Publications-Journal Articles

Article View/Open

Publication Export

Google ScholarTM

NCCU Library

Citation Infomation

Related Publications in TAIR

題名 自然科學模型在空間交互行為分析之應用
其他題名 The Interaction of Natural Science Models In Spatial Interaction Behavior
作者 陳心蘋
Chen, Hsin-Ping
貢獻者 經濟系
關鍵詞 熱力學;重力定理;混沌
Entropy;Gravity;Chaos
日期 1999-12
上傳時間 12-Dec-2016 16:56:05 (UTC+8)
摘要 本文簡要系統地介紹區域科學裏空間交互行為分析中常被應用的自然科學模型之間縱向與橫向的相互關係。包括靜態的熱力學之Entropy概念與重力定理,以及動態的生態基礎成長模型、logit模型和空間競爭模型間的相關性與在區域科學上的應用。最後並探討前述動態模型中之混沌特性與非線性之相關。
This paper serves three purposes. First, it gives a systematic review of interactions between some natural science concepts and regional science phenomena in both static and dynamic states. Second, it aims to understand why non-linear feature is crucial in the emergence of chaotic behavior. What role does "non-linear" play in a chaotic dynamic system? And finally, simulating the non-linear dynamic system to observe its features. This review shows that maximum entropy concept can be applied in the spatial interaction model, and result in a gravity type model; based on this gravity model, a logit discrete choice model is followed; consequently, a dynamic logit model will generate a logistic type growth model. It shows that these biological or physical based models are correlated and correspond to regional phenomena. From optimal entropy to generated dynamic logit model, they are vertically related.Horizontally, each natural science model interprets certain regional science phenomenon. Simulation results show that non-linear dynamic system is not only able to perform all regular trajectories of linear dynamic system, but also perform non-periodic irregular motion patterns given different initial conditions. The chaotic systems do not cause different irregular trajectories given the same initial conditions and parameter values. The "stochastic" term in describing chaotic behavior refers to its unpredictable and random time series path. Also, non-periodic evolution is extremely sensitive depending on the initial conditions. Non-linear is the necessary condition for the emergence of chaos; the level of parameter value is the sufficient condition for chaotic dynamic system.
關聯 國立政治大學學報,79part2,99-129
資料類型 article
dc.contributor 經濟系
dc.creator (作者) 陳心蘋zh_TW
dc.creator (作者) Chen, Hsin-Ping
dc.date (日期) 1999-12
dc.date.accessioned 12-Dec-2016 16:56:05 (UTC+8)-
dc.date.available 12-Dec-2016 16:56:05 (UTC+8)-
dc.date.issued (上傳時間) 12-Dec-2016 16:56:05 (UTC+8)-
dc.identifier.uri (URI) http://nccur.lib.nccu.edu.tw/handle/140.119/104817-
dc.description.abstract (摘要) 本文簡要系統地介紹區域科學裏空間交互行為分析中常被應用的自然科學模型之間縱向與橫向的相互關係。包括靜態的熱力學之Entropy概念與重力定理,以及動態的生態基礎成長模型、logit模型和空間競爭模型間的相關性與在區域科學上的應用。最後並探討前述動態模型中之混沌特性與非線性之相關。
dc.description.abstract (摘要) This paper serves three purposes. First, it gives a systematic review of interactions between some natural science concepts and regional science phenomena in both static and dynamic states. Second, it aims to understand why non-linear feature is crucial in the emergence of chaotic behavior. What role does "non-linear" play in a chaotic dynamic system? And finally, simulating the non-linear dynamic system to observe its features. This review shows that maximum entropy concept can be applied in the spatial interaction model, and result in a gravity type model; based on this gravity model, a logit discrete choice model is followed; consequently, a dynamic logit model will generate a logistic type growth model. It shows that these biological or physical based models are correlated and correspond to regional phenomena. From optimal entropy to generated dynamic logit model, they are vertically related.Horizontally, each natural science model interprets certain regional science phenomenon. Simulation results show that non-linear dynamic system is not only able to perform all regular trajectories of linear dynamic system, but also perform non-periodic irregular motion patterns given different initial conditions. The chaotic systems do not cause different irregular trajectories given the same initial conditions and parameter values. The "stochastic" term in describing chaotic behavior refers to its unpredictable and random time series path. Also, non-periodic evolution is extremely sensitive depending on the initial conditions. Non-linear is the necessary condition for the emergence of chaos; the level of parameter value is the sufficient condition for chaotic dynamic system.
dc.format.extent 1823721 bytes-
dc.format.mimetype application/pdf-
dc.relation (關聯) 國立政治大學學報,79part2,99-129
dc.subject (關鍵詞) 熱力學;重力定理;混沌
dc.subject (關鍵詞) Entropy;Gravity;Chaos
dc.title (題名) 自然科學模型在空間交互行為分析之應用zh_TW
dc.title.alternative (其他題名) The Interaction of Natural Science Models In Spatial Interaction Behavior
dc.type (資料類型) article