NDK_EGARCH_FITTED

int __stdcall NDK_EGARCH_FITTED(double * pData,


size_t nSize,


double mu,


const double * Alphas,


size_t p,


const double * Gammas,


size_t g,


const double * Betas,


size_t q,


WORD nInnovationType,


double nu,


WORD retType 

)

Returns an array of cells for the fitted values (i.e. mean, volatility and residuals)

Returns
status code of the operation
Return values
NDK_SUCCESS  Operation successful
NDK_FAILED  Operation unsuccessful. See Macros for full list.
Parameters
[in]pDatais the univariate time series data (a one dimensional array).
[in]nSizeis the number of observations in pData.
[in]muis the GARCH model conditional mean (i.e. mu).
[in]Alphasare the parameters of the ARCH(p) component model (starting with the lowest lag).
[in]pis the number of elements in Alphas array
[in]Gammasare the leverage parameters (starting with the lowest lag).
[in]gis the number of elements in Gammas. Must be equal to (p-1).
[in]Betasare the parameters of the GARCH(q) component model (starting with the lowest lag).
[in]qis the number of elements in Betas array
[in]nInnovationTypeis the probability distribution function of the innovations/residuals (see INNOVATION_TYPE)
  • INNOVATION_GAUSSIAN Gaussian Distribution (default)
  • INNOVATION_TDIST Student's T-Distribution,
  • INNOVATION_GED Generalized Error Distribution (GED)
[in]nuis the shape factor (or degrees of freedom) of the innovations/residuals probability distribution function.
[in]retTypeis a switch to select a output type ( see FIT_RETVAL_FUNC)
Remarks
  1. The underlying model is described here.
  2. The time series is homogeneous or equally spaced.
  3. The time series may include missing values (e.g. #N/A) at either end.
  4. The number of gamma-coefficients must match the number of alpha-coefficients.
  5. The number of parameters in the input argument - alpha - determines the order of the ARCH component model.
  6. The number of parameters in the input argument - beta - determines the order of the GARCH component model.
Requirements
Header SFSDK.H
Library SFSDK.LIB
DLL SFSDK.DLL
Namespace:  NumXLAPI
Class:  SFSDK
Scope:  Public
Lifetime:  Static

int NDK_EGARCH_FITTED(double[] pData,


UIntPtr nSize,


double mu,


double[] Alphas,


UIntPtr p,


double[] Gammas,


double[] Betas,


UIntPtr q,


short nInnovationType,


double nu,


short retType 

)

Returns an array of cells for the fitted values (i.e. mean, volatility and residuals)

Return Value

a value from NDK_RETCODE enumeration for the status of the call. 

NDK_SUCCESS  operation successful
Error  Error Code
Parameters
[in]pDatais the univariate time series data (a one dimensional array).
[in]nSizeis the number of observations in pData.
[in]muis the GARCH model conditional mean (i.e. mu).
[in]Alphasare the parameters of the ARCH(p) component model (starting with the lowest lag).
[in]pis the number of elements in Alphas array
[in]Gammasare the leverage parameters (starting with the lowest lag).
[in]Betasare the parameters of the GARCH(q) component model (starting with the lowest lag).
[in]qis the number of elements in Betas array
[in]nInnovationTypeis the probability distribution function of the innovations/residuals (see INNOVATION_TYPE)
  • INNOVATION_GAUSSIAN Gaussian Distribution (default)
  • INNOVATION_TDIST Student's T-Distribution,
  • INNOVATION_GED Generalized Error Distribution (GED)
[in]nuis the shape factor (or degrees of freedom) of the innovations/residuals probability distribution function.
[in]retTypeis a switch to select a output type ( see FIT_RETVAL_FUNC)
Remarks
  1. The underlying model is described here.
  2. The time series is homogeneous or equally spaced.
  3. The time series may include missing values (e.g. #N/A) at either end.
  4. The number of gamma-coefficients must match the number of alpha-coefficients.
  5. The number of parameters in the input argument - alpha - determines the order of the ARCH component model.
  6. The number of parameters in the input argument - beta - determines the order of the GARCH component model.
Exceptions
Exception Type Condition
None N/A
Requirements
Namespace NumXLAPI
Class SFSDK
Scope Public
Lifetime Static
Package NumXLAPI.DLL
Examples
References
* Hamilton, J .D.; Time Series Analysis , Princeton University Press (1994), ISBN 0-691-04289-6
* Tsay, Ruey S.; Analysis of Financial Time Series John Wiley & SONS. (2005), ISBN 0-471-690740
* D. S.G. Pollock; Handbook of Time Series Analysis, Signal Processing, and Dynamics; Academic Press; Har/Cdr edition(Nov 17, 1999), ISBN: 125609906
* Box, Jenkins and Reisel; Time Series Analysis: Forecasting and Control; John Wiley & SONS.; 4th edition(Jun 30, 2008), ISBN: 470272848