Global localization for future space exploration rovers

Evangelos Boukas; Athanasios S. Polydoros; Gianfranco Visentin; Lazaros Nalpantidis; Antonios Gasteratos

doi:10.1007/978-3-319-68345-4_8

Global localization for future space exploration rovers

Evangelos Boukas, Athanasios S. Polydoros, Gianfranco Visentin, Lazaros Nalpantidis^*, Antonios Gasteratos

^*Kontaktforfatter

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

2 Citationer (Scopus)

Abstract

In the context of robotic space exploration the problem of autonomous global or absolute localization remains unsolved. Current rovers require human in the loop approaches to acquire global positioning. In this paper we assess this problem by refining our previous work in a way that advances the performance of the system while making the procedure feasible for real implementation on rovers. A map of semantic landmarks (the Global Network - GN) is extracted on an area that the rover traverses prior to the mission and, during the exploration, a Local Network (LN) is built and matched to estimate rover’s global location. We have optimized several aspects of the system: the motion estimation, the detection and classification –by benchmarking several classifiers– and we have tested the system in a Mars like scenario. With the aim to achieve realistic terms in our scenario a custom robotic platform was developed, bearing operation features similar to ESA’s ExoMars. Our results indicate that the proposed system is able to perform global localization and converges relatively fast to an accurate solution.

Originalsprog	Engelsk
Titel	11th International Conference on Computer Vision Systems (ICVS 2017)
Antal sider	13
Vol/bind	10528 LNCS
Forlag	Springer VS
Publikationsdato	2017
Sider	86-98
ISBN (Trykt)	9783319683447
DOI	https://doi.org/10.1007/978-3-319-68345-4_8
Status	Udgivet - 2017
Begivenhed	11th International Conference on Computer Vision Systems, ICVS 2017 - Shenzhen, Kina Varighed: 10 jul. 2017 → 13 jul. 2017

Konference

Konference	11th International Conference on Computer Vision Systems, ICVS 2017
Land/Område	Kina
By	Shenzhen
Periode	10/07/2017 → 13/07/2017
Sponsor	City University of Hong Kong Shenzhen Research Institute, et al., Harbin Institute of Technology, Hong Kong University of Science and , Shenzhen Institutes of Advanced Technology, CAS, Technology, Vienna University of Technology

Navn	Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)
Vol/bind	10528 LNCS
ISSN	0302-9743

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10.1007/978-3-319-68345-4_8

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Citationsformater

Boukas, Evangelos ; Polydoros, Athanasios S. ; Visentin, Gianfranco et al. / Global localization for future space exploration rovers. 11th International Conference on Computer Vision Systems (ICVS 2017). Bind 10528 LNCS Springer VS, 2017. s. 86-98 (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), Bind 10528 LNCS).

@inproceedings{94fd9dc3323d4dd595106685948c2864,

title = "Global localization for future space exploration rovers",

abstract = "In the context of robotic space exploration the problem of autonomous global or absolute localization remains unsolved. Current rovers require human in the loop approaches to acquire global positioning. In this paper we assess this problem by refining our previous work in a way that advances the performance of the system while making the procedure feasible for real implementation on rovers. A map of semantic landmarks (the Global Network - GN) is extracted on an area that the rover traverses prior to the mission and, during the exploration, a Local Network (LN) is built and matched to estimate rover{\textquoteright}s global location. We have optimized several aspects of the system: the motion estimation, the detection and classification –by benchmarking several classifiers– and we have tested the system in a Mars like scenario. With the aim to achieve realistic terms in our scenario a custom robotic platform was developed, bearing operation features similar to ESA{\textquoteright}s ExoMars. Our results indicate that the proposed system is able to perform global localization and converges relatively fast to an accurate solution.",

author = "Evangelos Boukas and Polydoros, {Athanasios S.} and Gianfranco Visentin and Lazaros Nalpantidis and Antonios Gasteratos",

year = "2017",

doi = "10.1007/978-3-319-68345-4_8",

language = "English",

isbn = "9783319683447",

volume = "10528 LNCS",

series = "Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)",

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note = "11th International Conference on Computer Vision Systems, ICVS 2017 ; Conference date: 10-07-2017 Through 13-07-2017",

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Boukas, E, Polydoros, AS, Visentin, G, Nalpantidis, L & Gasteratos, A 2017, Global localization for future space exploration rovers. i 11th International Conference on Computer Vision Systems (ICVS 2017). bind 10528 LNCS, Springer VS, Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), bind 10528 LNCS, s. 86-98, 11th International Conference on Computer Vision Systems, ICVS 2017, Shenzhen, Kina, 10/07/2017. https://doi.org/10.1007/978-3-319-68345-4_8

Global localization for future space exploration rovers. / Boukas, Evangelos; Polydoros, Athanasios S.; Visentin, Gianfranco et al.
11th International Conference on Computer Vision Systems (ICVS 2017). Bind 10528 LNCS Springer VS, 2017. s. 86-98 (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), Bind 10528 LNCS).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Global localization for future space exploration rovers

AU - Boukas, Evangelos

AU - Polydoros, Athanasios S.

AU - Visentin, Gianfranco

AU - Nalpantidis, Lazaros

AU - Gasteratos, Antonios

PY - 2017

Y1 - 2017

N2 - In the context of robotic space exploration the problem of autonomous global or absolute localization remains unsolved. Current rovers require human in the loop approaches to acquire global positioning. In this paper we assess this problem by refining our previous work in a way that advances the performance of the system while making the procedure feasible for real implementation on rovers. A map of semantic landmarks (the Global Network - GN) is extracted on an area that the rover traverses prior to the mission and, during the exploration, a Local Network (LN) is built and matched to estimate rover’s global location. We have optimized several aspects of the system: the motion estimation, the detection and classification –by benchmarking several classifiers– and we have tested the system in a Mars like scenario. With the aim to achieve realistic terms in our scenario a custom robotic platform was developed, bearing operation features similar to ESA’s ExoMars. Our results indicate that the proposed system is able to perform global localization and converges relatively fast to an accurate solution.

AB - In the context of robotic space exploration the problem of autonomous global or absolute localization remains unsolved. Current rovers require human in the loop approaches to acquire global positioning. In this paper we assess this problem by refining our previous work in a way that advances the performance of the system while making the procedure feasible for real implementation on rovers. A map of semantic landmarks (the Global Network - GN) is extracted on an area that the rover traverses prior to the mission and, during the exploration, a Local Network (LN) is built and matched to estimate rover’s global location. We have optimized several aspects of the system: the motion estimation, the detection and classification –by benchmarking several classifiers– and we have tested the system in a Mars like scenario. With the aim to achieve realistic terms in our scenario a custom robotic platform was developed, bearing operation features similar to ESA’s ExoMars. Our results indicate that the proposed system is able to perform global localization and converges relatively fast to an accurate solution.

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DO - 10.1007/978-3-319-68345-4_8

M3 - Article in proceeding

AN - SCOPUS:85031779883

SN - 9783319683447

VL - 10528 LNCS

T3 - Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics)

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BT - 11th International Conference on Computer Vision Systems (ICVS 2017)

PB - Springer VS

T2 - 11th International Conference on Computer Vision Systems, ICVS 2017

Y2 - 10 July 2017 through 13 July 2017

ER -

Boukas E, Polydoros AS, Visentin G, Nalpantidis L, Gasteratos A. Global localization for future space exploration rovers. I 11th International Conference on Computer Vision Systems (ICVS 2017). Bind 10528 LNCS. Springer VS. 2017. s. 86-98. (Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), Bind 10528 LNCS). doi: 10.1007/978-3-319-68345-4_8

Global localization for future space exploration rovers

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