Self-organizing innovation networks: when do small worlds emerge?. Carayol, N. & Roux, P. 2003. 00000 bibtex*:CarayolSelforganizinginnovationnetworks2003abstract bibtex In this paper, we present a model of ‘collective innovation’ built upon the network formation formalism. In our model, agents localized on a circle benefitfrom knowledgeflows from other agents with whom they are directly or indirectly connected. They support costs for direct con-nections which are linearly increasing with geographic distance. The dy-namic process of network formation exhibits preferential meeting for close agents (in the relational network and in the geographic metrics). We show how the set of stochastically stable networks selected in the long run is affected by the degree of knowledge transferability. Wefind critical values of this parameter for which stable “small world” networks are dynamically selected.
@article{carayol_self-organizing_2003,
title = {Self-organizing innovation networks: when do small worlds emerge?},
abstract = {In this paper, we present a model of ‘collective innovation’ built upon the network formation formalism. In our model, agents localized on a circle benefitfrom knowledgeflows from other agents with whom they are directly or indirectly connected. They support costs for direct con-nections which are linearly increasing with geographic distance. The dy-namic process of network formation exhibits preferential meeting for close agents (in the relational network and in the geographic metrics). We show how the set of stochastically stable networks selected in the long run is affected by the degree of knowledge transferability. Wefind critical values of this parameter for which stable “small world” networks are dynamically selected.},
author = {Carayol, Nicolas and Roux, Pascale},
year = {2003},
note = {00000
bibtex*:CarayolSelforganizinginnovationnetworks2003},
keywords = {formação de rede, inovação},
pages = {1 -- 24},
}
Downloads: 0
{"_id":"jYNiCRQK5FPDW3wuP","bibbaseid":"carayol-roux-selforganizinginnovationnetworkswhendosmallworldsemerge-2003","author_short":["Carayol, N.","Roux, P."],"bibdata":{"bibtype":"article","type":"article","title":"Self-organizing innovation networks: when do small worlds emerge?","abstract":"In this paper, we present a model of ‘collective innovation’ built upon the network formation formalism. In our model, agents localized on a circle benefitfrom knowledgeflows from other agents with whom they are directly or indirectly connected. They support costs for direct con-nections which are linearly increasing with geographic distance. The dy-namic process of network formation exhibits preferential meeting for close agents (in the relational network and in the geographic metrics). We show how the set of stochastically stable networks selected in the long run is affected by the degree of knowledge transferability. Wefind critical values of this parameter for which stable “small world” networks are dynamically selected.","author":[{"propositions":[],"lastnames":["Carayol"],"firstnames":["Nicolas"],"suffixes":[]},{"propositions":[],"lastnames":["Roux"],"firstnames":["Pascale"],"suffixes":[]}],"year":"2003","note":"00000 bibtex*:CarayolSelforganizinginnovationnetworks2003","keywords":"formação de rede, inovação","pages":"1 – 24","bibtex":"@article{carayol_self-organizing_2003,\n\ttitle = {Self-organizing innovation networks: when do small worlds emerge?},\n\tabstract = {In this paper, we present a model of ‘collective innovation’ built upon the network formation formalism. In our model, agents localized on a circle benefitfrom knowledgeflows from other agents with whom they are directly or indirectly connected. They support costs for direct con-nections which are linearly increasing with geographic distance. The dy-namic process of network formation exhibits preferential meeting for close agents (in the relational network and in the geographic metrics). We show how the set of stochastically stable networks selected in the long run is affected by the degree of knowledge transferability. Wefind critical values of this parameter for which stable “small world” networks are dynamically selected.},\n\tauthor = {Carayol, Nicolas and Roux, Pascale},\n\tyear = {2003},\n\tnote = {00000\nbibtex*:CarayolSelforganizinginnovationnetworks2003},\n\tkeywords = {formação de rede, inovação},\n\tpages = {1 -- 24},\n}\n\n","author_short":["Carayol, N.","Roux, P."],"key":"carayol_self-organizing_2003","id":"carayol_self-organizing_2003","bibbaseid":"carayol-roux-selforganizinginnovationnetworkswhendosmallworldsemerge-2003","role":"author","urls":{},"keyword":["formação de rede","inovação"],"metadata":{"authorlinks":{}},"html":""},"bibtype":"article","biburl":"https://bibbase.org/zotero/brunocpt","dataSources":["9N7FyBLqJ5Q2Suqzs"],"keywords":["formação de rede","inovação"],"search_terms":["self","organizing","innovation","networks","small","worlds","emerge","carayol","roux"],"title":"Self-organizing innovation networks: when do small worlds emerge?","year":2003}