Mapping, Localization and Navigation Improvements by Using Manipulated Floor Plan and ROS-Based Mobile Robot Parameters

Petri Oksa; Pekka Loula; Erkki Castrén

Mapping, Localization and Navigation Improvements by Using Manipulated Floor Plan and ROS-Based Mobile Robot Parameters

Petri Oksa
, Pekka Loula
, Erkki Castrén

Research output: Contribution to journal › Review Article › peer-review

Abstract

Indoor environment mapping is one of the obvious beneﬁt that can be assigned for service mobile robots. With an extensive set of parameters provided by Robot Operating System (ROS), the robotic system user can set core tasks to improve the quality and usability of the received environmental grid map. This has an
evident impact for the robot teleoperating, map scale, and signiﬁcantly, in avoiding discontinuities and inaccuracy objects of the generated map—that is to say the more accurate the map is—the more straightforward the autonomous navigation is. The use of an original ﬂoor plan instead of map obtained by the robot is one worthwhile option. Floor plans can be manipulated by using a generic image processing software in that case where the received map has
unidentiﬁable areas due to the robot’s 3D sensor unable to detect. This paper presents ROS-based indoor environment mapping, localization and autonomous navigation factors in the Open Cloud Robotic Platform (OpenCRP) ecosystem, a cloud robotics project upon an open-source basis, experimented with a TurtleBot II mobile robot. Moreover, a method for manipulating the ﬂoor plan is presented in this work.

Original language	English
Article number	JMESTN42352708
Pages (from-to)	8910-8918
Number of pages	9
Journal	Journal of multidisciplinary engineering science and technology
Volume	5
Issue number	10
Publication status	Published - 31 Oct 2018
Publication type	A2 Review article in a scientific journal

Keywords

mapping
localization
autonomous navigation
mobile robot
ROS

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http://www.jmest.org/vol-5-issue-10-october-2018/

Cite this

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title = "Mapping, Localization and Navigation Improvements by Using Manipulated Floor Plan and ROS-Based Mobile Robot Parameters",

abstract = "Indoor environment mapping is one of the obvious beneﬁt that can be assigned for service mobile robots. With an extensive set of parameters provided by Robot Operating System (ROS), the robotic system user can set core tasks to improve the quality and usability of the received environmental grid map. This has an evident impact for the robot teleoperating, map scale, and signiﬁcantly, in avoiding discontinuities and inaccuracy objects of the generated map—that is to say the more accurate the map is—the more straightforward the autonomous navigation is. The use of an original ﬂoor plan instead of map obtained by the robot is one worthwhile option. Floor plans can be manipulated by using a generic image processing software in that case where the received map has unidentiﬁable areas due to the robot{\textquoteright}s 3D sensor unable to detect. This paper presents ROS-based indoor environment mapping, localization and autonomous navigation factors in the Open Cloud Robotic Platform (OpenCRP) ecosystem, a cloud robotics project upon an open-source basis, experimented with a TurtleBot II mobile robot. Moreover, a method for manipulating the ﬂoor plan is presented in this work.",

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year = "2018",

month = oct,

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language = "English",

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T1 - Mapping, Localization and Navigation Improvements by Using Manipulated Floor Plan and ROS-Based Mobile Robot Parameters

AU - Oksa, Petri

AU - Loula, Pekka

AU - Castrén, Erkki

N1 - INT=sgn,"Castrén, Erkki"

PY - 2018/10/31

Y1 - 2018/10/31

N2 - Indoor environment mapping is one of the obvious beneﬁt that can be assigned for service mobile robots. With an extensive set of parameters provided by Robot Operating System (ROS), the robotic system user can set core tasks to improve the quality and usability of the received environmental grid map. This has an evident impact for the robot teleoperating, map scale, and signiﬁcantly, in avoiding discontinuities and inaccuracy objects of the generated map—that is to say the more accurate the map is—the more straightforward the autonomous navigation is. The use of an original ﬂoor plan instead of map obtained by the robot is one worthwhile option. Floor plans can be manipulated by using a generic image processing software in that case where the received map has unidentiﬁable areas due to the robot’s 3D sensor unable to detect. This paper presents ROS-based indoor environment mapping, localization and autonomous navigation factors in the Open Cloud Robotic Platform (OpenCRP) ecosystem, a cloud robotics project upon an open-source basis, experimented with a TurtleBot II mobile robot. Moreover, a method for manipulating the ﬂoor plan is presented in this work.

AB - Indoor environment mapping is one of the obvious beneﬁt that can be assigned for service mobile robots. With an extensive set of parameters provided by Robot Operating System (ROS), the robotic system user can set core tasks to improve the quality and usability of the received environmental grid map. This has an evident impact for the robot teleoperating, map scale, and signiﬁcantly, in avoiding discontinuities and inaccuracy objects of the generated map—that is to say the more accurate the map is—the more straightforward the autonomous navigation is. The use of an original ﬂoor plan instead of map obtained by the robot is one worthwhile option. Floor plans can be manipulated by using a generic image processing software in that case where the received map has unidentiﬁable areas due to the robot’s 3D sensor unable to detect. This paper presents ROS-based indoor environment mapping, localization and autonomous navigation factors in the Open Cloud Robotic Platform (OpenCRP) ecosystem, a cloud robotics project upon an open-source basis, experimented with a TurtleBot II mobile robot. Moreover, a method for manipulating the ﬂoor plan is presented in this work.

KW - mapping

KW - localization

KW - autonomous navigation

KW - mobile robot

KW - ROS

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M3 - Review Article

SN - 2458-9403

VL - 5

SP - 8910

EP - 8918

JO - Journal of multidisciplinary engineering science and technology

JF - Journal of multidisciplinary engineering science and technology

IS - 10

M1 - JMESTN42352708

ER -

Mapping, Localization and Navigation Improvements by Using Manipulated Floor Plan and ROS-Based Mobile Robot Parameters

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Keywords

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