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題名	Maximal Class of Weakly Live Ordinary Petri Nets Without Emptiable Siphons
作者	趙玉 Chao,Daniel Yuh
日期	2006-12
上傳時間	17-Jan-2009 15:59:41 (UTC+8)
摘要	This paper shows how self-mechanisms give rise to complex but predictable and therefore steerable global system behavior in a cooperative computing environment. The operation of and the interactions between a set of networked autonomic devices are simulated. These are used as access points to a number of services, have the ability to accept or delegate execution of the associated tasks, and can adjust their internal state in response to the demand. At initialization, all devices are assigned a random internal state, i.e., there is no correlation between their configuration and the tasks that they are expected to perform. The authors study the emergence of cooperation and find that it spontaneously occurs when specific conditions are met, which allow individual devices to focus on performing a single task, sacrificing their ability to efficiently perform others. A relatively simple model that can be completely and thoroughly analyzed was chosen so as to demonstrate how the methodology developed to study complex adaptive systems in biology can be a powerful tool when planning the deployment of large ensembles of interacting autonomic devices
關聯	IEEE transactions on systems, man, and cybernetics.Part B,36(6), 1332-1341
資料類型	article
DOI	http://dx.doi.org/10.1109/TSMCB.2006.875864

dc.creator (作者)	趙玉	zh_TW
dc.creator (作者)	Chao,Daniel Yuh	-
dc.date (日期)	2006-12	en_US
dc.date.accessioned	17-Jan-2009 15:59:41 (UTC+8)	-
dc.date.available	17-Jan-2009 15:59:41 (UTC+8)	-
dc.date.issued (上傳時間)	17-Jan-2009 15:59:41 (UTC+8)	-
dc.identifier.uri (URI)	https://nccur.lib.nccu.edu.tw/handle/140.119/26985	-
dc.description.abstract (摘要)	This paper shows how self-mechanisms give rise to complex but predictable and therefore steerable global system behavior in a cooperative computing environment. The operation of and the interactions between a set of networked autonomic devices are simulated. These are used as access points to a number of services, have the ability to accept or delegate execution of the associated tasks, and can adjust their internal state in response to the demand. At initialization, all devices are assigned a random internal state, i.e., there is no correlation between their configuration and the tasks that they are expected to perform. The authors study the emergence of cooperation and find that it spontaneously occurs when specific conditions are met, which allow individual devices to focus on performing a single task, sacrificing their ability to efficiently perform others. A relatively simple model that can be completely and thoroughly analyzed was chosen so as to demonstrate how the methodology developed to study complex adaptive systems in biology can be a powerful tool when planning the deployment of large ensembles of interacting autonomic devices	-
dc.format	application/	en_US
dc.language	en	en_US
dc.language	en-US	en_US
dc.language.iso	en_US	-
dc.relation (關聯)	IEEE transactions on systems, man, and cybernetics.Part B,36(6), 1332-1341	en_US
dc.title (題名)	Maximal Class of Weakly Live Ordinary Petri Nets Without Emptiable Siphons	en_US
dc.type (資料類型)	article	en
dc.identifier.doi (DOI)	10.1109/TSMCB.2006.875864	en_US
dc.doi.uri (DOI)	http://dx.doi.org/10.1109/TSMCB.2006.875864	en_US