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| IHSEP-package | Inhomogeneous Self-exciting Process |
| asep | An IHSEP data set |
| conv.seq | Sequence convolution conv.seq calculates the convolution of two sequences |
| h.fn | Mean Intensity Function of the Self-Exciting Point Process 'h.fn' calculate the values of the mean intensity function of the self-exciting process with given baseline event rate and excitation function at a (fairly large) number of points. Values of the function at other points can be obtained by interpolation (e.g. spline interpolation). |
| h.fn.exp | Mean Intensity of the Self-Exciting Point Process With an Exponential Excitation Function 'h.fn.exp' calculates the mean intensity function h(t) which solves the integral equation h(t)=nu(t)+\int_0^t g(t-s)h(s)ds, t>=q 0 , where the excitation function is exponential: g(t)= gamma_1 e^{-gamma_2 t}. |
| IHSEP | Inhomogeneous Self-exciting Process |
| mloglik0 | Minus loglikelihood of an IHSEP model |
| mloglik1a | Minus loglikelihood of an IHSEP model |
| mloglik1b | Minus loglikelihood of an IHSEP model |
| mloglik1c | Minus loglikelihood of an IHSEP model |
| mloglik1d | Minus loglikelihood of an IHSEP model |
| mloglik1e | Minus loglikelihood of an IHSEP model |
| sepp.resid | Calculate the self exciting point process residuals |
| simHawkes0 | Simulate a Hawkes process, or Self-exciting point process |
| simHawkes1 | Simulate a Hawkes process, or Self-exciting point process |
| simPois | Simulate a Poisson process |
| simPois0 | Simulate a Poisson process |