Biologically Inspired Vision for Indoor Robot Navigation


Autoria(s): Saleiro, Mário; Tersic, K.; Lobato, D.; Rodrigues, J. M. F.; du Buf, J. M. H.
Data(s)

04/11/2015

04/11/2015

10/10/2014

Identificador

978-3-319-11754-6

AUT: JRO00913; DUB00865;

http://hdl.handle.net/10400.1/6999

https://dx.doi.org/10.1007/978-3-319-11755-3_52

Idioma(s)

eng

Publicador

Springer

Relação

Lecture Notes in Computer Science

P-00F-JX6

Direitos

openAccess

Tipo

conferenceObject

Resumo

Ultrasonic, infrared, laser and other sensors are being applied in robotics. Although combinations of these have allowed robots to navigate, they are only suited for specific scenarios, depending on their limitations. Recent advances in computer vision are turning cameras into useful low-cost sensors that can operate in most types of environments. Cameras enable robots to detect obstacles, recognize objects, obtain visual odometry, detect and recognize people and gestures, among other possibilities. In this paper we present a completely biologically inspired vision system for robot navigation. It comprises stereo vision for obstacle detection, and object recognition for landmark-based navigation. We employ a novel keypoint descriptor which codes responses of cortical complex cells. We also present a biologically inspired saliency component, based on disparity and colour.