FILOSE for Svenning: A Flow Sensing Bioinspired Robot

FILOSE for Svenning: A Flow Sensing Bioinspired Robot

The trend of biomimetic underwater robots has emerged as a search for an alternative to traditional propeller-driven underwater vehicles. The drive of this trend, as in any other areas of bioinspired and biomimetic robotics, is the belief that exploiting solutions that evolution has already optimize...

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Veröffentlicht in:IEEE robotics & automation magazine 2014-09, Vol.21 (3), p.51-62
Hauptverfasser: Kruusmaa, Maarja, Fiorini, Paolo, Megill, William, de Vittorio, Massimo, Akanyeti, Otar, Visentin, Francesco, Chambers, Lily, El Daou, Hadi, Fiazza, Maria-Camilla, Jezov, Jaas, Listak, Madis, Rossi, Lorenzo, Salumae, Taavi, Toming, Gert, Venturelli, Roberto, Jung, David Samuel, Brown, Jennifer, Rizzi, Francesco, Qualtieri, Antonio, Maud, Jacqueline Lesley, Liszewski, Andrew
Format: Artikel
Sprache:eng
Schlagworte:
Biomimetics
Eels
Evolution
Fish
Hydrodynamics
Marine
Marine animals
Mathematical model
Robot sensing systems
Robotics
Robots
Trends
Tunas
Underwater equipment
Underwater robots
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Zusammenfassung:The trend of biomimetic underwater robots has emerged as a search for an alternative to traditional propeller-driven underwater vehicles. The drive of this trend, as in any other areas of bioinspired and biomimetic robotics, is the belief that exploiting solutions that evolution has already optimized leads to more advanced technologies and devices. In underwater robotics, bioinspired design is expected to offer more energy-efficient, highly maneuverable, agile, robust, and stable underwater robots. The 30,000 fish species have inspired roboticists to mimic tuna [1], rays [2], boxfish [3], eels [4], and others. The development of the first commercialized fish robot Ghostswimmer by Boston Engineering and the development of fish robots for field trials with specific applications in mind (http://www.roboshoal. com) mark a new degree of maturity of this engineering discipline after decades of laboratory trials.
ISSN:1070-9932
1558-223X
DOI:10.1109/MRA.2014.2322287