Adaptive Dynamic Nelson-Siegel Term Structure Model with Applications

Chen, Ying; Niu, Linlin

doi:10.2139/ssrn.2025853

Cited by 15 publications

(27 citation statements)

References 28 publications

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“…In fact, as a specific case of this general setting, Chen and Niu (2013) show that restricting the state dynamics to an AR(1) model for each NS factor greatly improves forecast accuracy, and that the resulting performance beats the alternative rolling or recursive forecast uniformly. The reason may be due to the off-diagonal elements in the VAR autoregressive coefficient matrix being typically sparse and close to zeros, which does not contribute much to the improvement of forecast accuracy, but deteriorates the information efficiency.…”

Section: Real Data Analysismentioning

confidence: 97%

“…The Nelson-Siegel (NS) model is parameterized according to Diebold and Li (2006), and the data set is a fifteen yield series as used in Chen and Niu (2013). We denote the underlying parameters as Θ 0 = (c 0 , A 0 , Σ 0 ) and keep them constant throughout the whole sample.…”

Section: Simulation Designmentioning

confidence: 99%

“…Chen, Härdle and Pigorsch (2010) propose the LAR detection and estimation methodology and successfully apply it to forecasting realized volatility in a financial time series. Chen and Niu (2013) extend the method to an LARX model and apply it to yield curve modeling and forecasting, where under a traditional dynamic Nelson-Siegel factor model Diebold and Li (2006) each state yield factor is modeled as an LARX with inflation as the exogenous variable. Chen and Niu (2013) demonstrate that the data-driven LARX model brings clear advantages in forecasting the whole yield curve, when compared to a wide spectrum of traditional yield curve models with rolling or recursive estimation strategies using predetermined estimation windows.…”

Section: Introductionmentioning

confidence: 99%

“…Chen and Niu (2013) extend the method to an LARX model and apply it to yield curve modeling and forecasting, where under a traditional dynamic Nelson-Siegel factor model Diebold and Li (2006) each state yield factor is modeled as an LARX with inflation as the exogenous variable. Chen and Niu (2013) demonstrate that the data-driven LARX model brings clear advantages in forecasting the whole yield curve, when compared to a wide spectrum of traditional yield curve models with rolling or recursive estimation strategies using predetermined estimation windows. Moreover, the detected local intervals and the resultant parameter evolutions estimated in real-time are of great help for monitoring the yield curve dynamics, understanding its changing relationship with the inflation factor, and providing evidence on policy changes and on changing interest rate behavior during the recent financial crisis.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

A local vector autoregressive framework and its applications to multivariate time series monitoring and forecasting

Chen

Ли

Niu

2013

Statistics and Its Interface

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Our proposed local vector autoregressive (LVAR) model has time-varying parameters that allow it to be safely used in both stationary and non-stationary situations. The estimation is conducted over an interval of local homogeneity where the parameters are approximately constant. The local interval is identified in a sequential testing procedure. Numerical analysis and real data applications are conducted to illustrate the monitoring function and forecast performance of the proposed model.

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Section: Real Data Analysismentioning

confidence: 97%

Section: Simulation Designmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

A local vector autoregressive framework and its applications to multivariate time series monitoring and forecasting

Chen

Ли

Niu

2013

Statistics and Its Interface

Self Cite

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“…The main advantage of the approach is the achievement of a balance between modelling bias and parameter variability. This approach has been successfully applied in many research areas: Čížek et al (2009) analyse the GARCH(1, 1) models, Chen et al (2010) explore it to forecast realised volatilities, Chen and Niu (2014) predict the interest rate term structure, whereas Härdle et al (2015) utilise it successfully in high frequency time series modelling and forecasting.…”

Section: Introductionmentioning

confidence: 99%

LCARE - Localizing Conditional Autoregressive Expectiles

Mihoci

Härdle

2015

SSRN Journal

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We account for time-varying parameters in the conditional expectile based value at risk (EVaR) model. EVaR appears more sensitive to the magnitude of portfolio losses compared to the quantile-based Value at Risk (QVaR), nevertheless, by fitting the models over relatively long ad-hoc fixed time intervals, research ignores the potential time-varying parameter properties. Our work focuses on this issue by exploiting the local parametric approach in quantifying tail risk dynamics. By achieving a balance between parameter variability and modelling bias, one can safely fit a parametric expectile model over a stable interval of homogeneity. Empirical evidence at three stock markets from [2005][2006][2007][2008][2009][2010][2011][2012][2013][2014] shows that the parameter homogeneity interval lengths account for approximately 1-6 months of daily observations. Our method outperforms models with one-year fixed intervals, as well as quantile based candidates while employing a time invariant portfolio protection (TIPP) strategy for the DAX portfolio. The tail risk measure implied by our model finally provides valuable insights for asset allocation and portfolio insurance.JEL classification: C32, C51, G17

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Modeling Nelson–Siegel Yield Curve Using Bayesian Approach

Das

2019

New Economic Windows

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Yield curve modeling is an essential problem in finance. In this work, we explore the use of Bayesian statistical methods in conjunction with Nelson-Siegel model. We present the hierarchical Bayesian model for the parameters of the Nelson-Siegel yield function. We implement the MAP estimates via BFGS algorithm in rstan. The Bayesian analysis relies on the Monte Carlo simulation method. We perform the Hamiltonian Monte Carlo (HMC), using the rstan package. As a by-product of the HMC, we can simulate the Monte Carlo price of a Bond, and it helps us to identify if the bond is over-valued or under-valued. We demonstrate the process with an experiment and US Treasury's yield curve data. One of the interesting observation of the experiment is that there is a strong negative correlation between the price and long-term effect of yield. However, the relationship between the short-term interest rate effect and the value of the bond is weakly positive. This is because posterior analysis shows that the short-term effect and the long-term effect are negatively correlated.

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Adaptive Dynamic Nelson-Siegel Term Structure Model with Applications

Cited by 15 publications

References 28 publications

A local vector autoregressive framework and its applications to multivariate time series monitoring and forecasting

A local vector autoregressive framework and its applications to multivariate time series monitoring and forecasting

LCARE - Localizing Conditional Autoregressive Expectiles

Modeling Nelson–Siegel Yield Curve Using Bayesian Approach

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