The present contribution considers the question whether the random walk model or an AR(1)-process (“mean reversion”) is a better representation for the development of the price/earnings ratio of the German blue-chip index DAX. Empirical evidence for one of these alternative model hypotheses is crucial to the predictability of the underlying variable, i.e. the P/E ratio. While the random walk hypothesis implies the non-existence of a long-run “fair” value for the variable of interest, an AR(1) process, in contrast, possesses a long-run mean and exhibits mean reverting behaviour in that it fluctuates around this constant long-run value. Both an exploratory data analysis and a set of formal statistical tests equally lead to the conclusion that...
We investigate how individuals use measures of apparent predictability from price charts to predict ...
We develop some properties on the autocorrelation of the k-period returns for the general mean rever...
In this article, we look again at the derivation of Black¿Scholes option value equation. The risk fu...
The present contribution considers the question whether the random walk model or an AR(1)-process (“...
This paper investigates mean reversion effects in the German stock market. Recent studies have shown...
This paper examines whether stock prices for a sample of 22 OECD countries can be best represented a...
In this article we test the random walk hypothesis in the German daily stock prices by means of a un...
Conventional economics theories adopt the three fundamental assumptions that economic agents are ful...
In this paper, we test the Johannesburg Stock Exchange market for the existence of the random walk h...
We use monthly observations on general stock price indices, over January 2001–August 2013, in order ...
We develop some properties on the autocorrelation of the k-period returns for the gen-eral mean reve...
Until fairly recently the conventional wisdom in the finance academic community was that security pr...
Monthly returns data for the 150 companies that have been listed on the Toronto Stock Exchange for a...
This paper uses a Markov chain model to test the random walk hypothesis of stock prices. Given a tim...
We develop some properties on the autocorrelation of the k-period returns for the general mean rever...
We investigate how individuals use measures of apparent predictability from price charts to predict ...
We develop some properties on the autocorrelation of the k-period returns for the general mean rever...
In this article, we look again at the derivation of Black¿Scholes option value equation. The risk fu...
The present contribution considers the question whether the random walk model or an AR(1)-process (“...
This paper investigates mean reversion effects in the German stock market. Recent studies have shown...
This paper examines whether stock prices for a sample of 22 OECD countries can be best represented a...
In this article we test the random walk hypothesis in the German daily stock prices by means of a un...
Conventional economics theories adopt the three fundamental assumptions that economic agents are ful...
In this paper, we test the Johannesburg Stock Exchange market for the existence of the random walk h...
We use monthly observations on general stock price indices, over January 2001–August 2013, in order ...
We develop some properties on the autocorrelation of the k-period returns for the gen-eral mean reve...
Until fairly recently the conventional wisdom in the finance academic community was that security pr...
Monthly returns data for the 150 companies that have been listed on the Toronto Stock Exchange for a...
This paper uses a Markov chain model to test the random walk hypothesis of stock prices. Given a tim...
We develop some properties on the autocorrelation of the k-period returns for the general mean rever...
We investigate how individuals use measures of apparent predictability from price charts to predict ...
We develop some properties on the autocorrelation of the k-period returns for the general mean rever...
In this article, we look again at the derivation of Black¿Scholes option value equation. The risk fu...