Verlagslink DOI: 10.3389/fnbot.2022.846355
Titel: Miniature autonomy as means to find new approaches in reliable autonomous driving AI method design
Sprache: Englisch
Autorenschaft: Tiedemann, Tim 
Schwalb, Luk 
Kasten, Markus 
Grotkasten, Robin 
Pareigis, Stephan  
Herausgeber*In: Yamazaki-Skov, Ryuji 
Schlagwörter: autonomy; evaluation; machine learning; miniature autonomy; physical tests; simulation
Erscheinungsdatum: 2022
Verlag: Frontiers Research Foundation
Quellenangabe: article number : 846355
Zeitschrift oder Schriftenreihe: Frontiers in neurorobotics 
Zeitschriftenband: 16
Zusammenfassung: 
Artificial Intelligence (AI) methods need to be evaluated thoroughly to ensure reliable behavior. In applications like autonomous driving, a complex environment with an uncountable number of different situations and conditions needs to be handled by a method whose behavior needs to be predictable. To accomplish this, simulations can be used as a first step. However, the physical world behaves differently, as the example of autonomous driving shows. There, erroneous behavior has been found in test drives that was not noticed in simulations. Errors were caused by conditions or situations that were not covered by the simulations (e.g., specific lighting conditions or other vehicle's behavior). However, the problem with real world testing of autonomous driving features is that critical conditions or situations occur very rarely-while the test effort is high. A solution can be the combination of physical world tests and simulations-and miniature vehicles as an intermediate step between both. With model cars (in a sufficiently complex model environment) advantages of both can be combined: (1) low test effort and a repeatable variation of conditions/situations as an advantage like in simulations and (2) (limited) physical world testing with unspecified and potentially unknown properties as an advantage like in real-world tests. Additionally, such physical tests can be carried out in less stable cases like already in the early stages of AI method testing and/or in approaches using online learning. Now, we propose to use a) miniature vehicles at a small scale of 1:87 and b) use sensors and computational power only on the vehicle itself. By this limitation, a further consequence is expected: Here, autonomy methods need to be optimized drastically or even redesigned from scratch. The resulting methods are supposed to be less complex-and, thus, again less error-prone. We call this approach "Miniature Autonomy" and apply it to the road, water, and aerial vehicles. In this article, we briefly describe a small test area we built (3 sqm.), a large test area used alternatively (1,545 sqm.), two last generation autonomous miniature vehicles (one road, one aerial vehicle), and an autonomous driving demo case demonstrating the application.
URI: http://hdl.handle.net/20.500.12738/13235
ISSN: 1662-5218
Einrichtung: Forschungs- und Transferzentrum Smart Systems 
Department Informatik 
Fakultät Technik und Informatik 
Dokumenttyp: Zeitschriftenbeitrag
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