Grasshopper

algorithmic modeling for Rhino

I want to divid a circle surface into 6 pieces which areas are the same,but the result is not what i want,the attachment is my defintion, , so what is wrong with it.Thank you very much

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Hi,

you basically just ran it for four generations. If you increase the runtime, results get significantly better - 20 to 50 generations will yield a very good approximation already.

Also, for this problem, a low mutation rate and high elitism are beneficial - see attached!

The only thing with Octopus is that it does not have a viewport to show an arbitrary number of objectives of the solution space. I ll try to add an alternative viewport as a 2D chart which shows all goal dimensions of the solutions.

Best,

Robert

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Thank you for your answer,I have another question ,is the green cube that most close to the orgin the best solution? 

I you are optimizing for 5 dimensions, the biggest, greenest cube nearest to the origin is the one which is most balanced between the objectives, an average trade-off. but this always depends on the solutions' distribution in the different objective dimensions. in that regard, for this problem, yes this would be one of the best trade-offs. BUT as you have 6 goal dimensions there is one missing - so in the viewport (for now) you dont really see a one-time-picture representation of the solution space.

you could bypass this by exporting the solutions to text files and import them to grasshopper with octopus.e - then make yourself a custom solution space graph just as the gene-display in octopus - with one axe for each objective. as said i plan to implement this into octopus soon.

best

Robert

Thank you very much.I'll try

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