Titlebook: Bio-mechanisms of Swimming and Flying; Naomi Kato,Joseph Ayers,Hirohisa Morikawa Conference proceedings 2004 Springer Japan 2004 behaviora

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Efficiency of Biological and Artificial Gills,rence between the water and air. It enables humans to breathe under water, thereby extending the time that can be spent underwater, whether in scuba diving, sea rescue, sea exploration, or in a sea-bed city. It could help to achieve the dream of swimming like fish and living in the sea. In the earli

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,: Surrealist Horror from , to ,,gineering, bacterial swimming is an interesting subtopic of robotics and nano-mechanics since countless nano-machines made of bio-molecules are packed into 1 μm cells. In this paper, we present three exceptionally interesting facts about swimming bacteria, which have been known for the past decade.

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https://doi.org/10.1007/978-3-319-43053-9The author et al. formerly achieved the motion control of Paramecium by using the galvano-taxis. They also succeeded the rotation of micro impeller by using controlled Paramecium. The possibility of using protist as living micromachines was improved by these results. However, this method could not b

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https://doi.org/10.1007/978-3-319-43053-9 mechanisms modeled on eukaryotic flagellar and ciliary movements. For the propulsion mechanisms modeled on eukaryotic flagellar movement, we used the model of the active sliding of microtubules in eukaryotic flagella: active sliding between two rows of electromagnets on flexible beams corresponding

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Japanese Human Resource Managemente “direct” muscles) and the other has an indirect flight mechanism (wing driven by the “indirect” muscles). The latter is known as “constant wing vibration”. It is different from the asynchronous flight (wing driving) muscular contraction-relaxation frequency, although the precise mechanism is still

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