Michael Knaus
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Prof. Ph.D.
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Knaus
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Michael
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michael.knaus@unisg.ch
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+41 71 224 23 04
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Publication

A Double Machine Learning Approach to Estimate the Effects of Musical Practice on Student’s Skills

2021-01 , Knaus, Michael

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Publication

Heterogeneous Employment Effects of Job Search Programmes: A Machine Learning Approach

2020 , Lechner, Michael , Strittmatter, Anthony , Knaus, Michael

We systematically investigate the effect heterogeneity of job search programmes for unemployed workers. To investigate possibly heterogeneous employment effects, we combine non-experimental causal empirical models with Lasso-type estimators. The empirical analyses are based on rich administrative data from Swiss social security records. We find considerable heterogeneities only during the first six months after the start of training. Consistent with previous results of the literature, unemployed persons with fewer employment opportunities profit more from participating in these programmes. Furthermore, we also document heterogeneous employment effects by residence status. Finally, we show the potential of easy-to-implement programme participation rules for improving average employment effects of these active labour market programmes.

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The effect of environmental policies on proenvironmental behaviors and intrinsic motivation: evidence from the EU

2022 , Bonev, Petyo , Knaus, Michael , Gorkun-Voevoda, Liudmila

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Machine Learning Estimation of Heterogeneous Causal Effects: Empirical Monte Carlo Evidence

2019-03-28 , Knaus, Michael

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Publication

For better or worse? –The effects of physical education on child development

2020 , Knaus, Michael , Lechner, Michael , Reimers, Anne K.

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Publication

Work Hour Mismatch and Job Mobility: Adjustment Channels and Resolution Rates

2019-01 , Knaus, Michael , Otterbach, Steffen

This paper analyses the role of job changes in overcoming work hour mismatches (i.e., differences between actual and desired work hours). It addresses two, yet neglected, questions: (1) How do adjustments in desired work hours, additionally to adjustments in actual work hours, contribute to the resolution of these mismatches? and (2) Does the well‐documented increased work hour flexibility of job movers help to actually resolve work hour mismatches? We find that job change increases the probability of resolving work hour mismatches, but far less than expected with free choice of hours across jobs.

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Publication

Effect or Treatment Heterogeneity? Policy Evaluation with Aggregated and Disaggregated Treatments

2022 , Heiler, Phillip , Knaus, Michael

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Publication

Machine Learning Estimation of Heterogeneous Causal Effects: Empirical Monte Carlo Evidence

2020 , Knaus, Michael , Lechner, Michael , Strittmatter, Anthony

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Publication

The effect of environmental policies on intrinsic motivation: evidence from the Eurobarometer surveys

2022-06-21 , Bonev, Petyo , Knaus, Michael , Gorkun-Voevoda, Liudmila

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Publication

Predicting Match Outcomes in Football by an Ordered Forest Estimator

2021-10-26 , Goller, Daniel , Knaus, Michael , Lechner, Michael , Okasa, Gabriel

Predicting the outcome of football (i.e. soccer) games based on past information is a non-standard predictive task because of the nature of the game outcome, as well as because of the importance of uncertainty (luck and unobservables). The game outcome consists of the scores of the two teams that are usually either collapsed into a goal-difference or further aggregated to reflect whether the game ended as a win for the home or away team, or as a draw. From a statistical perspective, such outcomes have bounded support and, thus, standard linear modelling can be expected to perform poorly. The large amount of uncertainty in the game outcomes due to just luck or due to game- or team-specific unobservables (e.g. hidden injuries of players, etc.) makes it imperative to use prediction methods that fully exploit the potential of the available information, as well as to uncover the uncertainty of a match outcome. The latter is also relevant when interest is not only in single games but also in a league table at the end of the season. Obviously, such league tables should capture the uncertainty for the single games accumulated over a season to be useful guides on what to expect. Recently, machine learning methods have shown their power in all sorts of prediction problems, in particular in situations where the relation of the variables capturing the information used to predict with the target of the prediction, i.e. here the outcome of the game, is non-linear. However, so far there has been only little development in gearing these methods explicitly towards the estimation of the probabilities of ordered outcomes, such as score differences and points, or just wins, draws, and losses. Lechner and Okasa (2019) propose adapting classical random forest estimation, which is known to have excellent predictive performance (e.g. Biau and Scornet (2016), Fernández-Delgado et al. (2014)) to the problem of predicting probabilities of ordered categorical outcomes, such as the win-draw-loss problem of a football game. In this chapter, we use their approach to predict game outcomes of the German Bundesliga 1 (BL1) based on more than ten years' data on game outcomes as well as extensive information about teams, their players, and their environment. These predictions are then used to obtain the final season rankings in a way that reflects and shows the magnitude of the inherent uncertainty of football games.

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