On testing and forecasting in fractionally integrated time series models /

Andersson, Michael K.,

January 1900

Diss. Stockholm : Handelshögsk.

Long memory.

High Quantile Estimation for some Stochastic Volatility Models

Luo, Ling

05 October 2011

In this thesis we consider estimation of the tail index for heavy tailed stochastic volatility models with long memory. We prove a central limit theorem for a Hill estimator. In particular, it is shown that neither the rate of convergence nor the asymptotic variance is affected by long memory. The theoretical findings are verified by simulation studies.

stochastic volatility

long memory

High Quantile Estimation for some Stochastic Volatility Models

Luo, Ling

05 October 2011

In this thesis we consider estimation of the tail index for heavy tailed stochastic volatility models with long memory. We prove a central limit theorem for a Hill estimator. In particular, it is shown that neither the rate of convergence nor the asymptotic variance is affected by long memory. The theoretical findings are verified by simulation studies.

stochastic volatility

long memory

High Quantile Estimation for some Stochastic Volatility Models

Luo, Ling

05 October 2011

In this thesis we consider estimation of the tail index for heavy tailed stochastic volatility models with long memory. We prove a central limit theorem for a Hill estimator. In particular, it is shown that neither the rate of convergence nor the asymptotic variance is affected by long memory. The theoretical findings are verified by simulation studies.

stochastic volatility

long memory

High Quantile Estimation for some Stochastic Volatility Models

Luo, Ling

January 2011

In this thesis we consider estimation of the tail index for heavy tailed stochastic volatility models with long memory. We prove a central limit theorem for a Hill estimator. In particular, it is shown that neither the rate of convergence nor the asymptotic variance is affected by long memory. The theoretical findings are verified by simulation studies.

stochastic volatility

long memory

Robust Methods of Testing Long Range

Wang, Li

January 2007

This thesis develops a novel robust periodogram method for detecting long memory. Though many test for long memory are based on the idea of linear regression, there exists no results in statistical literature on utilizing the robust regression methodology for detection of long memory. The advantage of the robust regression is a substantially less sensitivity to atypical observations or outliers, compared to the classical regression that is based on the least squares method. The thesis suggests two versions of the robust periodogram methods based on the least quan- tile and the least trimmed methods. The new robust periodogram methods are shown to provide smaller bias in long memory estimation when compared with the classical periodogram method. However, variability of estimation is increased. Therefore, we develop the bootstrapped modification of the new robust periodogram methods to reduce variability of estimation. The new bootstrapped modi¯cations of the robust periodogram tests substantially reduce variance of estimation and provides a competitively low bias. All proposed robust methods are illustrated by simulations and the case studies on currency exchange rates, and comparative analysis with other existing tests for long memory is carried out.

long memory

time series

Statistics

Robust Methods of Testing Long Range

Wang, Li

January 2007

This thesis develops a novel robust periodogram method for detecting long memory. Though many test for long memory are based on the idea of linear regression, there exists no results in statistical literature on utilizing the robust regression methodology for detection of long memory. The advantage of the robust regression is a substantially less sensitivity to atypical observations or outliers, compared to the classical regression that is based on the least squares method. The thesis suggests two versions of the robust periodogram methods based on the least quan- tile and the least trimmed methods. The new robust periodogram methods are shown to provide smaller bias in long memory estimation when compared with the classical periodogram method. However, variability of estimation is increased. Therefore, we develop the bootstrapped modification of the new robust periodogram methods to reduce variability of estimation. The new bootstrapped modi¯cations of the robust periodogram tests substantially reduce variance of estimation and provides a competitively low bias. All proposed robust methods are illustrated by simulations and the case studies on currency exchange rates, and comparative analysis with other existing tests for long memory is carried out.

long memory

time series

Statistics

Option Pricing with Long Memory Stochastic Volatility Models

Tong, Zhigang

06 November 2012

In this thesis, we propose two continuous time stochastic volatility models with long memory that generalize two existing models. More importantly, we provide analytical formulae that allow us to study option prices numerically, rather than by means of simulation. We are not aware about analytical results in continuous time long memory case. In both models, we allow for the non-zero correlation between the stochastic volatility and stock price processes. We numerically study the effects of long memory on the option prices. We show that the fractional integration parameter has the opposite effect to that of volatility of volatility parameter in short memory models. We also find that long memory models have the potential to accommodate the short term options and the decay of volatility skew better than the corresponding short memory stochastic volatility models.

Long Memory

Option Pricing

Stochastic Volatility

Essays on trading strategies and long memory

Rambaccussing, Dooruj

January 2012

Present value based asset pricing models are explored empirically in this thesis. Three contributions are made. First, it is shown that a market timing strategy may be implemented in an excessively volatile market such as the S&P500. The main premise of the strategy is that asset prices may revert to the present value over time. The present value is computed in real-time where the present value variables (future dividends, dividend growth and the discount factor) are forecast from simple models. The strategy works well for monthly data and when dividends are forecast from autoregressive models. The performance of the strategy relies on how discount rates are empirically defined. When discount rates are defined by the rolling and recursive historic average of realized returns, the strategy performs well. The discount rate and dividend growth can also be derived using a structural approach. Using the Campbell and Shiller log-linearized present value equation, and assuming that expected and realized dividend growth are unit related, a state space model is constructed linking the price-dividend ratio to expected returns and expected dividend growth. The model parameters are estimated from the data and, are used to derive the filtered expected returns and expected dividend growth series. The present value is computed using the filtered series. The trading rule tends to perform worse in this case. Discount rates are again found to be the major determinant of its success. Although the structural approach offers a time series of discount rates which is less volatile, it is on average higher than that of the historical mean model. The filtered expected returns is a potential predictor of realized returns. The predictive performance of expected returns is compared to that of the price-dividend ratio. It is found that expected returns is not superior to the price-dividend ratio in forecasting returns both in-sample and out-of-sample. The predictive regression included both simple Ordinary Least Squares and Vector Autoregressions. The second contribution of this thesis is the modeling of expected returns using autoregressive fractionally integrated processes. According to the work of Granger and Joyeux(1980), aggregated series which are derived from utility maximization problems follow a Beta distribution. In the time series literature, it implies that the series may have a fractional order (I(d)). Autoregressive fractionally models may have better appeal than models which explicitly posit unit roots or no unit roots. Two models are presented. The first model, which incorporates an ARFIMA(p,d,q) within the present value through the state equations, is found to be highly unstable. Small sample size may be a reason for this finding. The second model involves predicting dividend growth from simple OLS models, and sequentially netting expected returns from the present value model. Based on the previous finding that expected returns may be a long memory process, the third contribution of this thesis derives a test of long memory based on the asymptotic properties of the variance of aggregated series in the context of the Geweke Porter-Hudak (1982) semiparametric estimator. The test makes use of the fact that pure long memory process will have the same autocorrelation across observations if the observations are drawn at repeated intervals to make a new series. The test is implemented using the Sieve-AR bootstrap which accommodates long range dependence in stochastic processes. The test is relatively powerful against both linear and nonlinear specifications in large samples.

332.6

Dynamics of demographic changes and economic development

Mishra, Tapas K.

20 October 2006

Demographic changes and economic growth are inextricably linked. However, the complex role of demographic system, specifically its temporal features have not been treated with rigor till recently. This dissertation undertakes such an attempt to explain cross-country growth variations and focuses on longterm growth projections by explicitly treating demographic system in a stochastic shocks framework. We exploit the temporal characteristics of demographic system to shed light on its evolution, study its complex interaction with economic system and analyze the long-run effect on economic growth/development. The dissertation contains four chapters. After outlining the motivation of the thesis and an overview of the chapter scheme in the first chapter, we investigate in Chapter 2 how the effects of demographic components viz., age specific population have changed over the decades. Following the standard practice of assuming `stationary' features of population growth, we first evaluate and extend the popular empirical economic growth models. We find that decadal changes have brought forth variations in economic growth of developed and developing economies. We argue that accounting for temporal features of the demographic and economic growth system would provide clear insights into persistent growth fluctuations. In Chapter 3 we develop a new mechanism to characterize stochastic nature of demographic shocks in which population series with large temporal dimension is assumed to be governed by certain degree of stochastic shocks. By doing so, the conventional `stationary' assumption underlying the current theoretical and empirical exploration is relaxed and more dynamic information about the persistence of shocks is accommodated in the economic growth models. To this end, we first provide an analytical framework to show that long-memory shocks in demographic age structure or population might induce long-memory in economic growth. An empirical illustration of both developed and developing countries is carried out to demonstrate that population age structure in these countries are characterized by long-memory. The causality of stochastic demographic shocks' influence and economic growth (and the converse) is also examined. Following the theoretical development and empirical illustration in Chapter 3, in Chapter 4 we propose to forecast total and age-structured population employing fractionally integrated ARMA (in short, ARFIMA) technique. The conventional methods of population forecasting is discussed in this chapter evaluating the advantages and potential weaknesses of these methods. Our approach to population forecasting can be considered as a shift from the conventional `low, medium, and high' variant and the recently used ARMA projections (assuming stationarity or first difference stationarity of aggregate population) and is a departure from the stochastic population forecast based on Leslie matrix as used in the extant population forecasting literature. In Chapter 5 we incorporate the memory properties of demographic age- distribution to forecast Gross Domestic Product (or National income) of some developed and developing countries. We relax the stationary age-structure and population growth assumption in the model while performing long term income projections. We argue that the growth of total age-structured population need not be stationary and that any degree of stochastic shocks in these series can affect forecasting performance. Given that a long-memory panel method is yet to be comprehensively built for forecasting, we perform forecast of demography-based income in the univariate context assuming a stochastic long-memory process for age-structured population growth. Finally, Chapter 6 summarizes the main findings of the thesis and outlines some possible directions for further research. / Les changements démographiques et la croissance économique sont intimement liées. Cependant, le complexe rôle du système démographique, particulièrement son aspect temporel, n'a pas encore été analysé avec rigueur jusqu'aujourd'hui. Cette dissertation tente d'aborder cette question afin d'expliquer les changements de croissance des pays. Elle insiste particulièrement sur les projections de croissance de long terme en traitant explicitement les systèmes démographiques dans une structure de chocs stochastiques. Nous exploitons les caractéristiques temporelles des systèmes démographiques pour analyser leur évolution, étudier sa complexe interaction avec le système économique ainsi que les effets de long terme sur la croissance économique. Dans le chapitre 2, nous nous intéressons sur les effets des composantes démographiques , plus précisément comment l'âge d'une population spécifique a changé avec le temps. Suivant la pratique standard qui suppose une « stationnarité » de la croissance de la population, nous évaluons et étendons les modèles empiriques populaires de croissance économique. Nous trouvons que les changements décennaux ont apporté quatre changements dans la croissance économique des pays aussi bien développés qu'en développement. Nous montrons que le fait de tenir compte de l'aspect temporel des systèmes de croissance économique et démographique améliore les résultats sur la persistance des fluctuations de la croissance. Dans le chapitre 3, nous développons un nouveau mécanisme pour caractériser la nature stochastique des chocs démographiques dans laquelle les séries de population avec une large dimension temporelle sont supposées régies par un certain nombre de chocs stochastiques. En procédant de cette manière, la supposition conventionnelle de « stationnarité » qui sous-tend l'exploration théorique et empirique courante est relâchée et beaucoup plus d'informations sur la persistance des chocs sont données dans les modèles de croissance économique. Dans la croissance économique endogène avec un changement endogène de population, ce chapitre construit un modèle « long-memory » de population et de ses composantes (structure par âges) pour montrer les effets des changements démographiques sur les économies tant développées qu'en développement. Pour ce faire, nous donnons d'abord une formulation théorique pour montrer que les chocs « long-memory » dans la structure démographique de la population peut induire une croissance. Une illustration empirique est développée pour montrer que la structure de la population est caractérisée de « long-memory ». Suite au développement théorique et à l'illustration empirique du chapitre 3, le chapitre 4 propose une prévision de la population totale et de la structure démographique en employant de manière fractionnée la technique intégrée ARMA ( ARFIMA en bref). Les méthodes conventionnelles de prévision de la population sont discutées dans ce chapitre valuant les avantages et les faiblesses potentielles de ces méthodes. Notre approche peut être considérée comme un changement de la variante de la méthode conventionnelle « faible, moyenne et élevée » par rapport à la récente projection ARIMA utilisée récemment (qui suppose stationnarité ou différence première de la population agrégée). De plus, notre approche est un départ de la prévision de la population stochastique basée sur la matrice de Leslie. Nous avons aussi examiné un départ de la prévision stochastique basée sur la matrice de Leslie. Dans ce chapitre, nous avons aussi analysé pourquoi les techniques de prévision en démographie n'ont pas beaucoup évolué alors que les méthodes ne sont pas restées si traditionnelles. Dans le chapitre 5, nous incorporons les propriétés démographiques « memory » âge - distribution pour prévoir le Produit Intérieur Brut (ou revenu national) de quelques économies développées et en développement. Nous relâchons l'hypothèse de stationnarité âge-structure et croissance de la population dans le modèle en faisant les projections du revenu de long terme. Nous montrons que la croissance de la population totale n'a pas besoin d'être stationnaire et que tout degré de chocs stochastiques dans ces séries peut affecter la performance de prévision. Etant donné que la méthode de panel “long memory” est encore à construire pour une bonne prévision, nous faisons une prévision du revenu basée sur la démographie dans un contexte uni varié qui suppose une procédure stochastique « long- memory » pour une croissance de la population structurée suivant l'âge. Finalement, le chapitre 6 résume les resultants principaux de la thèse et montre quelques directions possibles pour des recherches futures.

Forecasting

Demographic dynamics

Economic growth

Long memory