Robust Simultaneous Localization and Mapping for Very Large Outdoor Environments

Abstract. 3D representation of the environment is a piece of vital information for most of the engineering sciences. However, providing such information in classical surveying approaches demands a considerable amount of time for localizing the sensor in a desired coordinate frame to map the environment. Simultaneous Localization And Mapping (SLAM) algorithm is capable of localizing the sensor and do the mapping while the sensor is moving through the environment. In this paper, SLAM will be applied on the data of a lightweight 3D laser scanner in which we call semi-sparse point cloud, because of the unique specifications of the point cloud which comes from various resolutions in vertical and horizontal directions. In contrast to most of the SLAM algorithms, there is no aiding sensor to provide prior information of motion. The output of the algorithm would be a high-density full geometry detailed map in a short time. The accuracy of the algorithm has been estimated in a medium scale simulated outdoor environments in Gazebo and Robot Operating System (ROS). Considering Velodyne Puck accuracy which is 3 cm, the map was generated with approximately 6 cm accuracy.

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Experimental Investigation of Algorithms for Simultaneous Localization and Mapping

2020 7th International Conference on Electrical Engineering, Computer Sciences and Informatics (EECSI) ◽

10.23919/eecsi50503.2020.9251883 ◽

2020 ◽

Author(s):

Tamara Zhukabayeva ◽

Aigul Adamova ◽

Laula Zhumabayeva

Keyword(s):

Experimental Investigation ◽

Simultaneous Localization And Mapping ◽

Localization And Mapping

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Handheld Simultaneous Localization and Mapping Devices for 3D Scanning

Proceedings of the 33rd International Symposium on Automation and Robotics in Construction (ISARC) ◽

10.22260/isarc2016/0117 ◽

2016 ◽

Author(s):

Mark Froehlich ◽

Salman Azhar

Keyword(s):

Simultaneous Localization And Mapping ◽

3D Scanning ◽

Localization And Mapping

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A survey: which features are required for dynamic visual simultaneous localization and mapping?

Visual Computing for Industry Biomedicine and Art ◽

10.1186/s42492-021-00086-w ◽

2021 ◽

Vol 4 (1) ◽

Author(s):

Zewen Xu ◽

Zheng Rong ◽

Yihong Wu

Keyword(s):

Simultaneous Localization And Mapping ◽

Dynamic Environments ◽

Visual Features ◽

Advantages And Disadvantages ◽

Intelligent Robots ◽

Localization And Mapping ◽

High Level ◽

Static World ◽

Robotic Applications ◽

Significant Attention

AbstractIn recent years, simultaneous localization and mapping in dynamic environments (dynamic SLAM) has attracted significant attention from both academia and industry. Some pioneering work on this technique has expanded the potential of robotic applications. Compared to standard SLAM under the static world assumption, dynamic SLAM divides features into static and dynamic categories and leverages each type of feature properly. Therefore, dynamic SLAM can provide more robust localization for intelligent robots that operate in complex dynamic environments. Additionally, to meet the demands of some high-level tasks, dynamic SLAM can be integrated with multiple object tracking. This article presents a survey on dynamic SLAM from the perspective of feature choices. A discussion of the advantages and disadvantages of different visual features is provided in this article.

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Research on Laser-Visual Fusion-based Simultaneous Localization and Mapping

Journal of Physics Conference Series ◽

10.1088/1742-6596/1682/1/012049 ◽

2020 ◽

Vol 1682 ◽

pp. 012049

Author(s):

Jianjie Zhenga ◽

Haitao Zhang ◽

Kai Tang ◽

Weidi Kong

Keyword(s):

Simultaneous Localization And Mapping ◽

Localization And Mapping

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Modelling Software Architecture for Visual Simultaneous Localization and Mapping

Automation ◽

10.3390/automation2020003 ◽

2021 ◽

Vol 2 (2) ◽

pp. 48-61

Author(s):

Bhavyansh Mishra ◽

Robert Griffin ◽

Hakki Erhan Sevil

Keyword(s):

System Integration ◽

Ad Hoc ◽

Simultaneous Localization And Mapping ◽

Software Systems ◽

Model Driven ◽

Performance Improvements ◽

Software Model ◽

Localization And Mapping ◽

Stereo Cameras ◽

Core Components

Visual simultaneous localization and mapping (VSLAM) is an essential technique used in areas such as robotics and augmented reality for pose estimation and 3D mapping. Research on VSLAM using both monocular and stereo cameras has grown significantly over the last two decades. There is, therefore, a need for emphasis on a comprehensive review of the evolving architecture of such algorithms in the literature. Although VSLAM algorithm pipelines share similar mathematical backbones, their implementations are individualized and the ad hoc nature of the interfacing between different modules of VSLAM pipelines complicates code reuseability and maintenance. This paper presents a software model for core components of VSLAM implementations and interfaces that govern data flow between them while also attempting to preserve the elements that offer performance improvements over the evolution of VSLAM architectures. The framework presented in this paper employs principles from model-driven engineering (MDE), which are used extensively in the development of large and complicated software systems. The presented VSLAM framework will assist researchers in improving the performance of individual modules of VSLAM while not having to spend time on system integration of those modules into VSLAM pipelines.

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