Predicting the Future in Science, Economics, and Politics
Show Less

Predicting the Future in Science, Economics, and Politics

Edited by Frank Whelon Wayman, Paul R. Williamson, Bruce Bueno de Mesquita and Solomon Polachek

It is a puzzle that while academic research has increased in specialization, the important and complex problems facing humans urgently require a synthesis of understanding. This unique collaboration attempts to address such a problem by bringing together a host of prominent scholars from across the sciences to offer new insights into predicting the future. They demonstrate that long-term trends and short-term incentives need to be understood in order to adopt effective policies, or even to comprehend where we currently stand and the sort of future that awaits us.
Buy Book in Print
Show Summary Details
You do not have access to this content

Chapter 17: Innovations in forecasting the future that one can learn from: predicting the future in science, economics, and politics

Solomon W. Polachek


Forecasting is a standard undergraduate and master’s degree course in many economics and statistics departments. This course mostly teaches students econometric packages so they can fit time-series data to predict the future from past information, usually via statistical regression analysis of one kind or another. Unfortunately, the approach employed in these disciplines is often too simple to yield reliable and informative predictions for a host of phenomena that policy-makers find important. Predicting the Future in Science, Economics, and Politics (hereafter Prediction) is an important breakthrough pushing forecasting well past its current analytical and conceptual frontiers. By taking account of new theory spanning various academic disciplines, what Edward Wilson (Chapter 3 in this volume) calls “consilience,” and by utilizing sophisticated mathematics and statistics, the authors of this volume map out techniques that can be used to foretell important issues regarding human well-being that forecasters now do not study because these issues are currently far too complex. The innovations outlined in Prediction include a call to expand the topics currently forecast to include predictions on civil and international war severity, environmental catastrophe, and evolutionary biological transformation. Prediction also calls for expanding the forecasting techniques now used. These innovations are to incorporate discounting, boundary value behaviors, complex adaptive and neural systems, social field theory, game theory, and computational dynamics. In what follows, I divide my comments into four parts. First, I describe current forecasting techniques. Second, I explain many of the limitations of current forecasting models.

You are not authenticated to view the full text of this chapter or article.

Elgaronline requires a subscription or purchase to access the full text of books or journals. Please login through your library system or with your personal username and password on the homepage.

Non-subscribers can freely search the site, view abstracts/ extracts and download selected front matter and introductory chapters for personal use.

Your library may not have purchased all subject areas. If you are authenticated and think you should have access to this title, please contact your librarian.

Further information

or login to access all content.