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INFORMATICALT
2000

Investigation of Dead-Point Situations in the Simulation of Wet Film Evolution

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Investigation of Dead-Point Situations in the Simulation of Wet Film Evolution
The result of simulation of an idealized thin wet film connecting fixed points in the Euclidean plane is a length-minimizing curve. Gradually increasing the exterior pressure we are able to achieve the film configuration near to the Steiner minimal tree. This film evolution may be an interesting tool for solving the Euclidean Steiner problem, but several dead-point situations may occur for a certain location of fixed points. A continuous evolution of the film is impossible by increasing the pressure in these situations. The investigation of dead-point situations gives the ways of overcoming the difficulties of dead-point situations and continuing the film evolution by temporarily decreasing pressure. Key words: optimization, Steiner problem, wet film, simulation.
Vydunas Saltenis
Added 18 Dec 2010
Updated 18 Dec 2010
Type Journal
Year 2000
Where INFORMATICALT
Authors Vydunas Saltenis
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