Salinas-Navarro, David Ernesto
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Salinas-Navarro, David Ernesto
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Salinas Navarro, David Ernesto
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Salinas, David
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Salinas Navarro, David
Salinas Navarro, D. E.
Salinas Navarro, Ernesto
Salinas Navarro, E.
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Experiential Learning in Biomedical Engineering Education Using Wearable Devices: A Case Study in a Biomedical Signals and Systems Analysis Course

2022 , Montesinos, Luis , Santos-Diaz, Alejandro , Salinas-Navarro, David Ernesto , Cendejas-Zaragoza, Leopoldo

Biomedical engineering (BME) is one of the fastest-growing engineering fields worldwide. BME professionals are extensively employed in the health technology and healthcare industries. Hence, their education must prepare them to face the challenge of a rapidly evolving technological environment. Biomedical signals and systems analysis is essential to BME undergraduate education. Unfortunately, students often underestimate the importance of their courses as they do not perceive these courses’ practical applications in their future professional practice. In this study, we propose using blended learning spaces to develop new learning experiences in the context of a biomedical signals and systems analysis course to enhance students’ motivation and interest and the relevance of the materials learned. We created a learning experience based on wearable devices and cloud-based collaborative development environments such that the students turned daily-life scenarios into experiential learning spaces. Overall, our results suggest a positive impact on the students’ perceptions of their learning experience concerning relevance, motivation, and interest. Namely, the evidence shows a reduction in the variability of such perceptions. However, further research must confirm this potential impact. This confirmation is required given the monetary and time investment this pedagogical approach would require if it were to be implemented at a larger scale. ©MDPI, The authors.

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Transdisciplinary experiential learning in biomedical engineering education for healthcare systems improvement

2023 , Montesinos, Luis , Salinas-Navarro, David Ernesto , Santos-Diaz, Alejandro

Background: The growing demand for more efficient, timely, and safer health services, together with insufficient resources, put unprecedented pressure on health systems worldwide. This challenge has motivated the application of principles and tools of operations management and lean systems to healthcare processes to maximize value while reducing waste. Consequently, there is an increasing need for professionals with the appropriate clinical experience and skills in systems and process engineering. Given their multidisciplinary education and training, biomedical engineering professionals are likely among the most suitable to assume this role. In this context, biomedical engineering education must prepare students for a transdisciplinary professional role by including concepts, methods, and tools that commonly belong to industrial engineering. This work aims to create relevant learning experiences for biomedical engineering education to expand transdisciplinary knowledge and skills in students to improve and optimize hospital and healthcare care processes. Methods: Healthcare processes were translated into specific learning experiences using the Analysis, Design, Development, Implementation, and Evaluation (ADDIE) model. This model allowed us to systematically identify the context where learning experiences were expected to occur, the new concepts and skills to be developed through these experiences, the stages of the student’s learning journey, the resources required to implement the learning experiences, and the assessment and evaluation methods. The learning journey was structured around Kolb’s experiential learning cycle, which considers four stages: concrete experience, reflective observation, abstract conceptualization, and active experimentation. Data on the student’s learning and experience were collected through formative and summative assessments and a student opinion survey. Results: The proposed learning experiences were implemented in a 16-week elective course on hospital management for last-year biomedical engineering undergraduate students. Students engaged in analyzing and redesigning healthcare operations for improvement and optimization. Namely, students observed a relevant healthcare process, identified a problem, and defined an improvement and deployment plan. These activities were carried out using tools drawn from industrial engineering, which expanded their traditional professional role. The fieldwork occurred in two large hospitals and a university medical service in Mexico. A transdisciplinary teaching team designed and implemented these learning experiences. Conclusions : This teaching-learning experience benefited students and faculty concerning public participation, transdisciplinarity, and situated learning. However, the time devoted to the proposed learning experience represented a challenge. ©The authors, BMC Medical Education.

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A Framework for Educational Innovation in Logistics and Supply Chain Management, a Research Agenda

2022 , Salinas-Navarro, David Ernesto , Da Silva Ovando, Agatha Clarice , Mejia Argueta, Christopher , Chong, Mario

This work presents a conceptual framework for educational innovation within Logistics and Supply Chain Management (LSCM) to develop relevant learning experiences in the discipline. Nowadays, education is shifting from traditional passive approaches in which students listen and see into active settings involving learn-by-doing real-life experiences to develop appropriate competencies. LSCM educational innovation commonly refers to fragmented aspects such as the appropriateness of contents or specific teaching methods; however, the educational model transformation has little attention and the recognition of a high pertinent and engaging learning. Therefore, we presented a comprehensive framework for educational innovation to define a structure of educational components to recreate active learning experiences. Finally, we described the implementation of this framework, the progression within the MIT SCALE Network in Latin America, and insights for future work. ©The authors, IEEE.

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Developing learning skills through game-based learning in complex scenarios: A case in undergraduate logistics education

2024 , Pacheco-Velazquez, Ernesto , Rodés, Virginia , Salinas-Navarro, David Ernesto

This study investigates the impact of game-based learning (GBL), an increasingly popular educational approach, on the development of self-directed learning (SDL) skills in complex scenarios, particularly in undergraduate logistics education. A key component of the three year study is LOST (Logistics Education Simulator), a serious game platform, deployed in an undergraduate engineering course in Mexico. An extensive literature review was carried out using Scopus to examine recent works published between 2019 and 2024, providing a state-of-the-art overview of the field. Subsequently, a survey based on the scale created by Fisher, King, and Tague (2001), known for its extensively evaluated internal consistency, revealed five distinct factors of self-directed learning. The findings underscore that the LOST platform significantly enhances self-directed learning, promoting the development of Self-management Skills, Openness to Learning Opportunities, Initiative and Independence in Learning, Self-concept as an Effective Learner, and Love of Learning. The students demonstrated a significant increase in their perception of these skills over the course of the study, highlighting the effectiveness of GBL in promoting such learning skills. These findings highlight the multidimensional nature of learning skills that can be fostered through GBL. The study concludes by discussing the vital role of GBL in complex scenarios, particularly in enhancing the development of self-directed learning skills in undergraduate logistics education. ©The authors, Journal of Technology and Science Education.

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Digitally Enabled Experiential Learning Spaces for Engineering Education 4.0

2023 , Salinas-Navarro, David Ernesto , Garay-Rondero, Claudia Lizette , Arana-Solares, Iván Andrés

Novel digital technologies have transformed societies, organizations, and individuals in diverse aspects of daily life, elevating their competency requirements in order to successfully develop, integrate, and generate value. To remain relevant Higher education should provide students with digitally enhanced learning experiences to build their necessary competencies. To progress in this direction, this work proposes a method that can be used to develop digitally enabled experiential learning spaces (DeELS) in engineering education so as to incorporate digital technologies into engineering problem-solving and decision-making activities, as an innovative approach to Education 4.0. Two implementation cases exemplify the digital transformation of these learning spaces in the Lean Thinking Learning Space (LTLS) for undergraduate engineering courses. The exemplification shows how students, through designing, creating and integrating digital/smart kanban systems, execute their learning activities in a DeELS. The results suggest that the students were able to satisfactorily achieve their learning outcomes through the learning experiences. Moreover, new instances of learning experiences for digital transformation were identified within the LTLS. However, future work is required regarding new instances of digital transformation learning experiences in order to make any further inferences or generalizations regarding DeELS and their contribution to competency development. ©The authors, MDPI.

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Business Decision-Making and Complex Thinking: A Bibliometric Study

2023 , Pacheco-Velázquez, Ernesto Armando , Vázquez-Parra, José Carlos , Cruz-Sandoval, Marco , Salinas-Navarro, David Ernesto , Carlos-Arroyo, Martina

Complex thinking is an important tool for effective decision-making, as it helps people to better understand uncertain situations by considering the multiple variables and relationships involved in a situation, thus being able to identify patterns and connections that would not otherwise be evident. This article presents the results of a bibliometric study to identify academic publications that consider the correlation between decision-making in the business area and complex thinking competency and its sub-competencies. The intention was to have a theoretical horizon that provides a complete overview of the current academic situation regarding the correlation of both professional skills to identify areas of opportunity for new studies. Methodologically, we conducted a literature review using Scopus and Web of Science databases under the PRISMA (Preferred Reporting Items for Systematic reviews and Meta-Analyses) protocol from which a sample of 339 articles related to both topics was obtained. R, Rstudio, and Bibliometrix were used for the quantitative analysis of the data. The results showed an academic tendency to associate decision-making in business with critical thinking, paying little attention to the other sub-competencies of complex thinking. Furthermore, we found a concentration of research in specific universities and countries, repeating a tendency to study only a few sub-competencies. Overall, this work sheds light on the broad opportunity to link the complex thinking macro-competency with decision-making in business, to provide more extraordinary skills and tools to future professionals. ©IEEE, The authors.

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Workshop: Learning experiences for educational leadership and innovation in engineering education

2023 , Salinas-Navarro, David Ernesto , Da Silva Ovando, Agatha Clarice , Chong, Mario

Higher education requires responding to contemporary challenges and future trends that face humanity by equipping students with new skills that allow for their personal and professional development. Therefore, universities should promote educational leadership and innovation to enrich learning experiences with novel methods and approaches that advance the education they provide. This workshop offers a framework for reflecting upon and identifying those aspects that can help (re) shape learning experiences in these terms. Participants will conduct discussions about their views on current challenges, learning experiences, educational leadership, and innovation, and find alternatives to advance engineering education in delivering high-impact value to students, organizations, and societies in general. ©The authors, IEEE.

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Educational innovation in supply chain management and logistics for active learning in Latin America

2023 , Salinas-Navarro, David Ernesto , Pacheco-Velazquez, Ernesto , Da Silva Ovando, Agatha Clarice , Mejia-Argueta, Christopher , Chong, Mario

Purpose: This study aims to present a conceptual framework aimed at promoting educational innovation in supply chain management and logistics (SCM&L). The framework can help to design active learning experiences regarding student learning outcomes that tackle current challenges in the discipline. Emphasizing the significance of linking students’ learning to real-world scenarios, the framework enables reflective learning through hands-on engagement in a constructive alignment, overcoming existing pedagogical limitations in the field. Design/methodology/approach: This study presents a qualitative research methodology that relies on the case study method. Three instances are presented to illustrate educational efforts of active learning in countries of Latin America, Bolivia, Mexico and Peru, linking real-world relevant situations to disciplinary teaching and learning. Findings: The innovative learning experiences introduced in this study transform real-world SCM&L operations into distinctive educational opportunities. These experiences facilitate learning not only within traditional classrooms but also in urban areas of the Latin American region, enabling students to interact with educational partners in authentic settings to achieve their intended learning outcomes. These experiences are characterized by their focus on establishing meaningful connections between learning and local communities, businesses or specific contexts. Research limitations/implications: The study recognizes various limitations of conceptual, methodological, execution-related and research process aspects. First, not all academics in the SCM&L discipline may universally acknowledge the importance of educational innovation and active learning experiences because of limited pedagogical awareness. Moreover, execution-related limitations arise from the demanding nature of incorporating active pedagogical approaches into courses, as they can be resource-intensive and time-consuming. Regarding research process limitations, the case study limits generalizability and broader inferences because of its particular views and locations, which require further investigation with other instances across other disciplines and geographical regions for validation. Practical implications: The practical implementation of this framework within the MIT SCALE network for Latin America and the Caribbean (LAC) demonstrates its potential in meeting diverse academic and institutional expectations and providing educational benefits to students. Social implications: The study makes a valuable contribution to prioritizing and coordinating pedagogical research by investigating the success of learning outcomes achieved through active and experiential implementations in various contexts. It provides inspiring examples of innovative learning experiences that can drive new developments not only within the LAC region but also in other areas, prompting a shift away from traditional educational approaches. Originality/value: This research presents a conceptual framework, which is developed from the insights obtained in the three learning experiences to guide future efforts in SCM&L education. The findings demonstrate how to structure active learning experiences based on authentic assessment and illustrate the potential for increased cooperation among institutions in Latin America. It also promotes the recognition of novel SCM&L active learning experiences and highlights some of the benefits of this approach.

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(Re-)shaping learning experiences in supply chain management and logistics education under disruptive uncertain situations

2024 , Salinas-Navarro, David Ernesto , Pacheco-Velazquez, Ernesto , Da Silva Ovando, Agatha Clarice

Introduction: Disruptive uncertain events often necessitate universities to abruptly shift from face-to-face to remote online learning, posing challenges to instructional quality and learning outcomes. Remote online instruction may lack social interaction, educational resources, and practical activities, hindering effective learning. Methods: This study presents an experiential learning framework designed to foster active learning experiences amidst disruptive uncertain events. The framework incorporates such events as study situations to enhance student motivation and engagement. A methodology for designing learning experiences is proposed, with a focus on incorporating real-world disruptions into educational settings. Results: A case study is presented, detailing the implementation of the framework in supply chain management and logistics education at a private university in Bolivia, amidst the COVID-19 pandemic. Results indicate that the novel learning experience positively impacted student motivation and engagement, facilitating the achievement of learning outcomes. Discussion: The initial implementation suggests that the novel learning experience positively impacted student motivation and engagement while achieving their intended learning outcomes. However, further instances of utilizing the proposed framework are necessary to ascertain its generalizability and effectiveness across diverse contexts and situations. Identifying similarities or invariances will help validate the applicability of this approach in different educational settings affected by disruptive uncertain events.

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Work in Progress: Transforming laboratory learning experiences for Industrial Engineering education during the COVID-19 pandemic

2022 , Salinas-Navarro, David Ernesto , Garay-Rondero, Claudia Lizette

The COVID-19 pandemic has set instructional barriers to engineering courses because of the limited access to learning resources and infrastructure. However, there is still the need for active alternatives for high-impact learning. This work explores the transformation of laboratory courses for Industrial Engineering education using Experiential Learning under remote learning spaces. The authors explore the current alternative efforts and propose a framework to face disruptive circumstances. These ideas were further implemented in two application cases over the last year. This work contributes to the enrichment of engineering learning experiences by considering novel learning situations and contextual conditions in labwork. ©The authors, IEEE.

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