TopDown vs BottomUp: Difference between revisions

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New page: Kevin Kelly has written an interesting post about the balance of bottom-up processes and top-down control. He emphasizes a balanced combination of bottom-up contributions and top-down con...
 
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Kevin Kelly has written an interesting post about
Kevin Kelly has written an interesting  
[http://www.kk.org/thetechnium/archives/2008/02/the_bottom_is_n.php post] about
the balance of bottom-up processes and top-down control.
the balance of bottom-up processes and top-down control.
He emphasizes a balanced combination of bottom-up  
He emphasizes a balanced combination of bottom-up  
Line 5: Line 6:
what you need to engineer self-organizing systems.  
what you need to engineer self-organizing systems.  


The engineering of self-organizing systems is a  
The [[ESOS|engineering of self-organizing systems]] is a  
contradiction in itself: how can you organize something  
contradiction in itself: how can you organize something  
which organizes itself? If we want to build a  
which organizes itself? If we want to build a  

Revision as of 16:39, 2 October 2008

Kevin Kelly has written an interesting post about the balance of bottom-up processes and top-down control. He emphasizes a balanced combination of bottom-up contributions and top-down control, and this is in fact what you need to engineer self-organizing systems.

The engineering of self-organizing systems is a contradiction in itself: how can you organize something which organizes itself? If we want to build a self-organizing system with autonomous agents, then how can we ensure the function ? Agents do by defintion what they want. How can you construct a self-organizing system?

The answer is: in a balanced, iterative process which combines top-down analysis with bottom-up simulation, where we step by step define the 'rules of the game'. The bottom-up process is needed ensure diversity (innovative, random, surprising elements). The top-down process ensure unity (e.g. function, quality and goal-orientation). Together they form a cyclic round-trip process, which can be named synthetic microanalysis. This is nothing else but the scientific method applied to engineering.

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