(CPC2015)
Supported by the Max Wertheimer Minerva Center for Cognitive Processing and Human Performance
Organized by: Ido Erev, Eyal Ert, and Ori Plonsky
Submission deadline: May 17th, 2015 | Early registration until April 1st, 2015
Organized by: Ido Erev, Eyal Ert, and Ori Plonsky
Submission deadline: May 17th, 2015 | Early registration until April 1st, 2015
Here is your chance to show how to model choice behavior better than anyone else.
Ido Erev writes:
"Dear colleagues and
friends,
I write to invite you
to participate in a choice prediction competition that Eyal Ert, Ori Plonsky
and I organize. The goal of this competition is to facilitate the
derivation of models that can capture the classical choice anomalies (including
Allais, St. Petersburg, and Ellsberg paradoxes, and loss aversion) and provide
useful forecasts of decisions under risk and ambiguity (with and without
feedback).
The rules of the
competition are described in http://departments.agri.huji.ac.il/cpc2015.
The submission deadline is May17, 2015. The prize for the winners is an
invitation to be a co-author of the paper that summarizes the competition (the
first part can be downloaded from http://departments.agri.huji.ac.il/economics/teachers/ert_eyal/CPC2015.pdf).
Here is a summary of
the basic idea. We ran two experiments (replication and estimation
studies, both are described in the site), and plan to run a third one (a target
study) during March 2015. To participate in the competition you should
email us (to eyal.ert@mail.huji.ac.il)
a computer program that predicts the results of the target study.
The replication study
replicated 14 well-known choice anomalies. The subjects faced each of 30
problems for 25 trials, received feedback after the 6th trial, and
were paid for a randomly selected choice. The estimation study examined 60
problems randomly drawn from a space of problems from which the replication
problems were derived. Our analysis of these 90 problems (see http://departments.agri.huji.ac.il/cpc2015)
shows that the classical anomalies are robust, and that the popular descriptive
models (e.g., prospect theory) cannot capture all the phenomena with one set of
parameters. We present one model (a baseline model) that can capture all the
results, and challenge you to propose a better model. The models will be
compared based on their ability to predict the results of the new target
experiment. You are encouraged to use the results of the replication and
estimation studies to calibrate your model. The winner will be the
acceptable model (see criteria details in the site) that provides the most
accurate predictions (lowest mean squared deviation between the predicted
choice rates and the choice rates observed in the target study)."
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