Combining Dense Structure from Motion and Visual SLAM in a Behavior-Based Robot Control Architecture | Zendy

Geert De Cubber | Zendy; Sid Ahmed Berrabah | Zendy; Daniela Doroftei | Zendy; Yvan Baudoin | Zendy; Hichem Sahli | Zendy

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Combining Dense Structure from Motion and Visual SLAM in a Behavior-Based Robot Control Architecture

Author(s) -

Geert De Cubber,

Sid Ahmed Berrabah,

Daniela Doroftei,

Yvan Baudoin,

Hichem Sahli

Publication year - 2010

Publication title -

international journal of advanced robotic systems

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.394

H-Index - 46

eISSN - 1729-8814

pISSN - 1729-8806

DOI - 10.5772/7240

Subject(s) - computer science , computer vision , artificial intelligence , mobile robot , robot , motion (physics) , simultaneous localization and mapping , architecture , art , visual arts

In this paper, we present a control architecture for an intelligent outdoor mobile robot. This enables the robot to navigate in a complex, natural outdoor environment, relying on only a single on-board camera as sensory input. This is achieved through a twofold analysis of the visual data stream: a dense structure from motion algorithm calculates a depth map of the environment and a visual simultaneous localization and mapping algorithm builds a map of the surroundings using image features. This information enables a behavior-based robot motion and path planner to navigate the robot through the environment. In this paper, we show the theoretical aspects of setting up this architecture

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