4 resultados para AM1 calculation
em Corvinus Research Archive - The institutional repository for the Corvinus University of Budapest
Resumo:
The Leontief input-output model is widely used to determine the ecological footprint of consumption in a region or a country. It is able to capture spillover environmental effects along the supply change, thus its popularity is increasing in ecology related economic research. These studies are static and the dynamic investigations are neglected. The dynamic Leontief model makes it possible to involve the capital and inventory investment in the footprint calculation that projects future growth of GDP and environmental impacts. We show a new calculation method to determine the effect of capital accumulation on ecological footprint. Keywords: Dynamic Leontief model, Dynamic ecological footprint, Environmental management, Allocation method
Resumo:
A Szolvencia II néven említett új irányelv elfogadása az Európai Unióban új helyzetet teremt a biztosítók tőkeszükséglet-számításánál. A tanulmány a biztosítók működését modellezve azt elemzi, hogyan hatnak a biztosítók állományának egyes jellemzői a tőkeszükséglet értékére egy olyan elméleti modellben, amelyben a tőkeszükséglet-értékek a Szolvencia II szabályok alapján számolhatók. A modellben biztosítási illetve pénzügyi kockázati "modul" figyelembevételére kerül sor külön-külön számolással, illetve a két kockázatfajta közös modellben való együttes figyelembevételével (a Szolvencia II eredményekkel való összehasonlításhoz). Az elméleti eredmények alapján megállapítható, hogy a tőkeszükségletre vonatkozóan számolható értékek eltérhetnek e két esetben. Az eredmények alapján lehetőség van az eltérések hátterében álló tényezők tanulmányozására is. ____ The new Solvency II directive results in a new environment for calculating the solvency capital requirement of insurance companies in the European Union. By modelling insurance companies the study analyses the impact of certain characteristics of insurance population on the solvency capital based on Solvency II rules. The model includes insurance and financial risk module by calculating solvency capital for the given risk types separately and together, respectively. Based on the theoretical results the difference between these two approaches can be observed. Based on the results the analysis of factors in°uencing the differences is also possible.
Resumo:
The aim of this paper is to build the stated preference method into the social discount rate methodology. The first part of the paper presents the results of a survey about stated time preferences through pair-choice decision situations for various topics and time horizons. It is assumed that stated time preferences differ from calculated time preferences and that the extent of stated rates depends on the time period, and on how much respondents are financially and emotionally involved in the transactions. A significant question remains: how can the gap between the calculation and the results of surveys be resolved, and how can the real time preferences of individuals be interpreted using a social time preference rate. The second part of the paper estimates the social time preference rate for Hungary using the results of the survey, while paying special attention to the pure time preference component. The results suggest that the current method of calculation of the pure time preference rate does not reflect the real attitudes of individuals towards future generations.