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For our analysis we are going to use the
datasets::EuStockMarkets
dataset, which contains the daily
closing prices of four major European stock indices: Germany DAX,
Switzerland SMI, France CAC, and UK FTSE (see
?EuStockMarkets
). The data are sampled in business time,
i.e., weekends and holidays are omitted. In this particular exercise we
want to focus on weekly observations. To do so we aggregate to a weekly
frequency and reduce the number of observations from 1860 to 372.
<- aggregate(EuStockMarkets, nfrequency = 52, mean) stocks
We estimate the above series using the recursive Augmented Dickey-Fuller test with 1 lag.
<- radf(stocks, lag = 1) est_stocks
The summary will print the test statistic and the critical values for
10%, 5% and 1% significance level. The package provides simulated
critical values for up to 600 observations, so we use them by omitting
the cv
argument in the summary
function.
summary(est_stocks)
#>
#> ── Summary (minw = 38, lag = 1) ─────────────────── Monte Carlo (nrep = 2000) ──
#>
#> DAX :
#> # A tibble: 3 × 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf 1.45 -0.437 -0.0900 0.511
#> 2 sadf 4.95 1.14 1.42 2.04
#> 3 gsadf 5.18 1.90 2.14 2.60
#>
#> SMI :
#> # A tibble: 3 × 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf 1.77 -0.437 -0.0900 0.511
#> 2 sadf 4.28 1.14 1.42 2.04
#> 3 gsadf 4.49 1.90 2.14 2.60
#>
#> CAC :
#> # A tibble: 3 × 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf 0.987 -0.437 -0.0900 0.511
#> 2 sadf 2.91 1.14 1.42 2.04
#> 3 gsadf 2.97 1.90 2.14 2.60
#>
#> FTSE :
#> # A tibble: 3 × 5
#> stat tstat `90` `95` `99`
#> <fct> <dbl> <dbl> <dbl> <dbl>
#> 1 adf 0.194 -0.437 -0.0900 0.511
#> 2 sadf 2.56 1.14 1.42 2.04
#> 3 gsadf 2.67 1.90 2.14 2.60
It seems that all stocks exhibit exuberant behaviour but we can also
verify it using diagnostics()
. This function is
particularly useful when we deal a large number of series.
diagnostics(est_stocks)
#>
#> ── Diagnostics (option = gsadf) ───────────────────────────────── Monte Carlo ──
#>
#> DAX: Rejects H0 at the 1% significance level
#> SMI: Rejects H0 at the 1% significance level
#> CAC: Rejects H0 at the 1% significance level
#> FTSE: Rejects H0 at the 1% significance level
If we need to know the exact period of exuberance we can do so with
the function datestamp()
. datestamp()
works in
a similar manner with summary()
and
diagnostics()
. The user still has to specify the critical
values, however we can still utilize the package’s critical values by
leaving the cv-argument blank.
# Minimum duration of an explosive period
= psy_ds(stocks) # log(n) ~ rule of thumb
rot
<- datestamp(est_stocks, min_duration = rot)
dstamp_stocks
dstamp_stocks#>
#> ── Datestamp (min_duration = 6) ───────────────────────────────── Monte Carlo ──
#>
#> DAX :
#> Start Peak End Duration Signal Ongoing
#> 1 1997-02-10 1997-08-05 1997-11-04 38 positive FALSE
#> 2 1998-01-27 1998-07-22 1998-08-19 30 positive TRUE
#>
#> SMI :
#> Start Peak End Duration Signal Ongoing
#> 1 1993-12-02 1994-02-03 1994-02-17 11 positive FALSE
#> 2 1997-04-14 1997-07-15 1997-09-02 20 positive FALSE
#> 3 1997-09-09 1997-10-07 1997-11-04 8 positive FALSE
#> 4 1997-11-25 1998-04-07 1998-08-19 39 positive TRUE
#>
#> CAC :
#> Start Peak End Duration Signal Ongoing
#> 1 1997-07-08 1997-08-05 1997-08-19 6 positive FALSE
#> 2 1998-03-10 1998-07-15 1998-08-12 22 positive FALSE
#>
#> FTSE :
#> Start Peak End Duration Signal Ongoing
#> 1 1997-07-08 1997-10-07 1997-11-04 17 positive FALSE
#> 2 1998-02-10 1998-04-14 1998-06-24 19 positive FALSE
We can extract the datestamp as a dummy variable 1 = Exuberance, 0 = No exuberance.
<- attr(dstamp_stocks, "dummy")
dummy tail(dummy)
#> DAX SMI CAC FTSE
#> 367 1 1 1 1
#> 368 1 1 1 1
#> 369 1 1 1 1
#> 370 1 1 1 0
#> 371 1 1 0 0
#> 372 1 1 0 0
The autoplot
function returns a faceted ggplot2 object
for all the series that reject the null hypothesis at 5% significance
level.
autoplot(est_stocks)
Finally, we can plot just the periods the periods of exuberance. Plotting datestamp object is particularly useful when we have a lot of series, and we are interested to identify explosive patterns in all of them.
datestamp(est_stocks) %>%
autoplot()
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