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Responding to the Initial Challenge of the COVID-19 Pandemic: Analysis of International Responses and Impact in School and Higher Education
(MDPI, 2022-02-07) Stracke, Christian M.; Burgos, Daniel; Santos-Hermosa, Gema; Bozkurt, Aras; Sharma, Ramesh Chander; Swiatek Cassafieres, Cécile; dos Santos, Andreia Inamorato; Mason, Jon; Ossiannilsson, Ebba; Shon, Jin Gon; Wan, Marian; Obiageli Agbu, Jane-Frances; Farrow, Robert; Karakaya, Özlem; Nerantzi, Chrissi; Ramírez-Montoya, María Soledad; Conole, Grainne; Cox, Glenda; Truong, Vi; Instituto Tecnológico y de Estudios Superiores de Monterrey
This paper presents and analyses solutions where open education and open science were utilised to reduce the impact of the COVID-19 pandemic on education. The COVID-19 outbreak and associated lockdowns created huge challenges in school and higher education, demanding sudden responses which aimed to sustain pedagogical quality. Responses have varied from conservative to radically innovative. Universally, the COVID-19 pandemic disrupted and shocked societies worldwide, and education systems were on the front line. The lockdowns largely stopped face-to-face and formal education in almost all countries, and in most cases, distance learning soon became the ‘new normal’. A central challenge concerned sustaining educational visions and ideals in such circumstances. To better understand the state of the art in the educational landscape, we collected case studies from 13 countries during the first year of the pandemic starting on 11 March 2020 (when the World Health Organization declared a pandemic). This paper presents summaries of the full country reports that were collected and describe lessons learned. Our overall aim was to identify good practices and recommendations from the collected case studies that can be taken forward in the future. We categorised the responses on the three generic educational levels (macro, meso and micro) and identified seven key aspects and trends that are valid for all or most countries: (1) formal education at a distance for first time; (2) similar approaches for formal education; (3) missing infrastructure and sharing open educational resources; (4) diverse teaching and learning methods and practices; (5) open education and access to open educational resources; (6) urgent need for professional development and training for teachers and (7) assessing and monitoring learning environments, teachers and students. Finally, we identified key recommendations on how open education and open science can benefit formal education in schools and universities in the future, namely, improved awareness of open educational practices, provision of ICT infrastructure, embracing and sustaining the practice of open access publications and OERs, capacity building for stakeholders and finally encouraging research and development in the area of open education and open science. We found significant evidence for the proposition that open education and open science can support both traditional face-to-face and distance learning.
Technological ecosystems that support people with disabilities: Multiple case studies
(Frontiers Media SA, 2021-02-25) Ramírez Montoya, María Soledad; Antón Ares, Paloma; Monzon Gonzalez, Javier; Instituto Tecnológico y de Estudios Superiores de Monterrey
Advances in technology, research development, and teaching practices have brought improvements in the training, levels of autonomy, and quality of life of people who need support and resources appropriate to their circumstances of disability. This article focuses on empirically analyzing the usefulness of treatments that have been supported by technology to answer the question “How do technological ecosystems being used help people with special educational needs?” The multiple case study methodology was used to address six categories of analysis: project data, objectives, processes, outputs and outcomes, technologies, and impact. The processes, open in communication, were characterized as transversal, ethical, and sustainable. The results yielded various technological ecosystems that support people with disabilities, deliver the help they need to improve their health, and provide enjoyable user experiences. At the same time, they promote the training and improvement of teaching methodologies and involve families in order to improve their knowledge, attitudes, and care of children, young people, and adults with functional diversity.
Using Robotics to Enhance Active Learning in Mathematics: A Multi-Scenario Study
(2020-12-04) Lopez Caudana, Edgar; Ramírez Montoya, María Soledad; Martínez Pérez, Sandra; Rodríguez Abitia, Guillermo; Instituto Tecnológico y de Estudios Superiores de Monterrey
The use of technology, which is linked to active learning strategies, can contribute to better outcomes in Mathematics education. We analyse the conditions that are necessary for achieving an e ective learning of Mathematics, aided by a robotic platform. Within this framework, the question raised was “What are the conditions that promote e ective active math learning with robotic support?” Interventions at di erent educational scenarios were carried in order to explore three educational levels: elementary, secondary, and high school. Qualitative and quantitative analyses were performed, comparing the control and treatment groups for all scenarios through examinations, direct observations, and testimonials. The findings point to three key conditions: level, motivation, and teacher training. The obtained results show a very favourable impact on the attention and motivation of the students, and they allow for establishing the conditions that need to be met for an efective relationship between the teacher and the technological tool, so that better learning outcomes in Mathematics are more likely to be obtained.

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