tseries (version 0.10-21)

portfolio.optim: Portfolio Optimization

Description

Computes an efficient portfolio from the given return series x in the mean-variance sense.

Usage

## S3 method for class 'default':
portfolio.optim(x, pm = mean(x), riskless = FALSE,
                shorts = FALSE, rf = 0.0, reslow = NULL, reshigh = NULL,
                covmat = cov(x), ...)

Arguments

x
a numeric matrix or multivariate time series consisting of a series of returns.
pm
the desired mean portfolio return.
riskless
a logical indicating whether there is a riskless lending and borrowing rate.
shorts
a logical indicating whether shortsales on the risky securities are allowed.
rf
the riskfree interest rate.
reslow
a vector specifying the (optional) lower bound on allowed portfolio weights.
reshigh
a vector specifying the (optional) upper bound on allowed portfolio weights.
covmat
the covariance matrix of asset returns.
...
further arguments to be passed from or to methods.

Value

  • A list containing the following components:
  • pwthe portfolio weights.
  • pxthe returns of the overall portfolio.
  • pmthe expected portfolio return.
  • psthe standard deviation of the portfolio returns.

Details

The computed portfolio has the desired expected return pm and no other portfolio exists, which has the same mean return, but a smaller variance. Inequality restrictions of the form $w_l \le w \le w_h$ can be imposed using the reslow and reshigh vectors. An alternative covariance matrix estimate can be supplied via the covmat argument. To solve the quadratic program, solve.QP is used.

portfolio.optim is a generic function with methods for multivariate "ts" and default for matrix.

Missing values are not allowed.

References

E. J. Elton and M. J. Gruber (1991): Modern Portfolio Theory and Investment Analysis, 4th Edition, Wiley, NY, pp. 65-93.

C. Huang and R. H. Litzenberger (1988): Foundations for Financial Economics, Elsevier, NY, pp. 59-82.

See Also

solve.QP

Examples

Run this code
x <- rnorm(1000)
dim(x) <- c(500,2)
res <- portfolio.optim(x)
res$pw

X <- diff(log(as.zoo(EuStockMarkets)))
res <- portfolio.optim(X)                 ## Long only
res$pw
res <- portfolio.optim(X, shorts=TRUE)    ## Long/Short
res$pw

Run the code above in your browser using DataCamp Workspace