Abstract
Evidence-based STI (science, technology, and innovation) policy making requires accurate indicators of innovation in order to promote economic growth. However, traditional indicators from patents and questionnaire-based surveys often lack coverage, granularity as well as timeliness and may involve high data collection costs, especially when conducted at a large scale. Consequently, they struggle to provide policy makers and scientists with the full picture of the current state of the innovation system. In this paper, we propose a first approach on generating web-based innovation indicators which may have the potential to overcome some of the shortcomings of traditional indicators. Specifically, we develop a method to identify product innovator firms at a large scale and very low costs. We use traditional firm-level indicators from a questionnaire-based innovation survey (German Community Innovation Survey) to train an artificial neural network classification model on labelled (product innovator/no product innovator) web texts of surveyed firms. Subsequently, we apply this classification model to the web texts of hundreds of thousands of firms in Germany to predict whether they are product innovators or not. We then compare these predictions to firm-level patent statistics, survey extrapolation benchmark data, and regional innovation indicators. The results show that our approach produces reliable predictions and has the potential to be a valuable and highly cost-efficient addition to the existing set of innovation indicators, especially due to its coverage and regional granularity.
Highlights
Innovations can disrupt individual industries with game-changing technology and the most radical innovations can even reshape whole economies
We present the results of our artificial neural network classification model
We use the dataset of Mannheim Innovation Panel (MIP) firms with a surveyed innovation status to train our product innovator classification model and test the model’s performance using a retained part of the training data
Summary
Innovations can disrupt individual industries with game-changing technology and the most radical innovations can even reshape whole economies. The data is available to the public in the context of a GDPR compliant setting It can be accessed by researchers via the Research Data Center of the ZEW Centre for European Economic Research: https://kooperationen.zew.de/en/zewfdz/home.html We can confirm that we did not receive any special privileges in accessing the data, except for the omission of having to conduct our calculations in a protected IT environment within the ZEW Research Data Center. This is due to the substantial legal enclosure of author JK as an employee of ZEW.
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