Effective Pedestrian Detection and Counting at Bus Stops

García Bunster, Guillermo Arturo.

Pontificia Universidad Católica de Chile

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Effective Pedestrian Detection and Counting at Bus Stops.pdf

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García Bunster, Guillermo Arturo. Torres Torriti, Miguel Attilio

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This paper presents two approaches for pedestrian detection and counting at bus stops, whose purpose is to provide accurate demand estimates for an automated fleet scheduling and dispatching system. The approaches are general and can also be applied to people counting in public buildings or pedestrian detection from robotic platforms with minor modifications to account for background motion. The first approach employs a background subtraction scheme combined with the Viola and Jones detector, while the second one uses the foreground pixels count and a linear model involving people density estimates to calculate the total number of people. It is shown that the second approach is more accurate and reliable despite its simplicity, because it is not subject to the detection errors arising in the face or body parts detectors of the first approach. Both approaches are tested using image sequences from a real bus stop.

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Autor	García Bunster, Guillermo Arturo. Torres Torriti, Miguel Attilio
Título	Effective Pedestrian Detection and Counting at Bus Stops
ISBN	9781424433797
Página inicio	158
Página final	163
Fecha de publicación	2008
Resumen	This paper presents two approaches for pedestrian detection and counting at bus stops, whose purpose is to provide accurate demand estimates for an automated fleet scheduling and dispatching system. The approaches are general and can also be applied to people counting in public buildings or pedestrian detection from robotic platforms with minor modifications to account for background motion. The first approach employs a background subtraction scheme combined with the Viola and Jones detector, while the second one uses the foreground pixels count and a linear model involving people density estimates to calculate the total number of people. It is shown that the second approach is more accurate and reliable despite its simplicity, because it is not subject to the detection errors arising in the face or body parts detectors of the first approach. Both approaches are tested using image sequences from a real bus stop.
Derechos	acceso restringido
DOI	10.1109/LARS.2008.18
Editorial	IEEE
Enlace	https://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=4812642 https://doi.org/10.1109/LARS.2008.18 https://repositorio.uc.cl/handle/11534/63948
Palabra clave	Image edge detection Face detection Object detection Detectors Filters Robotics and automation Dispatching Motion detection Testing Image sequences
Publicado en / Colección	IEEE Latin American Robotic Symposium (2008 : Salvador, Brasil)
Tipo de documento	comunicación de congreso