ScubaHogg wrote: ↑Sat Nov 30, 2024 9:12 am
comeinvest wrote: ↑Fri Nov 29, 2024 6:49 pm
Thinking about it, from a conceptual asset allocation point of view, shouldn't we compare the excess returns of both asset classes, equities and TIPS, over the short-term risk-free rates for purposes of asset allocation?
I
think I understand the question. And if I do I believe it’s because of their use of the expected utility framework. It’s much more focused on total lifetime consumption than maximizing total lifetime returns. Duration matched TIPS provide the closet thing we have to a risk-free income stream. Looking at it that way there’s nothing risk free about short term nominal rates
So it’s a question, “how much future utility do I want to risk in exchange for the higher expected return of equities.”
I get your point of view, which is perhaps the dominant point of view in this thread regarding the "risk-free" part of the asset allocation; but I have been mostly following and contributing to the leveraged lifetime (also called lifecycle) asset allocation threads (HFEA, mHFEA), which consider multi-asset portfolios where the premise is that both equities and treasuries (can conceptually replace treasuries with TIPS for the discussion at hand) are risky components of the combined portfolio, and the combined asset allocation which can vary over the lifetime (time diversification) seeks to optimize the combined risk/return given expected returns, volatilities/risk, and expected correlations. This is obviously detached from the concept of "naive" liability matching in the sense of trying to find a risk-free asset that duration-matches a specific individual investor's liabilities, against which another ("risky") asset is measured against. I say "naive" (no offense intended), because the overarching optimization problem should be to increase overall (probabilistic) utility, which generally means maximizing the percentile range of "final" lifetime investing outcomes while minimizing shortfall risk, which is arguably more likely accomplished with the "leverage unconstrained" multi-asset lifetime AA models with time diversification.
In this context, like I said, none of the component assets are "risk-free"; in fact they are often on purpose leveraged to similar volatilities, which should result in better diversification of overall risk exposure. Overall risk exposure would be a combination of exposure to the equity risk premium and exposure to the term premium. Term premium is the performance premium of treasuries (or OIS swaps, if treasuries are no longer risk-free) relative to cash. (Total risk can still be dialed at will by choosing whatever leverage factors either <1 or >1.)
I subscribed to this thread because I want to explore the possibility of marrying the concept of dynamic AA with the concept of leveraged multi-asset portfolios, in particular leveraged stock/bond portfolios (e.g. mHFEA). In this scenario, I guess both stocks (equities) and bonds (treasuries and/or TIPS) can independently have time-varying valuations, expected returns and risk/volatilities, that might be inputs to the dynamic AA of both components; think of ZIRP (period of zero interest rate policy and low long-maturity treasury yields) when some advocated eliminating the treasuries position from mHFEA due to expected eventual mean reversion and/or low expected term premia and high risk (while others advocated staying the course with a static AA). I am hoping that within this "multivariate" framework or context, a solution to the dynamic AA puzzle would cover the more specific scenarios discussed so far as a special case.
I hope this clarifies where I was coming from when I asked the question.