Towards Mapping of Underwater Structures by a Team of Autonomous Underwater Vehicles

Marios Xanthidis; Bharat Joshi; Monika Roznere; Weihan Wang; Nathaniel Burgdorfer; Alberto Quattrini Li; Philippos Mordohai; Srihari Nelakuditi; Ioannis Rekleitis

doi:10.1007/978-3-031-25555-7_12

Towards Mapping of Underwater Structures by a Team of Autonomous Underwater Vehicles

Marios Xanthidis
, Bharat Joshi
, Monika Roznere
, Weihan Wang
, Nathaniel Burgdorfer
, Alberto Quattrini Li
, Philippos Mordohai
, Srihari Nelakuditi
, Ioannis Rekleitis

School of Computing

Binghamton University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

5 Scopus citations

Abstract

In this paper, we discuss how to effectively map an underwater structure with a team of robots considering the specific challenges posed by the underwater environment. The overarching goal of this work is to produce high-definition, accurate, photorealistic representation of underwater structures. Due to the many limitations of vision underwater, operating at a distance from the structure results in degraded images that lack details, while operating close to the structure increases the accumulated uncertainty due to the limited viewing area which causes drifting. We propose a multi-robot mapping framework that utilizes two types of robots: proximal observers which map close to the structure and distal observers which provide localization for proximal observers and bird’s-eye-view situational awareness. The paper presents the fundamental components and related current results from real shipwrecks and simulations necessary to enable the proposed framework, including robust state estimation, real-time 3D mapping, and active perception navigation strategies for the two types of robots. Then, the paper outlines interesting research directions and plans to have a completely integrated framework that allows robots to map in harsh environments.

Original language	English
Title of host publication	Robotics Research
Editors	Aude Billard, Tamim Asfour, Oussama Khatib
Publisher	Springer Nature
Pages	170-185
Number of pages	16
ISBN (Print)	9783031255540
DOIs	https://doi.org/10.1007/978-3-031-25555-7_12
State	Published - 2023
Event	18th International Symposium of Robotics Research, ISRR 2022 - Geneva, Switzerland Duration: Sep 25 2022 → Sep 30 2022

Publication series

Name	Springer Proceedings in Advanced Robotics
Volume	27 SPAR

Conference

Conference	18th International Symposium of Robotics Research, ISRR 2022
Country/Territory	Switzerland
City	Geneva
Period	09/25/22 → 09/30/22

Keywords

Localization
Mapping
Multi-robot
Navigation
Underwater

Access to Document

10.1007/978-3-031-25555-7_12

Cite this

Xanthidis, M., Joshi, B., Roznere, M., Wang, W., Burgdorfer, N., Li, A. Q., Mordohai, P., Nelakuditi, S., & Rekleitis, I. (2023). Towards Mapping of Underwater Structures by a Team of Autonomous Underwater Vehicles. In A. Billard, T. Asfour, & O. Khatib (Eds.), Robotics Research (pp. 170-185). (Springer Proceedings in Advanced Robotics; Vol. 27 SPAR). Springer Nature. https://doi.org/10.1007/978-3-031-25555-7_12

@inproceedings{c4e3eb04ea674317b232e084ecd2dd51,

title = "Towards Mapping of Underwater Structures by a Team of Autonomous Underwater Vehicles",

abstract = "In this paper, we discuss how to effectively map an underwater structure with a team of robots considering the specific challenges posed by the underwater environment. The overarching goal of this work is to produce high-definition, accurate, photorealistic representation of underwater structures. Due to the many limitations of vision underwater, operating at a distance from the structure results in degraded images that lack details, while operating close to the structure increases the accumulated uncertainty due to the limited viewing area which causes drifting. We propose a multi-robot mapping framework that utilizes two types of robots: proximal observers which map close to the structure and distal observers which provide localization for proximal observers and bird{\textquoteright}s-eye-view situational awareness. The paper presents the fundamental components and related current results from real shipwrecks and simulations necessary to enable the proposed framework, including robust state estimation, real-time 3D mapping, and active perception navigation strategies for the two types of robots. Then, the paper outlines interesting research directions and plans to have a completely integrated framework that allows robots to map in harsh environments.",

keywords = "Localization, Mapping, Multi-robot, Navigation, Underwater",

author = "Marios Xanthidis and Bharat Joshi and Monika Roznere and Weihan Wang and Nathaniel Burgdorfer and Li, \{Alberto Quattrini\} and Philippos Mordohai and Srihari Nelakuditi and Ioannis Rekleitis",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s), under exclusive license to Springer Nature Switzerland AG.; 18th International Symposium of Robotics Research, ISRR 2022 ; Conference date: 25-09-2022 Through 30-09-2022",

year = "2023",

doi = "10.1007/978-3-031-25555-7\_12",

language = "English",

isbn = "9783031255540",

series = "Springer Proceedings in Advanced Robotics",

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Xanthidis, M, Joshi, B, Roznere, M, Wang, W, Burgdorfer, N, Li, AQ, Mordohai, P, Nelakuditi, S & Rekleitis, I 2023, Towards Mapping of Underwater Structures by a Team of Autonomous Underwater Vehicles. in A Billard, T Asfour & O Khatib (eds), Robotics Research. Springer Proceedings in Advanced Robotics, vol. 27 SPAR, Springer Nature, pp. 170-185, 18th International Symposium of Robotics Research, ISRR 2022, Geneva, Switzerland, 09/25/22. https://doi.org/10.1007/978-3-031-25555-7_12

Towards Mapping of Underwater Structures by a Team of Autonomous Underwater Vehicles. / Xanthidis, Marios; Joshi, Bharat; Roznere, Monika et al.
Robotics Research. ed. / Aude Billard; Tamim Asfour; Oussama Khatib. Springer Nature, 2023. p. 170-185 (Springer Proceedings in Advanced Robotics; Vol. 27 SPAR).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Xanthidis, Marios

AU - Joshi, Bharat

AU - Roznere, Monika

AU - Wang, Weihan

AU - Burgdorfer, Nathaniel

AU - Li, Alberto Quattrini

AU - Mordohai, Philippos

AU - Nelakuditi, Srihari

AU - Rekleitis, Ioannis

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AB - In this paper, we discuss how to effectively map an underwater structure with a team of robots considering the specific challenges posed by the underwater environment. The overarching goal of this work is to produce high-definition, accurate, photorealistic representation of underwater structures. Due to the many limitations of vision underwater, operating at a distance from the structure results in degraded images that lack details, while operating close to the structure increases the accumulated uncertainty due to the limited viewing area which causes drifting. We propose a multi-robot mapping framework that utilizes two types of robots: proximal observers which map close to the structure and distal observers which provide localization for proximal observers and bird’s-eye-view situational awareness. The paper presents the fundamental components and related current results from real shipwrecks and simulations necessary to enable the proposed framework, including robust state estimation, real-time 3D mapping, and active perception navigation strategies for the two types of robots. Then, the paper outlines interesting research directions and plans to have a completely integrated framework that allows robots to map in harsh environments.

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KW - Multi-robot

KW - Navigation

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BT - Robotics Research

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A2 - Asfour, Tamim

A2 - Khatib, Oussama

PB - Springer Nature

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Y2 - 25 September 2022 through 30 September 2022

ER -

Towards Mapping of Underwater Structures by a Team of Autonomous Underwater Vehicles

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Keywords

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