Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica

Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica

This paper presents an exhaustive, extensive and detailed experimental assessment of different types of visual key-points in terms of robustness, stability and traceability, in images taken in marine areas densely colonized with Posidonia Oceanica (P.O.). This work has been focused mainly in two iss...

Full description

Bibliographic Details
Main Authors: Francisco Bonin-Font, Carles Coll Gomila, Gabriel Oliver Codina
Format: Article
Language:Spanish
Published: Universitat Politecnica de Valencia 2017-12-01
Series:Revista Iberoamericana de Automática e Informática Industrial RIAI
Subjects:
Sistemas de navegación
robot submarino autónomo
navegación del robot
visión del robot
odometría visual
Online Access:https://polipapers.upv.es/index.php/RIAI/article/view/8828
id doaj-001c4cd6548547588f6d5db5463f769f
record_format Article
spelling doaj-001c4cd6548547588f6d5db5463f769f2021-04-02T15:31:55ZspaUniversitat Politecnica de ValenciaRevista Iberoamericana de Automática e Informática Industrial RIAI1697-79121697-79202017-12-01151243510.4995/riai.2017.88286125Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia OceanicaFrancisco Bonin-Font0Carles Coll Gomila1Gabriel Oliver Codina2Universidad de las Islas BalearesUniversidad de las Islas BalearesUniversidad de las Islas BalearesThis paper presents an exhaustive, extensive and detailed experimental assessment of different types of visual key-points in terms of robustness, stability and traceability, in images taken in marine areas densely colonized with Posidonia Oceanica (P.O.). This work has been focused mainly in two issues: a) evaluating the  capacity of several image color and contrast enhancing preprocessing techniques to increase the image quality and the number of stable features, and b) finding the pair feature detector/descriptor, from a wide range of different combinations, that maximizes the number of inlier correspondences in consecutive frames or frames that close a loop (images that overlap, taken at distant time instants, from different viewpoints or even with different environmental conditions). Conclusions extracted from both evaluations will affect directly the quality of visual odometers and/or the image registration processes involved in visual SLAM approaches.https://polipapers.upv.es/index.php/RIAI/article/view/8828Sistemas de navegaciónrobot submarino autónomonavegación del robotvisión del robotodometría visual
collection DOAJ
language Spanish
format Article
sources DOAJ
author Francisco Bonin-Font
Carles Coll Gomila
Gabriel Oliver Codina
spellingShingle Francisco Bonin-Font
Carles Coll Gomila
Gabriel Oliver Codina
Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica
Revista Iberoamericana de Automática e Informática Industrial RIAI
Sistemas de navegación
robot submarino autónomo
navegación del robot
visión del robot
odometría visual
author_facet Francisco Bonin-Font
Carles Coll Gomila
Gabriel Oliver Codina
author_sort Francisco Bonin-Font
title Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica
title_short Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica
title_full Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica
title_fullStr Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica
title_full_unstemmed Towards Visual Navigation of an Autonomous Underwater Vehicle in Areas with Posidonia Oceanica
title_sort towards visual navigation of an autonomous underwater vehicle in areas with posidonia oceanica
publisher Universitat Politecnica de Valencia
series Revista Iberoamericana de Automática e Informática Industrial RIAI
issn 1697-7912
1697-7920
publishDate 2017-12-01
description This paper presents an exhaustive, extensive and detailed experimental assessment of different types of visual key-points in terms of robustness, stability and traceability, in images taken in marine areas densely colonized with Posidonia Oceanica (P.O.). This work has been focused mainly in two issues: a) evaluating the  capacity of several image color and contrast enhancing preprocessing techniques to increase the image quality and the number of stable features, and b) finding the pair feature detector/descriptor, from a wide range of different combinations, that maximizes the number of inlier correspondences in consecutive frames or frames that close a loop (images that overlap, taken at distant time instants, from different viewpoints or even with different environmental conditions). Conclusions extracted from both evaluations will affect directly the quality of visual odometers and/or the image registration processes involved in visual SLAM approaches.
topic Sistemas de navegación
robot submarino autónomo
navegación del robot
visión del robot
odometría visual
url https://polipapers.upv.es/index.php/RIAI/article/view/8828
work_keys_str_mv AT franciscoboninfont towardsvisualnavigationofanautonomousunderwatervehicleinareaswithposidoniaoceanica
AT carlescollgomila towardsvisualnavigationofanautonomousunderwatervehicleinareaswithposidoniaoceanica
AT gabrielolivercodina towardsvisualnavigationofanautonomousunderwatervehicleinareaswithposidoniaoceanica
_version_ 1721559844510498816

Similar Items