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Permanent URI for this collectionhttps://hdl.handle.net/11285/345284
Artículo científico o editorial en una publicación periódica académica sujeto a revisión de pares. Cumple con los índices internacionales o bases de datos de amplia cobertura, como el listado del Current Contents, ISI WEB of Knowledge (http://isiknowledge.com/) e índice de revistas mexicanas de CONACYT (www.conacyt.mx/dac/revistas). Éstos indizan y resumen los artículos de revistas seleccionadas, en todas las áreas del saber.
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- Use of drone photogrammetry as an innovative, competency-based architecture teaching process(MDPI, 2023-03-09) Rábago, Jordi; Portuguez Castro, May Iliana; Tecnologico de Monterrey; https://ror.org/03ayjn504The use of drones is becoming increasingly popular in various fields. In the case of education, initiatives have emerged in which they are included as tools to develop student’s knowledge, and their use is becoming more frequent. This research aims to present a case study in which students used drones in an architecture course at a higher education institution in Mexico. It sought to develop transversal competencies in students, such as digital transformation and cutting-edge technologies by studying spaces using photogrammetry with drones. The results showed that students increased their motivation and were able to perform a more detailed analysis of the architectural space in which they conducted the study. Additionally, they were able to capture and analyze information from architectural study processes more quickly. Aerial photogrammetry is a geospatial data collection method that offers several advantages over other methods. These advantages include higher resolution, wide coverage, flexibility, lower costs, and increased safety. Aerial photogrammetry can capture high-resolution images of large areas of land in a single flight, making it an efficient and adaptable tool for a variety of applications and environments. Additionally, it can be more economical and safer than other methods, as it avoids ground contact and reduces risks to personnel and equipment. This study is considered attractive, as it presents an example of the implementation of emerging technologies in architectural education.
- Challenge Based Learning: Innovative Pedagogy for Sustainability through e-Learning in Higher Education(MDPI, 2020-05-15) Portuguez Castro, May; Gómez Zermeño, Marcela Georgina; http://orcid.org/0000-0001-7531-6956; Tecnológico de Monterrey; Vázquez-Cano, Esteban; López Meneses, EloyChallenge-Based Learning (CBL) is an innovative teaching methodology that engages students to resolve real-world challenges while applying the knowledge they acquired during their professional training. This article describes the results of the implementation of an online course on entrepreneurship that utilized CBL with a group of 20 undergraduate students from various disciplines in a university in Mexico. During the course, challenges related to the Sustainable Development Goals of the United Nations were presented to the participants, making it possible to observe the students’ interest in resolving these problems. This research uses a case study methodology and seeks to determine the CBL elements in the e-learning modality. The results showed that the participants generated sustainable business ideas aimed to resolve local, national, and global problems. The recommendations are to continue the formation of the businesses proposed in the project. These ideas can become real ventures that connect various actors in the entrepreneurial ecosystem and will continue to strengthen transversal skills such as teamwork and communication.
- Student engagement outside the classroom:analysis of a challenge-based learning strategy in biotechnology engineering(IEEE, 2019-04-09) Membrillo Hernández, Jorge; Muñoz Soto, Rodrigo Balam; Rodríguez Sánchez, Álvaro C.; Díaz Quiñonez, José Alberto; Vázquez Villegas, Olga Patricia; Castillo Reyna, Josefina; Ramírez Medrano, Alicia; Escuela de Ingeniería y Ciencias, Tecnológico de Monterrey; https://ror.org/03ayjn504Currently, there is great concern about the increasing percentage of school dropouts at all school levels, therefore student engagement has been at the center of the discussion of the use, design and implementation of innovative teaching techniques that promote student interest, awaken passion for the discipline of each program and through educational activities decrease the percentage of desertion in undergraduate studies. The Tec21 model, implemented at the Tecnologico de Monterrey, aims to reduce school dropout through the acquisition of new knowledge through the resolution of real-life challenges. Here we report on a learning experience based on the Tec21 model for students of the Biotechnology Engineering program who were taken out of the school to the Epidemiological Diagnosis and Reference Institute and exposed to solve challenges related to the analysis of nucleotide sequences of genomes of current infectious germs. Study modules to support the solution of the challenges were designed to boost transversal competences such ethics, collaborative work, resilience and critical thinking. Analyses of achievement indicators, such as learning gain, and a student engagement survey showed that this active learning experience was 20 to 40% more efficient than that of students who remained in traditional classroom education. Interestingly, the academic challenge, the active learning, the staff-student interaction, the enriching educational experience, the supportive learning environment and work interacting learning, were also considerably higher. Our results support the idea that student achievement is directly linked to engagement and demonstrated that having a Challenge Based Learning experience helps to increase student´s commitment.