sustained improvement throughout the repetitions attributable to the users' familiarization. These findings demonstrate the effectiveness and potential of the tool as a playful virtual learning object for strengthening metric and spatial skills in preschoolers.",

author = "\{Charris Mateus\}, Vitta and \{Pulido Aponte\}, \{Alvaro Every\} and \{Garzon Castro\}, \{Claudia Lorena\}",

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booktitle = "Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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note = "The Forty-Third IEEE Convention of Central America and Panama (CONCAPAN 2025) ; Conference date: 26-11-2025 Through 28-11-2025",

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Charris Mateus, V , Pulido Aponte, AE & Garzon Castro, CL 2026, Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform. En Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform. Institute of Electrical and Electronics Engineers Inc., pp. 1-5, The Forty-Third IEEE Convention of Central America and Panama (CONCAPAN 2025), San Salvador, El Salvador, 26/11/25. https://doi.org/10.1109/CONCAPAN66820.2025.11512627

Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform. / Charris Mateus, Vitta (Estudiante de pregrado); Pulido Aponte, Alvaro Every (Segundo Autor); Garzon Castro, Claudia Lorena (Autor Corresponsal).
Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform. Institute of Electrical and Electronics Engineers Inc., 2026. p. 1-5.

Producción científica: Capítulo del libro/informe/acta de congreso/productos no especializados › Proceedings › revisión exhaustiva

TY - GEN

T1 - Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform

AU - Pulido Aponte, Alvaro Every

AU - Garzon Castro, Claudia Lorena

A2 - Charris Mateus, Vitta

PY - 2026/5/13

Y1 - 2026/5/13

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AB - Metric and spatial thinking are inherent abilities for understanding magnitudes, measurements, and mental habits that lead to problem solving. These abilities must be strengthened at an early age. Poor development of these skills could have negative effects on other cognitive processes associated with quantitative reasoning, logic, and communication. In Colombia, specifically in the Cundinamarca and Boyacá regions, it has been shown that around 60 % of preschool-aged children have difficulties understanding these concepts. Therefore, the implementation of strategies involving educational software could contribute to minimizing this issue. This paper presents the design and implementation of custom software for a differential robotic platform aimed at reinforcing the development of metric and spatial thinking in preschool children. The tool integrates voice processing and Quick Response (QR) code reading so that users can guide the robot using verbal commands articulated through a dynamic HMI interface. Python 3.13 was used under the objectoriented programming paradigm and a Model View Controller architecture to ensure modularity and scalability. The evaluation consisted of three experiments with four-year-old girls in a noisy environment, where the success rate in recognizing the commands “forward,” “backward,” “left,” and “right” was measured. The results showed success rates of 82.2 %, 84.4 %, 78.9 %, and 80.0 %, respectively, with an average of 18.6 % of commands not recognized and a sustained improvement throughout the repetitions attributable to the users' familiarization. These findings demonstrate the effectiveness and potential of the tool as a playful virtual learning object for strengthening metric and spatial skills in preschoolers.

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PB - Institute of Electrical and Electronics Engineers Inc.

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Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform

Resumen

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Proyectos

Robotic platform to support the development of metric and spatial thinking: MES-BOT

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Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform

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Software to Support the Development of Metric and Spatial Thinking Implemented on a Robotic Platform,

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