Random Walk Exploration for Swarm Mapping
Research in swarm robotics has shown that robot swarms are effective in the exploration of unknown environments. However, little work has been devoted to port the exploration capabilities of robot swarms into the context of mapping. Indeed, conceiving robot swarms that can map an unknown environment...
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| Published in | Lecture notes in computer science pp. 211 - 222 |
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| Main Authors | , , |
| Format | Book Chapter |
| Language | English |
| Published |
Cham
Springer International Publishing
2019
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| Series | Lecture Notes in Computer Science |
| Subjects | |
| Online Access | Get full text |
| ISBN | 3030253317 9783030253318 |
| ISSN | 0302-9743 1611-3349 1611-3349 |
| DOI | 10.1007/978-3-030-25332-5_19 |
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| Abstract | Research in swarm robotics has shown that robot swarms are effective in the exploration of unknown environments. However, little work has been devoted to port the exploration capabilities of robot swarms into the context of mapping. Indeed, conceiving robot swarms that can map an unknown environment in a robust, scalable, and flexible way is an open issue. In this paper, we investigate a swarm mapping method in which robots first individually map the environment by random walk and then, we merge their maps into a single, global one. We focus on five variants of random walk and we compare the quality of the maps that a swarm produces when exploring the environment using these variants. Our experiments with ten e-puck robots show that, despite the individual maps being incomplete by themselves, it is possible to collectively map the environment by merging them. We found that the quality of the map depends on the exploration behavior of the individuals. Our results suggest that one of the variants of random walk, the ballistic motion, gives better mapping results for closed environments. |
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| AbstractList | Research in swarm robotics has shown that robot swarms are effective in the exploration of unknown environments. However, little work has been devoted to port the exploration capabilities of robot swarms into the context of mapping. Indeed, conceiving robot swarms that can map an unknown environment in a robust, scalable, and flexible way is an open issue. In this paper, we investigate a swarm mapping method in which robots first individually map the environment by random walk and then, we merge their maps into a single, global one. We focus on five variants of random walk and we compare the quality of the maps that a swarm produces when exploring the environment using these variants. Our experiments with ten e-puck robots show that, despite the individual maps being incomplete by themselves, it is possible to collectively map the environment by merging them. We found that the quality of the map depends on the exploration behavior of the individuals. Our results suggest that one of the variants of random walk, the ballistic motion, gives better mapping results for closed environments. |
| Author | Garzón Ramos, David Kegeleirs, Miquel Birattari, Mauro |
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| Copyright | Springer Nature Switzerland AG 2019 |
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| DOI | 10.1007/978-3-030-25332-5_19 |
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| Discipline | Computer Science |
| EISBN | 3030253325 9783030253325 |
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| Editor | Konstantinova, Jelizaveta Althoefer, Kaspar Zhang, Ketao |
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| EndPage | 222 |
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| Notes | All experiments were performed by MK and DGR. The article was drafted by MK and DGR and revised by the three authors. The research was directed by MB. The original version of this chapter was revised: The given name and the family name of the second author has been corrected. The correction to this chapter is available at 10.1007/978-3-030-25332-5_50 |
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| PublicationSubtitle | 20th Annual Conference, TAROS 2019, London, UK, July 3–5, 2019, Proceedings, Part II |
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| RelatedPersons | Hartmanis, Juris Gao, Wen Bertino, Elisa Woeginger, Gerhard Goos, Gerhard Steffen, Bernhard Yung, Moti |
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| Snippet | Research in swarm robotics has shown that robot swarms are effective in the exploration of unknown environments. However, little work has been devoted to port... |
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| SubjectTerms | Exploration Random walk Swarm mapping |
| Title | Random Walk Exploration for Swarm Mapping |
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