Cost Allocation and Convex Data Envelopment

Publikation: Working paperForskning

Standard

Cost Allocation and Convex Data Envelopment. / Hougaard, Jens Leth; Tind, Jørgen.

Department of Economics, University of Copenhagen, 2008.

Publikation: Working paperForskning

Harvard

Hougaard, JL & Tind, J 2008 'Cost Allocation and Convex Data Envelopment' Department of Economics, University of Copenhagen.

APA

Hougaard, J. L., & Tind, J. (2008). Cost Allocation and Convex Data Envelopment. Department of Economics, University of Copenhagen.

Vancouver

Hougaard JL, Tind J. Cost Allocation and Convex Data Envelopment. Department of Economics, University of Copenhagen. 2008.

Author

Hougaard, Jens Leth ; Tind, Jørgen. / Cost Allocation and Convex Data Envelopment. Department of Economics, University of Copenhagen, 2008.

Bibtex

@techreport{5ebe35c0c8d711dcbee902004c4f4f50,
title = "Cost Allocation and Convex Data Envelopment",
abstract = "This paper considers allocation rules. First, we demonstrate that costs allocated by the Aumann-Shapley and the Friedman-Moulin cost allocation rules are easy to determine in practice using convex envelopment of registered cost data and parametric programming. Second, from the linear programming problems involved it becomes clear that the allocation rules, technically speaking, allocate the non-zero value of the dual variable for a convexity constraint on to the output vector. Hence, the allocation rules can also be used to allocate inefficiencies in non-parametric efficiency measurement models such as Data Envelopment Analysis (DEA). The convexity constraint of the BCC model introduces a non-zero slack in the objective function of the multiplier problem and we show that the cost allocation rules discussed in this paper can be used as candidates to allocate this slack value on to the input (or output) variables and hence enable a full allocation of the inefficiency on to the input (or output) variables as in the CCR model",
keywords = "Faculty of Social Sciences, convex envelopment, ata envelopment analysis, slack allocation",
author = "Hougaard, {Jens Leth} and J{\o}rgen Tind",
year = "2008",
language = "English",
publisher = "Department of Economics, University of Copenhagen",
address = "Denmark",
type = "WorkingPaper",
institution = "Department of Economics, University of Copenhagen",

}

RIS

TY - UNPB

T1 - Cost Allocation and Convex Data Envelopment

AU - Hougaard, Jens Leth

AU - Tind, Jørgen

PY - 2008

Y1 - 2008

N2 - This paper considers allocation rules. First, we demonstrate that costs allocated by the Aumann-Shapley and the Friedman-Moulin cost allocation rules are easy to determine in practice using convex envelopment of registered cost data and parametric programming. Second, from the linear programming problems involved it becomes clear that the allocation rules, technically speaking, allocate the non-zero value of the dual variable for a convexity constraint on to the output vector. Hence, the allocation rules can also be used to allocate inefficiencies in non-parametric efficiency measurement models such as Data Envelopment Analysis (DEA). The convexity constraint of the BCC model introduces a non-zero slack in the objective function of the multiplier problem and we show that the cost allocation rules discussed in this paper can be used as candidates to allocate this slack value on to the input (or output) variables and hence enable a full allocation of the inefficiency on to the input (or output) variables as in the CCR model

AB - This paper considers allocation rules. First, we demonstrate that costs allocated by the Aumann-Shapley and the Friedman-Moulin cost allocation rules are easy to determine in practice using convex envelopment of registered cost data and parametric programming. Second, from the linear programming problems involved it becomes clear that the allocation rules, technically speaking, allocate the non-zero value of the dual variable for a convexity constraint on to the output vector. Hence, the allocation rules can also be used to allocate inefficiencies in non-parametric efficiency measurement models such as Data Envelopment Analysis (DEA). The convexity constraint of the BCC model introduces a non-zero slack in the objective function of the multiplier problem and we show that the cost allocation rules discussed in this paper can be used as candidates to allocate this slack value on to the input (or output) variables and hence enable a full allocation of the inefficiency on to the input (or output) variables as in the CCR model

KW - Faculty of Social Sciences

KW - convex envelopment

KW - ata envelopment analysis

KW - slack allocation

M3 - Working paper

BT - Cost Allocation and Convex Data Envelopment

PB - Department of Economics, University of Copenhagen

ER -

ID: 2401421