Normalizing SPY ETF time series data with its sector ETFs?

Question

I am looking to compare the returns of a sector rotation strategy between the various SPDR sector ETFs

• XLY,

• XLP,

• XLE,

• XLF,

• XLV,

• XLI,

• XLB,

• XLK,

• XLU

  vs. the returns of just investing in the SPY overall S&P 500 ETF.

I am using the price data of the 9 ETFs vs. the price data of the SPY ETFs and would like to normalize based on a fixed notional. The sector ETF prices are between 24.75-81.11. The SPY ETF sits at around 200.

How do I best compare their returns?

Ways I've heard of are:

a'(i) := [ a(i) - mean( a ) ] / std_dev( a )
a'(i) := [ a(i) - min( a ) ] / [ max ( a ) - min ( a ) ]

I also see a number of suggestions at: How to normalize stock data but am not sure which one would be most appropriate for this purpose.

I suppose moving averages can also be used. I'm working with 5 years of daily close price data.

Answer 1

Why not just use Geometric Mean Returns? Each time you buy/sell an ETF calculate the holding period return as a percentage and plug into the formula. The answer is a percentage that you can use to calculate the approximate money appreciation (or loss) against your "fixed notional"

Answer 2

Perhaps I don't understand what you mean by "normalizing time series data".

To compare the two strategies, I would simply compute the Sharpe ratio of the two: holding the SPY vs the rotation strategy. This is a "normalized" comparison in that it takes into account both the mean return and the standard deviation of return.