Factores del emprendimiento verde en la educación secundaria en Lima Metropolitana: el caso de Santiago de Surco
Tesis
Materias > Psicología
Materias > Ciencias Sociales
Materias > Educación
Universidad Internacional Iberoamericana México > Investigación > Tesis Doctorales
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Existe un vacío en la visión de los profesores y estudiantes sobre la intención de emprendimiento verde a nivel escolar. El objetivo de la presente investigación es evaluar los factores que explican desde los colegios secundarios privados en Lima, Perú la intención de emprendimiento verde desde la visión de los estudiantes y docentes. El estudio fue prospectivo, no experimental, transversal y se desarrolló con dos muestras provenientes de colegios secundarios del distrito de Santiago de Surco, en la ciudad de Lima, Perú: La muestra consistió en 1485 estudiantes y 163 profesores. Se obtuvo los datos mediante un cuestionario online en escala Likert de 1 a 5 puntos. El modelo de investigación para cada muestra se evaluó mediante el modelo de ecuaciones estructurales de mínimos cuadrados parciales (PLS-SEM), que es una técnica de análisis multivariante. El apoyo extracurricular y el apoyo del gobierno mostraron un efecto sobre la autoeficacia empresarial. Asimismo, la autoeficacia empresarial influyó en la intención de emprender de forma ecológica (emprendimiento verde). Por último, la autoeficacia fue un mediador entre el apoyo extraescolar, el apoyo del país y la intención emprendedora ecológica. Estos resultados pueden ser utilizados por el Ministerio de Educación y los planificadores de las escuelas secundarias para utilizar las variables que muestran más efecto e incluir estrategias para aumentar la intención emprendedora verde entre los estudiantes de la escuela, como la creación de programas anuales de formación práctica y aceleradores de emprendimiento para desarrollar habilidades entre los estudiantes. También puede ser relevante que los profesores reciban formación específica en emprendimiento verde porque pueden orientar a sus alumnos durante las clases diarias y en las actividades extraescolares. Asimismo, puede esperarse que se desarrollen estrategias para una mejor promoción de la intención para el emprendimiento verde, tales como los aprendizajes basados en proyectos o en problemas.
metadata
Pérez Luyo, Ricardo Gabriel
mail
ricardo.perez@doctorado.unini.edu.mx
(2024)
Factores del emprendimiento verde en la educación secundaria en Lima Metropolitana: el caso de Santiago de Surco.
Doctoral thesis, SIN ESPECIFICAR.
Resumen
Existe un vacío en la visión de los profesores y estudiantes sobre la intención de emprendimiento verde a nivel escolar. El objetivo de la presente investigación es evaluar los factores que explican desde los colegios secundarios privados en Lima, Perú la intención de emprendimiento verde desde la visión de los estudiantes y docentes. El estudio fue prospectivo, no experimental, transversal y se desarrolló con dos muestras provenientes de colegios secundarios del distrito de Santiago de Surco, en la ciudad de Lima, Perú: La muestra consistió en 1485 estudiantes y 163 profesores. Se obtuvo los datos mediante un cuestionario online en escala Likert de 1 a 5 puntos. El modelo de investigación para cada muestra se evaluó mediante el modelo de ecuaciones estructurales de mínimos cuadrados parciales (PLS-SEM), que es una técnica de análisis multivariante. El apoyo extracurricular y el apoyo del gobierno mostraron un efecto sobre la autoeficacia empresarial. Asimismo, la autoeficacia empresarial influyó en la intención de emprender de forma ecológica (emprendimiento verde). Por último, la autoeficacia fue un mediador entre el apoyo extraescolar, el apoyo del país y la intención emprendedora ecológica. Estos resultados pueden ser utilizados por el Ministerio de Educación y los planificadores de las escuelas secundarias para utilizar las variables que muestran más efecto e incluir estrategias para aumentar la intención emprendedora verde entre los estudiantes de la escuela, como la creación de programas anuales de formación práctica y aceleradores de emprendimiento para desarrollar habilidades entre los estudiantes. También puede ser relevante que los profesores reciban formación específica en emprendimiento verde porque pueden orientar a sus alumnos durante las clases diarias y en las actividades extraescolares. Asimismo, puede esperarse que se desarrollen estrategias para una mejor promoción de la intención para el emprendimiento verde, tales como los aprendizajes basados en proyectos o en problemas.
| Tipo de Documento: | Tesis (Doctoral) |
|---|---|
| Palabras Clave: | Intención emprendedora verde, colegios, emprendimiento, autoeficacia empresarial, apoyo curricular |
| Clasificación temática: | Materias > Psicología Materias > Ciencias Sociales Materias > Educación |
| Divisiones: | Universidad Internacional Iberoamericana México > Investigación > Tesis Doctorales |
| Depositado: | 03 Oct 2024 23:30 |
| Ultima Modificación: | 03 Oct 2024 23:30 |
| URI: | https://repositorio.unini.edu.mx/id/eprint/12593 |
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A scalable and secure federated learning authentication scheme for IoT
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Iñaki Elío Pascual mail inaki.elio@uneatlantico.es, Kilian Tutusaus mail kilian.tutusaus@uneatlantico.es, Imanol Eguren García mail imanol.eguren@uneatlantico.es, Álvaro Lasarte García mail , Arturo Ortega-Mansilla mail arturo.ortega@uneatlantico.es, Thomas Prola mail thomas.prola@uneatlantico.es, Sandra Sumalla Cano mail sandra.sumalla@uneatlantico.es,
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Suicide Ideation Detection Using Social Media Data and Ensemble Machine Learning Model
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Human metapneumovirus (hMPV) is one of the potential pandemic pathogens, and it is a concern for elderly subjects and immunocompromised patients. There is no vaccine or specific antiviral available for hMPV. We conducted an in-silico study to predict initial antiviral candidates against human metapneumovirus. Our methodology included protein modeling, stability assessment, molecular docking, molecular simulation, analysis of non-covalent interactions, bioavailability, carcinogenicity, and pharmacokinetic profiling. We pinpointed four plant-derived bio-compounds as antiviral candidates. Among the compounds, apigenin showed the highest binding affinity, with values of − 8.0 kcal/mol for the hMPV-F protein and − 7.6 kcal/mol for the hMPV-N protein. Molecular dynamic simulations and further analyses confirmed that the protein-ligand docked complexes exhibited acceptable stability compared to two standard antiviral drugs. Additionally, these four compounds yielded satisfactory outcomes in bioavailability, drug-likeness, and ADME-Tox (absorption, distribution, metabolism, excretion, and toxicity) and STopTox analyses. This study highlights the potential of apigenin and xanthoangelol E as an initial antiviral candidate, underscoring the necessity for wet-lab evaluation, preclinical and clinical trials against human metapneumovirus infection.
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Introduction: Jackfruit cultivation is highly affected by leaf diseases that reduce yield, fruit quality, and farmer income. Early diagnosis remains challenging due to the limitations of manual inspection and the lack of automated and scalable disease detection systems. Existing deep-learning approaches often suffer from limited generalization and high computational cost, restricting real-time field deployment. Methods: This study proposes CNNAttLSTM, a hybrid deep-learning architecture integrating Convolutional Neural Networks (CNN), Long Short-Term Memory (LSTM) units, and an attention mechanism for multi-class classification of algal leaf spot, black spot, and healthy jackfruit leaves. Each image is divided into ordered 56×56 spatial patches, treated as pseudo-temporal sequences to enable the LSTM to capture contextual dependencies across different leaf regions. Spatial features are extracted via Conv2D, MaxPooling, and GlobalAveragePooling layers; temporal modeling is performed by LSTM units; and an attention mechanism assigns adaptive weights to emphasize disease-relevant regions. Experiments were conducted on a publicly available Kaggle dataset comprising 38,019 images, using predefined training, validation, and testing splits. Results: The proposed CNNAttLSTM model achieved 99% classification accuracy, outperforming the baseline CNN (86%) and CNN–LSTM (98%) models. It required only 3.7 million parameters, trained in 45 minutes on an NVIDIA Tesla T4 GPU, and achieved an inference time of 22 milliseconds per image, demonstrating high computational efficiency. The patch-based pseudo-temporal approach improved spatial–temporal feature representation, enabling the model to distinguish subtle differences between visually similar disease classes. Discussion: Results show that combining spatial feature extraction with temporal modeling and attention significantly enhances robustness and classification performance in plant disease detection. The lightweight design enables real-time and edge-device deployment, addressing a major limitation of existing deep-learning techniques. The findings highlight the potential of CNNAttLSTM for scalable, efficient, and accurate agricultural disease monitoring and broader precision agriculture applications.
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