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The Impact of Foreign Exchange Fluctuation on Taiwan Listed Firm Strategy and Economic Exposure / 外匯波動對企業策略與經濟風險影響之研究-以台灣為例吳彥臻, Wu,Jenny Yen-Chen Unknown Date (has links)
本篇論文從不同公司策略,以月資料來探討台灣532家上市公司在1999~2004年之公司對匯率風險曝露的敏感度,並以六十個月各上市公司股價報酬率為依變數,與台灣最大十五個貿易夥伴的匯率資料為自變數橫斷面資料,進行匯率風險對股價報酬關係之檢定。與之前實證研究不同之處是,本研究是利用多種貨幣模型來解釋各股價報酬,非只有一個貨幣當作唯一的指標。實證結果發現尚未加進大盤指數為控制變數時,只有0.93%受匯率風險暴露,反之,加進大盤指數之後,受到匯率風險的公司增加到88.2%。以公司策略及產業角度來看,結果顯示當公司外銷比例越大,此公司承受的經濟風險會越高。 / The purpose of this empirical study is to investigate sensitivity of company values to fluctuation in foreign exchange rates. Distinguishing from the previous research, this study employs a multiple currency proxy model to estimate firm’s exposures instead of using a single currency model.
The research sample includes all Taiwan listed firms’ data for the period from 1999 to 2004. The empirical evidence from Taiwan listed firms indicates that 85.3 to 88.2 percent of firms are exposed to foreign exchange rate movements when market return control variable is included in the regression. A small percentage of firms are exposed to the foreign exchange rate movements with exclusion of the control variable. Results from ordinary least square analyses reveal that export intensity increases economic exposure to fluctuation of foreign exchange rate.
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Prediction of reservoir properties of the N-sand, vermilion block 50, Gulf of Mexico, from multivariate seismic attributesJaradat, Rasheed Abdelkareem 29 August 2005 (has links)
The quantitative estimation of reservoir properties directly from seismic data is a major goal of reservoir characterization. Integrated reservoir characterization makes use of different varieties of well and seismic data to construct detailed spatial estimates of petrophysical and fluid reservoir properties. The advantage of data integration is the generation of consistent and accurate reservoir models that can be used for reservoir optimization, management and development. This is particularly valuable in mature field settings where hydrocarbons are known to exist but their exact location, pay, lateral variations and other properties are poorly defined. Recent approaches of reservoir characterization make use of individual seismic attributes to estimate inter-well reservoir properties. However, these attributes share a considerable amount of information among them and can lead to spurious correlations. An alternative approach is to evaluate reservoir properties using multiple seismic attributes. This study reports the results of an investigation of the use of multivariate seismic attributes to predict lateral reservoir properties of gross thickness, net thickness, gross effective porosity, net-to-gross ratio and net reservoir porosity thickness product. This approach uses principal component analysis and principal factor analysis to transform eighteen relatively correlated original seismic attributes into a set of mutually orthogonal or independent PC??s and PF??s which are designated as multivariate seismic attributes. Data from the N-sand interval of Vermilion Block 50 field, Gulf of Mexico, was used in this study. Multivariate analyses produced eighteen PC??s and three PF??s grid maps. A collocated cokriging geostaistical technique was used to estimate the spatial distribution of reservoir properties of eighteen wells penetrating the N-sand interval. Reservoir property maps generated by using multivariate seismic attributes yield highly accurate predictions of reservoir properties when compared to predictions produced with original individual seismic attributes. To the contrary of the original seismic attribute results, predicted reservoir properties of the multivariate seismic attributes honor the lateral geological heterogeneities imbedded within seismic data and strongly maintain the proposed geological model of the N-sand interval. Results suggest that multivariate seismic attribute technique can be used to predict various reservoir properties and can be applied to a wide variety of geological and geophysical settings.
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Prediction of reservoir properties of the N-sand, vermilion block 50, Gulf of Mexico, from multivariate seismic attributesJaradat, Rasheed Abdelkareem 29 August 2005 (has links)
The quantitative estimation of reservoir properties directly from seismic data is a major goal of reservoir characterization. Integrated reservoir characterization makes use of different varieties of well and seismic data to construct detailed spatial estimates of petrophysical and fluid reservoir properties. The advantage of data integration is the generation of consistent and accurate reservoir models that can be used for reservoir optimization, management and development. This is particularly valuable in mature field settings where hydrocarbons are known to exist but their exact location, pay, lateral variations and other properties are poorly defined. Recent approaches of reservoir characterization make use of individual seismic attributes to estimate inter-well reservoir properties. However, these attributes share a considerable amount of information among them and can lead to spurious correlations. An alternative approach is to evaluate reservoir properties using multiple seismic attributes. This study reports the results of an investigation of the use of multivariate seismic attributes to predict lateral reservoir properties of gross thickness, net thickness, gross effective porosity, net-to-gross ratio and net reservoir porosity thickness product. This approach uses principal component analysis and principal factor analysis to transform eighteen relatively correlated original seismic attributes into a set of mutually orthogonal or independent PC??s and PF??s which are designated as multivariate seismic attributes. Data from the N-sand interval of Vermilion Block 50 field, Gulf of Mexico, was used in this study. Multivariate analyses produced eighteen PC??s and three PF??s grid maps. A collocated cokriging geostaistical technique was used to estimate the spatial distribution of reservoir properties of eighteen wells penetrating the N-sand interval. Reservoir property maps generated by using multivariate seismic attributes yield highly accurate predictions of reservoir properties when compared to predictions produced with original individual seismic attributes. To the contrary of the original seismic attribute results, predicted reservoir properties of the multivariate seismic attributes honor the lateral geological heterogeneities imbedded within seismic data and strongly maintain the proposed geological model of the N-sand interval. Results suggest that multivariate seismic attribute technique can be used to predict various reservoir properties and can be applied to a wide variety of geological and geophysical settings.
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