Jaime Castro Martínez, Julián Chavarría Roa, Andrés Parra Benítez, Santiago González
Diversas investigaciones han señalado la necesidad de modificar los espacios de aprendizaje para favorecer las condiciones de salud-trabajovida de los docentes y para mejorar las condiciones de aprendizaje de los estudiantes. Dichas modificaciones implican cambios arquitecturales, ya sea a través de amplificadores de sonido o deflectores, que permiten variar los niveles de reverberación del sonido y que por tanto modifican las necesidades de modular la voz y el desgaste asociado en el docente. El objetivo de la investigación realizada fue indagar el efecto del nivel de ruido, de la reverberación y de barreras acústicas, en el nivel atencional de 141 estudiantes de una universidad privada de la ciudad de Bogotá (Colombia). Se utilizaron dos estrategias de medición de la atención. La primera de ellas contó con la medición del nivel atencional a través de un cuestionario con palabras pertenecientes a la clase y no pertenecientes a la misma, pero que tuvieran relación con la asignatura. La segunda estrategia midió el Índice de Atención (IA), el cual estuvo conformado por el promedio de las desviaciones de la mirada a un punto, calculado sobre una cuadrícula. Los resultados señalan diferencias significativas entre los grupos intervenidos y no intervenidos. Esta diferencia es significativa tanto para la estrategia de medición tradicional de la atención, a través del cuestionario con la lista de palabras, como para la estrategia alternativa de medición del Índice de Atención, a través de la cuadrícula. Este estudio señala que cambios específicos dirigidos a disminuir los valores de reverberación en los salones de clase, afectan positivamente los niveles de atención y el desempeño de estudiantes. Lo que indica la necesidad de mejorar las condiciones acústicas de los sitios de aprendizaje para así lograr tanto mejores comprensiones de los contenidos por parte de los estudiantes como menor desgaste en la voz de los docentes.
Noise in learning environments has proven to be a big source of health problems not only for teachers, but also for students. Noise is considered as every type of sound that we are not interested in hearing, whereas a useful sound is the one we want to perceive. Studiesthat analyze the relation ship between the effects of noise and attention processes are developed within the idea that sound stimulation acts intermittently as an activator and therefore it can generate an over-activation in the individual due to the distortion caused by this diffused stimulation on the attention process.
Furthermore, researches also show that the presence of noise affects performance by making subjects focus their attention upon aspects of the task defined as relevant. Researchers have stated the importance of changing learning spaces in order to favor the health- work-life conditions of teachers and to improve the students’ learning conditions. These alterations include architectural changes, using sound-field amplification, or ceiling baffles and reflectors that allow changing the reverberation levels of sound in order to modify the need teachers have to modulate their voice and avoid wearing it out. Is common that regulations on the acoustic characteristics of many places set general requisites that are minimal and insufficient to control noise and reverberation, and that are not in line with the guidelines on intermittent sounds.
The objective of this research was to examine the effect of noise, reverberation, and acoustical barriers on the level of attention of 141 students from a private university in . Modular panels with acoustic properties were used for an acoustic intervention in some classrooms, intending to reduce the noise levels. Then, all the students of four courses of Mathematics and Statistics were considered. At least two courses had classes in the classroomsthat had the acoustic intervention at the beginning of the semester, and the same teacher should be teaching those courses (in both altered and unaltered classrooms) in order to exclude differences associated with the teacher.
Since the investigation aimed to measure the level of attention of the students that were in both classrooms. We designed two measurementstrategiesthat correspond to the two types of researches that study the relationship between noise and attention. However, this study presents important differences regarding the strategies that are traditionally associated with embedded figures tests, testsregarding globalshape processing and details, orsurveillance tasks, because these situations were not controlled within a lab but real noise situations in a classroom.
Two strategies of attention measurement were used. The first strategy measured the level of attention through a questionnaire with words belonging and not belonging to the class, but related to the subject. The second strategy allows calculating the Attention Index (AI), which would be measured by the average of the times students look away to a specific point, this is indicated in a grid. The results point towards significant differences between the acoustically intervened and non-intervened groups. That difference is significant both for the traditional attention measurement strategy through a questionnaire with word list and for the alternateAttention Index (AI) measurement strategy using a grid. This study shows that noise levels have an important effect on the students’ attention processes, and thatspecific changes, aimed at decreasing reverberation values in classrooms affect positively the levels of attention and student performance. They also indicate the need to improve the acoustic conditions of learning sites in order to allow students to achieve a better understanding of contents and to lessen the fatigue of the teachers’ voices.
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