Abstract
Knightian uncertainty represents a situation in which it is no longer possible to form expectations about future events. We propose a method to directly measure Knightian uncertainty. Our approach relies on firm-level data and measures the share of firms that do not formalize expectations about their future demand. We construct the Knightian Uncertainty Indicator for Switzerland and show that the indicator is able to identify times of high uncertainty. We evaluate the indicator by comparing it to established uncertainty measures. We find that a one standard deviation innovation of the Knightian Uncertainty Indicator leads to a negative and persistent reduction of investment.
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Notes
To be fair, Zarnowitz and Lambros (1987) already discuss the limitations to use dispersion as a proxy for uncertainty. However, the authors nevertheless believe in the ability of disagreement to approximate uncertainty.
Chang and Feunou (2013) provide a detailed discussion on the difference between implied and realized volatility.
See Shiller (1981) for a discussion on “excess volatility”.
Within the European Union (EU) and in the applicant countries the Directorate General for Economic and Financial Affairs provides a user guide on how to conduct regular harmonized surveys for different sectors (European Commission 2017).
The way we measure Knightian uncertainty might potentially underestimate the true Knightian uncertainty. De Bruin et al. (2000) show that individuals tend towards the middle category, when facing events with lower perceived control. One possible explanation of this observed phenomenon is that individuals seek to increase perceived control over their environment. Unfortunately, De Bruin et al. (2000) do not elucidate on the effects of item non-response.
Firms’ responses in KOF Business Tendency Surveys come mostly from CEOs and CFOs Abberger et al. (2014a).
For a discussion of unit non-response in Business Tendency Surveys, see Bannert and Dibiasi (2014).
These two question can be found in the KOF Construction Survey. Although between surveys questions on expected and realized demand may change slightly with respect to their wording, they are the same with respect to their content. All questionnaires are publicly available under https://www.kof.ethz.ch/en/surveys/business-tendency-surveys.html.
While in the paper we provide a thorough description of the construction of the indicator, we are unable to provide a complete picture of all practical choices. We invite everyone to look at our R-Script for the exact technical implementation of the indicator. All scripts will be provided on our website.
In Online-Appendix B.1, we investigate the sensitivity of this approach. Particularly, we bring all indicators to the lowest frequency, i.e. we transform all monthly data to quarterly series, and compute a quarterly Knightian Uncertainty Indicator. Our analysis shows that both indicators display the same trajectory of Knightian uncertainty.
We use chow-lin-maxlog implementation by the R package developed and maintained by Sax and Steiner (2013).
In the Online-Appendix B.2, we present an alternative aggregation method considering only actual available sectors.
The aggregate Knightian Uncertainty Indicator does change substantially if we transform quarterly to monthly series by keeping the quarterly values constant for each month and retrapolate using the long-term mean of each series.
Results to not significantly change if keep the weights constant for five years. For example, the value added figure for 2000 is kept constant until 2004; the value added figure from 2005 is kept constant until 2009. Results do also not change if we keep the values of 2015 constant for all years. However, attributing an equal weight to every indicator changes the indicator substantially.
We compute the aggregated Knightian Uncertainty Indicator since 1989 because before 1989 the indicator would reflect essentially the Knightian indicator of the manufacturing sector. See Table 1.
We include an extensive discussion of the calculation of each indicator in the Online-Appendix. Furthermore, all data will be provided on our website kof.ethz.ch/uncertainty.
Table 3 in the Online-Appendix provides an overview of the different macroeconomic and financial variables that are included in the survey.
The present indicator uses the standard deviation as a measure of dispersion. However, one can chose different dispersion measures. In the Online-Appendix, we compute the same indicator using the interquartile range.
Mokinski et al. (2015) provide a recent overview of common approaches to measure disagreement in qualitative survey data.
We prefer expected demand to expected production for two reasons. First, expected production is a function of expected demand and hence the relevant variable to consider. Second, the question on demand is not only asked to manufacturing firms, but similarly to firms of other industries.
We include a detailed description of the indicator in Online-Appendix (see A.4.1).
The original Economic Policy Uncertainty Index for different countries is published monthly on policyuncertainty.com. The index is available for Australia, Brazil, Canada, Chile, China, France, Germany, India, Ireland, Italy, Japan, Korea, Netherlands, Russia, Singapore, Spain, Sweden, UK and the USA. Furthermore, policyuncertainty.com publishes aggregate indicators for Europe and the world.
Online-Appendix A.1 provides a detailed discussion of the index. Besides an explanation of the technical implementation, we also present the keywords that we use to identify an article reporting on economic policy uncertainty.
The results are robust with respect to the chosen time horizon. In a robustness check that we provide in Table 5 in the Online-Appendix, we neglect VSMI and conduct the PCA using the remaining indicators since January 1991. The qualitative conclusion of the results remains unchanged.
Due to data limitations, the estimation using the economic policy uncertainty indicator is limited to 1991Q1 to 2018Q1.
In this analysis, we do not include the VSMI and the dispersion of professional forecasts as these indicators are available only since 1999 and 2001 respectively. We consider these time span as too short to produce meaningful results in a quarterly VAR.
Our findings do not change when detrending our variables according to Hamilton (2018). See Online-Appendix B.4 for more details.
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This article was the second chapter of my Ph.D. thesis (A. Dibiasi). I would like to thank my advisors Jan-Egbert Sturm and Klaus Abberger for the valuable comments and support. We further like to thank the participants of the SSES Annual Congress in Lausanne (June 2017) for their comments and useful suggestions on previous versions of this paper. We also thank our anonymous referees for excellent remarks and helpful suggestions. Financial support by the Swiss National Science Foundation (SNF) is gratefully acknowledged. All remaining errors are our own.
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Dibiasi, A., Iselin, D. Measuring Knightian uncertainty. Empir Econ 61, 2113–2141 (2021). https://doi.org/10.1007/s00181-021-02106-3
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DOI: https://doi.org/10.1007/s00181-021-02106-3