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Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector. / Хуторецкий, Александр Борисович; Нефёдкин, Владимир Иванович.

In: Journal of Corporate Finance Research / Корпоративные Финансы, Vol. 14, No. 1, 5, 06.2020, p. 55-68.

Research output: Contribution to journalArticlepeer-review

Harvard

Хуторецкий, АБ & Нефёдкин, ВИ 2020, 'Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector', Journal of Corporate Finance Research / Корпоративные Финансы, vol. 14, no. 1, 5, pp. 55-68. https://doi.org/10.17323/j.jcfr.2073-0438.14.1.2020.55-68

APA

Хуторецкий, А. Б., & Нефёдкин, В. И. (2020). Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector. Journal of Corporate Finance Research / Корпоративные Финансы, 14(1), 55-68. [5]. https://doi.org/10.17323/j.jcfr.2073-0438.14.1.2020.55-68

Vancouver

Хуторецкий АБ, Нефёдкин ВИ. Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector. Journal of Corporate Finance Research / Корпоративные Финансы. 2020 Jun;14(1):55-68. 5. doi: 10.17323/j.jcfr.2073-0438.14.1.2020.55-68

Author

Хуторецкий, Александр Борисович ; Нефёдкин, Владимир Иванович. / Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector. In: Journal of Corporate Finance Research / Корпоративные Финансы. 2020 ; Vol. 14, No. 1. pp. 55-68.

BibTeX

@article{dc40ae5ff7a04b7893560cb38618a866,
title = "Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector",
abstract = "In this study, we propose to model the operation of a service concession arrangement in the economic area of municipal heat supply utilities. We offer a scheme of interaction between the concedent and concessionaire in this concessionary arrangement. Currently, the existing regulations regarding the temperature of coolant focusses on the daily average outdoor temperature, and the determination of a “normative” demand for heat energy. On any day of the heating period, this demand is a random variable, whose distribution can be described through the distribution of daily average air temperature. In our model, heat energy is paid for at a fixed price, and the concessionaire pays a penalty for each unit of unsatisfied normative demand. The price and penalty values are the concession parameters, and are determined by the concedent. The concedent{\textquoteright}s goal is to minimise the thermal energy cost; the concessionaire{\textquoteright}s purpose is to maximise profit. The interaction is formalised as a two-move game model. First, the concedent determines the price and the value of the penalty. Then the concessionaire selects the capacity to be created. The concession{\textquoteright}s parameters should be set so that the individual rationality and incentive compatibility conditions are met. Our results prove the existence of Stackelberg equilibrium, and we derive the relevant formulas for computing its parameters. In equilibrium, the optimum capacity for the concessionaire provides a sufficient probability of meeting demand. The price of thermal energy is minimal under this condition. We also formulate a one-parameter model (thermal energy price as a parameter), which is based on a typical concession scheme. In the two-parameter model, the equilibrium capacity and price do not exceed the corresponding parameters of the one-parameter model. The main advantage of the two-parameter model is an “embedded” economic mechanism that prevents the concessionaire{\textquoteright}s opportunistic behaviour. By contrast, in the one-parameter model there is no such mechanism. The proposed approach can be applied to a concession for the production of any good or service, provided the concerned parties are interested in the availability and reliability of meeting a corresponding need, which may be described as a random variable. However, typical concession schemes do not penalise unsatisfied demand, so the implementation of our two-parametric model is possible only after modification of the pertinent concession legislation",
keywords = "concession, heating, game-theoretic model, economic mechanism, Stackelberg equilibrium, opportunistic behaviour",
author = "Хуторецкий, {Александр Борисович} and Нефёдкин, {Владимир Иванович}",
note = "Khutoretskii A., Nefedkin V. Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector // Journal of Corporate Finance Research. - 2020, V. 14, no. 1, pp. 55-68",
year = "2020",
month = jun,
doi = "10.17323/j.jcfr.2073-0438.14.1.2020.55-68",
language = "English",
volume = "14",
pages = "55--68",
journal = "Journal of Corporate Finance Research / Корпоративные Финансы",
issn = "2073-0438",
publisher = "Федеральное государственное автономное образовательное учреждение высшего образования {"}Национальный исследовательский университет {"}Высшая школа экономики{"}",
number = "1",

}

RIS

TY - JOUR

T1 - Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector

AU - Хуторецкий, Александр Борисович

AU - Нефёдкин, Владимир Иванович

N1 - Khutoretskii A., Nefedkin V. Two-Parametric / Game-Theory Model of a Service Concession in the Communal Heating Sector // Journal of Corporate Finance Research. - 2020, V. 14, no. 1, pp. 55-68

PY - 2020/6

Y1 - 2020/6

N2 - In this study, we propose to model the operation of a service concession arrangement in the economic area of municipal heat supply utilities. We offer a scheme of interaction between the concedent and concessionaire in this concessionary arrangement. Currently, the existing regulations regarding the temperature of coolant focusses on the daily average outdoor temperature, and the determination of a “normative” demand for heat energy. On any day of the heating period, this demand is a random variable, whose distribution can be described through the distribution of daily average air temperature. In our model, heat energy is paid for at a fixed price, and the concessionaire pays a penalty for each unit of unsatisfied normative demand. The price and penalty values are the concession parameters, and are determined by the concedent. The concedent’s goal is to minimise the thermal energy cost; the concessionaire’s purpose is to maximise profit. The interaction is formalised as a two-move game model. First, the concedent determines the price and the value of the penalty. Then the concessionaire selects the capacity to be created. The concession’s parameters should be set so that the individual rationality and incentive compatibility conditions are met. Our results prove the existence of Stackelberg equilibrium, and we derive the relevant formulas for computing its parameters. In equilibrium, the optimum capacity for the concessionaire provides a sufficient probability of meeting demand. The price of thermal energy is minimal under this condition. We also formulate a one-parameter model (thermal energy price as a parameter), which is based on a typical concession scheme. In the two-parameter model, the equilibrium capacity and price do not exceed the corresponding parameters of the one-parameter model. The main advantage of the two-parameter model is an “embedded” economic mechanism that prevents the concessionaire’s opportunistic behaviour. By contrast, in the one-parameter model there is no such mechanism. The proposed approach can be applied to a concession for the production of any good or service, provided the concerned parties are interested in the availability and reliability of meeting a corresponding need, which may be described as a random variable. However, typical concession schemes do not penalise unsatisfied demand, so the implementation of our two-parametric model is possible only after modification of the pertinent concession legislation

AB - In this study, we propose to model the operation of a service concession arrangement in the economic area of municipal heat supply utilities. We offer a scheme of interaction between the concedent and concessionaire in this concessionary arrangement. Currently, the existing regulations regarding the temperature of coolant focusses on the daily average outdoor temperature, and the determination of a “normative” demand for heat energy. On any day of the heating period, this demand is a random variable, whose distribution can be described through the distribution of daily average air temperature. In our model, heat energy is paid for at a fixed price, and the concessionaire pays a penalty for each unit of unsatisfied normative demand. The price and penalty values are the concession parameters, and are determined by the concedent. The concedent’s goal is to minimise the thermal energy cost; the concessionaire’s purpose is to maximise profit. The interaction is formalised as a two-move game model. First, the concedent determines the price and the value of the penalty. Then the concessionaire selects the capacity to be created. The concession’s parameters should be set so that the individual rationality and incentive compatibility conditions are met. Our results prove the existence of Stackelberg equilibrium, and we derive the relevant formulas for computing its parameters. In equilibrium, the optimum capacity for the concessionaire provides a sufficient probability of meeting demand. The price of thermal energy is minimal under this condition. We also formulate a one-parameter model (thermal energy price as a parameter), which is based on a typical concession scheme. In the two-parameter model, the equilibrium capacity and price do not exceed the corresponding parameters of the one-parameter model. The main advantage of the two-parameter model is an “embedded” economic mechanism that prevents the concessionaire’s opportunistic behaviour. By contrast, in the one-parameter model there is no such mechanism. The proposed approach can be applied to a concession for the production of any good or service, provided the concerned parties are interested in the availability and reliability of meeting a corresponding need, which may be described as a random variable. However, typical concession schemes do not penalise unsatisfied demand, so the implementation of our two-parametric model is possible only after modification of the pertinent concession legislation

KW - concession, heating, game-theoretic model, economic mechanism, Stackelberg equilibrium, opportunistic behaviour

UR - https://elibrary.ru/item.asp?id=43992247

UR - https://www.mendeley.com/catalogue/d74209af-25a5-3b8c-9699-cccb5419549a/

U2 - 10.17323/j.jcfr.2073-0438.14.1.2020.55-68

DO - 10.17323/j.jcfr.2073-0438.14.1.2020.55-68

M3 - Article

VL - 14

SP - 55

EP - 68

JO - Journal of Corporate Finance Research / Корпоративные Финансы

JF - Journal of Corporate Finance Research / Корпоративные Финансы

SN - 2073-0438

IS - 1

M1 - 5

ER -

ID: 24569151