Title :
HOG based multi-object detection for urban navigation
Author :
Chayeb, A. ; Ouadah, N. ; Tobal, Z. ; Lakrouf, M. ; Azouaoui, O.
Author_Institution :
Robot. & Autom. Dept., Centre de Dev. des Technol. Av., Algiers, Algeria
Abstract :
A necessary condition to perform a fully autonomous driving system in urban environment is to detect object types in real scenes. Visual object recognition is a key solution, but multi-object detection still remain unsolved. In this paper, we present a fast and efficient multi-object detection system built to recognize, at the same time, pedestrians cars and bicycles. For each target type, we construct a holistic detector in a cascade manner, using a dense overlapping grid based on histograms of oriented gradients (HOG). The selection of HOG features is obtained through a learning process using AdaBoost algorithm. Experiments have been conducted on the car-like robot Robucar, where the single detectors are combined and implemented on its embedded computer, which is endowed with a modular software platform. Results are promising as the system can process up to 20 fps with VGA images.
Keywords :
feature selection; image resolution; intelligent transportation systems; learning (artificial intelligence); mobile robots; object detection; object recognition; pedestrians; robot vision; AdaBoost algorithm; HOG based multiobject detection; HOG feature selection; VGA images; autonomous driving system; car-like robot Robucar; embedded computer; histograms of oriented gradients; learning process; modular software platform; multiobject detection system; necessary condition; pedestrians bicycles; pedestrians cars; urban environment; urban navigation; visual object recognition; Bicycles; Detectors; Feature extraction; Histograms; Real-time systems; Robot sensing systems; Training;
Conference_Titel :
Intelligent Transportation Systems (ITSC), 2014 IEEE 17th International Conference on
Conference_Location :
Qingdao
DOI :
10.1109/ITSC.2014.6958165
