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題名 S2NPGR2 和S3PGR2的僵局控制
其他題名 Deadlock Control for S2NPGR2 and S3PGR2
作者 趙玉
貢獻者 政治大學資訊管理系
行政院國家科學委員會
關鍵詞 僵局;控制;預防;活的;虹吸管
日期 2006
上傳時間 30-八月-2012 15:49:50 (UTC+8)
摘要 當今S3PGR2 的僵局控制受苦於基於致命標記的虹吸管之錯誤活性(liveness)特 徵化。 我們的93 &94 計劃發現非活過渡(transitions) 可能存在,即使沒有致命標記。 那就是在沒有致命標記下,這網模可能是弱活或者在活鎖(livelock)狀況下。這在一種 新liveness 條件下這網模是活的︰ 全部siphons 都必須是max』-controlled。 為了確立 我們在此領域的領先地位,本計劃將以類似於S3PR 的方式,對S3PGR2 藉著增加控制 節點和電弧來作僵局控制。更進一步,李等人提議適合S3PR 的一僵局預防方法。此法 僅對所謂初等虹吸管增加控制節點和電弧,因此大大降低架構的複雜性。 不過,怎樣 把它延長到S3PGR2 和S2CPGR2,迄今是不清楚的,並且沒被研究。 我們提議開拓這 樣的研究。
Current deadlock control approaches for S3PGR2 suffers from incorrect liveness characterization based on the concept of deadly marked siphons (DMS). Our 93&94 proposals discover that nonlive transitions may exist even though there are no DMS. That is the net model may be weakly live or in livelock states under no DMS. It is live under a new liveness condition: all siphons must be max』-controlled. We propose to consolidate our leading position by further working out the deadlock control for S3PGR2 (systems of simple sequential processes with general resources requirement) by adding control nodes and arcs similar to that for S3PR. Next we will extend it to S2CPGR2 ((systems of Synchronized Choice processes with general resources requirement)). Further, Li et. al. proposed a deadlock prevention approach for S3PR to add control nodes and arcs for elementary siphons only greatly reducing the structural complexity. However, it is unclear how to extend it to S3PGR2 and S2CPGR2 and have not been studied so far. We propose to pioneer such study. Abstract: deadlock control prevention live siphons
關聯 基礎研究
學術補助
研究期間:9508 ~ 9607
研究經費:213仟元
資料類型 report
dc.contributor 政治大學資訊管理系en_US
dc.contributor 行政院國家科學委員會en_US
dc.creator (作者) 趙玉zh_TW
dc.date (日期) 2006en_US
dc.date.accessioned 30-八月-2012 15:49:50 (UTC+8)-
dc.date.available 30-八月-2012 15:49:50 (UTC+8)-
dc.date.issued (上傳時間) 30-八月-2012 15:49:50 (UTC+8)-
dc.identifier.uri (URI) http://nccur.lib.nccu.edu.tw/handle/140.119/53457-
dc.description.abstract (摘要) 當今S3PGR2 的僵局控制受苦於基於致命標記的虹吸管之錯誤活性(liveness)特 徵化。 我們的93 &94 計劃發現非活過渡(transitions) 可能存在,即使沒有致命標記。 那就是在沒有致命標記下,這網模可能是弱活或者在活鎖(livelock)狀況下。這在一種 新liveness 條件下這網模是活的︰ 全部siphons 都必須是max』-controlled。 為了確立 我們在此領域的領先地位,本計劃將以類似於S3PR 的方式,對S3PGR2 藉著增加控制 節點和電弧來作僵局控制。更進一步,李等人提議適合S3PR 的一僵局預防方法。此法 僅對所謂初等虹吸管增加控制節點和電弧,因此大大降低架構的複雜性。 不過,怎樣 把它延長到S3PGR2 和S2CPGR2,迄今是不清楚的,並且沒被研究。 我們提議開拓這 樣的研究。en_US
dc.description.abstract (摘要) Current deadlock control approaches for S3PGR2 suffers from incorrect liveness characterization based on the concept of deadly marked siphons (DMS). Our 93&94 proposals discover that nonlive transitions may exist even though there are no DMS. That is the net model may be weakly live or in livelock states under no DMS. It is live under a new liveness condition: all siphons must be max』-controlled. We propose to consolidate our leading position by further working out the deadlock control for S3PGR2 (systems of simple sequential processes with general resources requirement) by adding control nodes and arcs similar to that for S3PR. Next we will extend it to S2CPGR2 ((systems of Synchronized Choice processes with general resources requirement)). Further, Li et. al. proposed a deadlock prevention approach for S3PR to add control nodes and arcs for elementary siphons only greatly reducing the structural complexity. However, it is unclear how to extend it to S3PGR2 and S2CPGR2 and have not been studied so far. We propose to pioneer such study. Abstract: deadlock control prevention live siphonsen_US
dc.language.iso en_US-
dc.relation (關聯) 基礎研究en_US
dc.relation (關聯) 學術補助en_US
dc.relation (關聯) 研究期間:9508 ~ 9607en_US
dc.relation (關聯) 研究經費:213仟元en_US
dc.subject (關鍵詞) 僵局;控制;預防;活的;虹吸管en_US
dc.title (題名) S2NPGR2 和S3PGR2的僵局控制en_US
dc.title.alternative (其他題名) Deadlock Control for S2NPGR2 and S3PGR2en_US
dc.type (資料類型) reporten