Difference between revisions of "Grid Seasteading, Tissue seasteading, The flexible seastead grid, wave dampening by flexible cover"
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+ | Grid seasteading employs a modular stategy and is based on the idea that seasteads should cover wide horizontal water spaces in a flexible way. The modular strategy is generally implemented in the horizontal plane. The low freeboard in a large rigid structure is a potential problem at sea with high amplitude waves. As such, a flexible structure and/or breakwater of some type are required. The concept is mimics natural examples like a field of kelp or a floating vegetation island, having buoyancy as dominating structural support. | ||
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See: | See: | ||
− | + | *[http://seasteading.org/interact/forums/engineering/structure-designs/the-seastar-platform Seastar Platform] | |
− | [http://seasteading.org/interact/forums/engineering/structure-designs/the-seastar-platform Seastar Platform | + | *[http://en.wikipedia.org/wiki/Floating_island Uru vegetation islands] |
+ | *[http://en.wikipedia.org/wiki/Spiral_Island Plastic Bottle Island] | ||
+ | *[http://xmaran.org Xmaran] |
Latest revision as of 01:57, 21 June 2010
Grid seasteading employs a modular stategy and is based on the idea that seasteads should cover wide horizontal water spaces in a flexible way. The modular strategy is generally implemented in the horizontal plane. The low freeboard in a large rigid structure is a potential problem at sea with high amplitude waves. As such, a flexible structure and/or breakwater of some type are required. The concept is mimics natural examples like a field of kelp or a floating vegetation island, having buoyancy as dominating structural support.
See: