Description Usage Arguments Details Acknowledgments Author(s) References Examples
Proposed by Getmansky et al to provide a normalized measure of "liquidity risk."
1 | SmoothingIndex(R, neg.thetas = FALSE, MAorder = 2, verbose = FALSE, ...)
|
R |
an xts, vector, matrix, data frame, timeSeries or zoo object of asset returns |
neg.thetas |
if FALSE, function removes negative coefficients (thetas) when calculating the index |
MAorder |
specify the number of periods used to calculate the moving average, defaults to 2 |
verbose |
if TRUE, return a list containing the Thetas in addition to the smoothing index/ |
... |
any other passthru parameters |
To measure the effects of smoothing, Getmansky, Lo, et al (2004) define a "smoothing profile" as a vector of coefficients for an MLE fit on returns using a two-period moving-average process.
The moving-average process of order k=2 (specified
using MAorder
) gives R_t = θ_{0} R_{t} +
θ_1 R_{t -1} + θ_2 R_{t-2}, under the constraint
that the sum of the coefficients is equal to 1. In , the
arima
function allows us to create an MA(2) model
using an "ARIMA(p,d,q)" model, where p is the number
of autoregressive terms (AR), d is the degree of
differencing, and q is the number of lagged forecast
errors (MA) in the prediction equation. The order
parameter allows us to specify the three components
(p, d, q) as an argument, e.g., order = c(0, 0,
2)
. The method
specifies how to fit the model, in
this case using maximum likelihood estimation (MLE) in a
fashion similar to the estimation of standard
moving-average time series models, using:
arima(ra, order=c(0,0,2), method="ML",
transform.pars=TRUE, include.mean=FALSE)
include.mean
: Getmansky, et al. (2004) p 555 "By
applying the above procedure to observed de-meaned
returns...", so we set that parameter to 'FALSE'.
transform.pars
: ibid, "we impose the additional
restriction that the estimated MA(k) process be
invertible," so we set the parameter to 'TRUE'.
The coefficients, θ_{j}, are then normalized to sum to interpreted as a "weighted average of the fund's true returns over the most recent k + 1 periods, including the current period."
If these weights are disproportionately centered on a small number of lags, relatively little serial correlation will be induced. However, if the weights are evenly distributed among many lags, this would show higher serial correlation.
The paper notes that because θ_j \in [0, 1], ξ is also confined to the unit interval, and is minimized when all the θ_j's are identical. That implies a value of 1/(k + 1) for ξ, and a maximum value of ξ = 1 when one coefficient is 1 and the rest are 0. In the context of smoothed returns, a lower value of ξ implies more smoothing, and the upper bound of 1 implies no smoothing.
The "smoothing index," represented as ξ, is calculated the same way the Herfindahl index. The Herfindal measure is well known in the industrial organization literature as a measure of the concentration of firms in a given industry where y_j represents the market share of firm j.
This method (as well as the implementation described in the paper), does not enforce θ_j \in [0, 1], so ξ is not limited to that range either. All we can say is that lower values are "less liquid" and higher values are "more liquid" or mis-specified. In this function, setting the parameter neg.thetas = FALSE does enforce the limitation, eliminating negative autocorrelation coefficients from the calculation (the papers below do not make an economic case for eliminating negative autocorrelation, however).
Interpretation of the resulting value is difficult. All we can say is that lower values appear to have autocorrelation structure like we might expect of "less liquid" instruments. Higher values appear "more liquid" or are poorly fit or mis-specified.
Thanks to Dr. Stefan Albrecht, CFA, for invaluable input.
Peter Carl
Chan, Nicholas, Mila Getmansky, Shane M. Haas, and Andrew W. Lo. 2005. Systemic Risk and Hedge Funds. NBER Working Paper Series (11200). Getmansky, Mila, Andrew W. Lo, and Igor Makarov. 2004. An Econometric Model of Serial Correlation and Illiquidity in Hedge Fund Returns. Journal of Financial Economics (74): 529-609.
1 2 3 4 5 | data(managers)
data(edhec)
SmoothingIndex(managers[,1,drop=FALSE])
SmoothingIndex(managers[,1:8])
SmoothingIndex(edhec)
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