805 resultados para video summarization
Resumo:
Esta es una colección de 6 vídeos tutoriales que pueden ser empleados como material educativo en los cursos de fonética en el ámbito universitario. Tratan principalmente del cómo se puede obtener información desde las palabras aisladas, como se observa en las técnicas de los vídeos 1-2, pasando por datos obtenidos con participación del investigador, característica aún presente en los vídeos 3-4, hasta enunciados íntegros sin necesidad del investigador presente, tal como se ilustra en los vídeos 5-6. Se trata de establecer una reflexión entre la necesidad de identificar el grado de espontaneidad a la hora de brindar información por parte del hablante y la posibilidad (o la necesidad) de cuantificar los datos que se obtienen.
Resumo:
Video technology has been used as a tool in research for many years. However, its widespread use as a fisheries management tool has been limited due to its relatively high cost. This is changing as video technology becomes a household commodity now widely available throughout the world.
Resumo:
Belugas, Delphinapterus leucas, groups were videotaped concurrent to observer counts during annual NMFS aerial surveys of Cook Inlet, Alaska, from 1994 to 2000. The videotapes provided permanent records of whale groups that could be examined and compared to group size estimates ade by aerial observers.Examination of the video recordings resulted in 275 counts of 79 whale groups. The McLaren formula was used to account for whales missed while they were underwater (average correction factor 2.03; SD=0.64). A correction for whales missed due to video resolution was developed by using a second, paired video camera that magnified images relative to the standard video. This analysis showed that some whales were missed either because their image size fell below the resolution of hte standard video recording or because two whales surfaced so close to each other that their images appeared to be one large whale. The correction method that resulted depended on knowing the average whale image size in the videotapes. Image sizes were measured for 2,775 whales from 275 different passes over whale groups. Corrected group sizes were calcualted as the product of the original count from video, the correction factor for whales missed underwater, and the correction factor for whales missed due to video resolution (averaged 1.17; SD=0.06). A regression formula was developed to estimate group sizes from aerial observer counts; independent variables were the aerial counts and an interaction term relative to encounter rate (whales per second during the counting of a group), which were regressed against the respective group sizes as calculated from the videotapes. Significant effects of encounter rate, either positive or negative, were found for several observers. This formula was used to estimate group size when video was not available. The estimated group sizes were used in the annual abundance estimates.