Walking pedestrian recognition

In recent years a lot of methods providing the ability to recognize rigid obstacles-like sedans and trucks have been developed. These methods mainly provide driving relevant information to the driver. They are able to cope reliably with scenarios on motor-ways. Nevertheless, not much attention has b...

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Hauptverfasser:	Curio, C., Edelbrunner, J., Kalinke, T., Tzomakas, C., von Seelen, W.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Image analysis Image motion analysis Image processing Image texture analysis Legged locomotion Motion analysis Safety Solid modeling Traffic control Trajectory
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creator	Curio, C. Edelbrunner, J. Kalinke, T. Tzomakas, C. von Seelen, W.
description	In recent years a lot of methods providing the ability to recognize rigid obstacles-like sedans and trucks have been developed. These methods mainly provide driving relevant information to the driver. They are able to cope reliably with scenarios on motor-ways. Nevertheless, not much attention has been given to image processing approaches to increase safety of pedestrians in traffic environments. In this paper a method for detection, tracking, and final classification of pedestrians crossing the moving observer's trajectory is suggested. Herein a combination of data and model driven approaches is realized. The initial detection process is based on a texture analysis and a model-based grouping of most likely geometric features belonging to a pedestrian on intensity images. Additionally, motion patterns of limb movements are analyzed to determine initial object hypotheses. For this tracking of the quasi-rigid part of the body is performed by different trackers that have been successfully employed for tracking of sedans, trucks, motor-bikes, and pedestrians. The final classification is obtained by a temporal analysis of the walking process.
doi_str_mv	10.1109/ITSC.1999.821069
format	Conference Proceeding
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language	eng
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Image analysis Image motion analysis Image processing Image texture analysis Legged locomotion Motion analysis Safety Solid modeling Traffic control Trajectory
title	Walking pedestrian recognition
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