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Multi-Hypothesis SLAM for Non-Static Environments with Reoccurring Landmarks
Linköping University, Department of Electrical Engineering, Automatic Control. Linköping University, Faculty of Science & Engineering. Epiroc Rock Drills, Sweden.ORCID iD: 0000-0003-1137-9282
Linköping University, Faculty of Science & Engineering. Linköping University, Department of Electrical Engineering, Automatic Control.ORCID iD: 0000-0002-1971-4295
2023 (English)In: IEEE Transactions on Intelligent Vehicles, ISSN 2379-8858, E-ISSN 2379-8904, Vol. 8, no 4, p. 3191-3203Article in journal (Refereed) Published
Abstract [en]

A static world assumption is often used when considering the simultaneous localization and mapping (SLAM) problem. In reality, especially when long-term autonomy is the objective, this is not valid. This paper studies a scenario where uniquely identifiable landmarks can attend multiple discrete positions, not known a priori . Based on a feature based multi-hypothesis map representation, a multi-hypothesis SLAM algorithm is developed inspired by target tracking theory. The creation of such a map is merged into the SLAM framework allowing any available SLAM method to solve the underlying mapping and localization problem for each hypothesis. A recursively updated hypothesis score allows for hypothesis rejection and prevents exponential growth in the number of hypotheses. The developed method is evaluated in an underground mine application, where physical barriers can be moved in between multiple distinct positions. Simulations are conducted in this environment showing the benefits of the multi-hypothesis approach compared to executing a standard SLAM algorithm. Practical considerations as well as suitable approximations are elaborated upon and experiments on real data further validates the simulated results and show that the multi-hypothesis approach has similar performance in reality as in simulation.

Place, publisher, year, edition, pages
IEEE, 2023. Vol. 8, no 4, p. 3191-3203
Keywords [en]
Simultaneous localization and mapping; Markov processes; Location awareness; Target tracking; Decision making; Vehicle dynamics; Robots; SLAM; multi-hypothesis; non-static environment
National Category
Control Engineering Robotics
Identifiers
URN: urn:nbn:se:liu:diva-191678DOI: 10.1109/tiv.2022.3214978ISI: 000994739000046OAI: oai:DiVA.org:liu-191678DiVA, id: diva2:1735397
Projects
Wallenberg AI, Autonomous Systems and Software Program (WASP)
Funder
Wallenberg AI, Autonomous Systems and Software Program (WASP)
Note

Funding: Knut and Alice Wallenberg Foundation through Wallenberg AI, Autonomous Systems and Software Program (WASP)

Available from: 2023-02-08 Created: 2023-02-08 Last updated: 2024-03-01
In thesis
1. Localization for Autonomous Vehicles in Underground Mines
Open this publication in new window or tab >>Localization for Autonomous Vehicles in Underground Mines
2023 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

The trend of automation in industry, and in the society in general, is something that probably all of us have noticed. The mining industry is no exception to this trend, and there exists a vision of having completely automated mines with all processes monitored and controlled through a higher level optimization goal. For this vision, access to a reliable positioning system has been identified a prerequisite. Underground mines posses extraordinary premises for localization, due to the harsh, unstructured and ever changing environment, where existing localization solutions struggle with accuracy and reliability over time. 

This thesis addresses the problem of achieving accurate, robust and consistent position estimates for long-term autonomy of vehicles operating in an underground mining environment. The focus is on onboard positioning solutions utilizing sensor fusion within the probabilistic filtering framework, with extra emphasis on the characteristics of lidar data. Contributions are in the areas of improved state estimation algorithms, more efficient lidar data processing and development of models for changing environments. The problem descriptions and ideas in this thesis are sprung from underground localization issues, but many of the resulting solutions and methods are valid beyond this application. 

In this thesis, internal localization algorithms and data processing techniques are analyzed in detail. The effects of tuning the parameters in an unscented Kalman filter are examined and guidelines for choosing suitable values are suggested. Proper parameter values are shown to substantially improve the position estimates for the underground application. Robust and efficient processing of lidar data is explored both through analysis of the information contribution of individual laser rays, and through preprocessing in terms of feature extraction. Methods suitable for available hardware are suggested, and it is shown how it is possible to maintain consistency in the state estimates with less computations. 

Changes in the environment can be devastating for a localization system when characteristics of the observations no longer matches the provided map. One way to manage this is to extend the localization problem to simultaneous localization and mapping (slam). In its standard formulation, slam assumes a truly static surrounding. In this thesis a feature based multi-hypothesis map representation is developed that allows encoding of changes in the environment. The representation is verified to perform well for localization in scenarios where landmarks can attain one of many possible positions. Automatic creation of such maps are suggested with methods completely integrated with the slam framework. This results in a multi-hypothesis slam concept that can discover and adapt to changes in the operation area while at the same time producing consistent state estimates. 

This thesis provides general insights in lidar data processing and state estimation in changing environments. For the underground mine application specifically, different methods presented in this thesis target different aspects of the higher goal of achieving robust and accurate position estimates. Together they present a collective view of how to design localization systems that produce reliable estimates for underground mining environments. 

Place, publisher, year, edition, pages
Linköping: Linköping University Electronic Press, 2023. p. 77
Series
Linköping Studies in Science and Technology. Dissertations, ISSN 0345-7524 ; 2318
National Category
Control Engineering
Identifiers
urn:nbn:se:liu:diva-193204 (URN)10.3384/9789180751681 (DOI)9789180751674 (ISBN)9789180751681 (ISBN)
Public defence
2023-05-26, Nobel (BL32), Campus Valla, Linköping, 10:15 (English)
Opponent
Supervisors
Note

Funding agencies: This work was partially supported by the Wallenberg AI Autonomous Systems and Software Program (WASP) funded by the Kunt and Alice Wallenberg Foundation.

Available from: 2023-04-20 Created: 2023-04-20 Last updated: 2023-04-20Bibliographically approved

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Nielsen, KristinHendeby, Gustaf

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