Stochastic semi-nonparametric frontier estimation of electricity distribution networks: Application of the StoNED method in the Finnish regulatory model

Electricity distribution network is a prime example of a natural local monopoly. In many countries, electricity distribution is regulated by the government. Many regulators apply frontier estimation techniques such as data envelopment analysis (DEA) or stochastic frontier analysis (SFA) as an integr...

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Bibliographic Details
Published in:Energy economics 2012-11, Vol.34 (6), p.2189-2199
Main Author: Kuosmanen, Timo
Format: Article
Language:English
Subjects:
Applied sciences
Cost
Data envelopment analysis
Economic data
Economics
Electric energy
Electric power
Electricity
Electricity distribution
Energy
Energy economics
Energy market
Energy markets
Energy policy
Estimation
Exact sciences and technology
Finland
General, economic and professional studies
Governments
Heterogeneity
Methodology. Modelling
Monopoly
Networks
Nonparametric production analysis
Operations research
Productive efficiency
Regulation
Regulators
Regulatory reform
Stochastic models
Stochasticity
Studies
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Summary:Electricity distribution network is a prime example of a natural local monopoly. In many countries, electricity distribution is regulated by the government. Many regulators apply frontier estimation techniques such as data envelopment analysis (DEA) or stochastic frontier analysis (SFA) as an integral part of their regulatory framework. While more advanced methods that combine nonparametric frontier with stochastic error term are known in the literature, in practice, regulators continue to apply simplistic methods. This paper reports the main results of the project commissioned by the Finnish regulator for further development of the cost frontier estimation in their regulatory framework. The key objectives of the project were to integrate a stochastic SFA-style noise term to the nonparametric, axiomatic DEA-style cost frontier, and to take the heterogeneity of firms and their operating environments better into account. To achieve these objectives, a new method called stochastic nonparametric envelopment of data (StoNED) was examined. Based on the insights and experiences gained in the empirical analysis using the real data of the regulated networks, the Finnish regulator adopted the StoNED method in use from 2012 onwards. ► Electricity distribution is a local monopoly, to be regulated by the government. ► Many regulators apply simple frontier estimation techniques DEA or SFA. ► New StoNED method combines appealing features of DEA and SFA. ► This study is the first application of StoNED to electricity distribution. ► The Finnish regulator applies StoNED since 2012 onwards.
ISSN:0140-9883
1873-6181
DOI:10.1016/j.eneco.2012.03.005