An approximation scheme for a class of risk-averse stochastic equilibrium problems

Luna, Juan Pablo; Sagastizábal, Claudia; Solodov, M. V.

doi:10.1007/s10107-016-0988-4

Cited by 20 publications

(12 citation statements)

References 50 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This is a closed loop two-stage stochastic Nash-Cournot game where each player (firm) needs to make a decision on capacity before realization of uncertainty anticipating competition in future (second stage). At this point, we refer readers to Wongrin et al [31] for a deterministic model with application in electricity markets, and a more sophisticated two-stage stochastic model by Luna, Sagastizábal and Solodov [20] where each player is risk-averse and all players share an identical constraint in the second stage. Similar models can also be found in Ralph and Smeers [22] for stochastic endogenous equilibrium in asset pricing.…”

Section: Two-stage Distributionally Robust Gamementioning

confidence: 99%

Discrete approximation of two-stage stochastic and distributionally robust linear complementarity problems

Chen

Sun

2018

Math. Program.

View full text Add to dashboard Cite

In this paper, we propose a discretization scheme for the two-stage stochastic linear complementarity problem (LCP) where the underlying random data are continuously distributed. Under some moderate conditions, we derive qualitative and quantitative convergence for the solutions obtained from solving the discretized two-stage stochastic LCP (SLCP). We explain how the discretized two-stage SLCP may be solved by the well-known progressive hedging method (PHM). Moreover, we extend the discussion by considering a two-stage distributionally robust LCP (DRLCP) with moment constraints and proposing a discretization scheme for the DRLCP. As an application, we show how the SLCP and DRLCP models can be used to study equilibrium arising from two-stage duopoly game where each player plans to set up its optimal capacity at present with anticipated competition for production in future. It is known thatBy permutation if necessary, we assume for the simplicity of exposition that J = {1, 2, · · · |J|}, where |J| denotes the cardinality of set J. Consequently, we know from [10] thatwhere M J is the |J| × |J| sub-matrix of M whose entries of M are indexed by the set J ∈ J .From time to time in the follow-up discussions, we need to look into positive definiteness of A − B(ξ)U J (M (ξ))N (ξ) and its inverse. To this end, we state the following intermediate technical result.Lemma 2.1 Under Assumption 2.1, the following assertions hold.Proof. We only prove Part (ii) since Part (i) follows straightforwardly from (2.2) and Part (iii) follows from Parts (i) and (ii). By setting u = −U J (M (ξ))N (ξ)z in (2.2), and using U J (M (ξ))M (ξ)U J (M (ξ) = U J (M (ξ)), we have z T Az − z T B(ξ)U J (M (ξ))N (ξ)z ≥ κ(ξ)( z 2 + U J (M (ξ))N (ξ)z 2 ) ≥ κ(ξ) z 2

show abstract

Section: Two-stage Distributionally Robust Gamementioning

confidence: 99%

Discrete approximation of two-stage stochastic and distributionally robust linear complementarity problems

Chen

Sun

2018

Math. Program.

View full text Add to dashboard Cite

show abstract

“…This allows us to solve the problem directly, thus avoiding smoothed auxiliary variants of the genuine problem (cf. Luna et al (2016)). Focusing on shale gas, and the uncertainties and risks connected to it in a realistic representation of the north and central European gas market, we show how risk aversion affects reserve exploration and production capacity expansion in conventional and shale gas by the suppliers.…”

Section: Market Power Suppliermentioning

confidence: 99%

“…The Average Value-at-Risk and the risk functional R are convex, and thus, sub-differentiable, although not differentiable in the strict sense. Luna et al (2016) employ the identity Eq. ( 12) and replace the kink-function…”

Section: B1 the Derivative Of The Acceptability Functional Rmentioning

confidence: 99%

“…Chin and Siddiqui (2014) develop a two-stage electricity market model with generation capacity expansions, and forward and spot markets; they analyze a monopoly, duopoly, and perfectly competitive setting with risk-averse suppliers. To the best of our knowledge, Luna et al (2016) is the only reference considering risk aversion in a natural gas market in a two-stage setting, however for one type of natural gas resources only. They develop an approximation scheme to solve two model variants.…”

Section: Introductionmentioning

confidence: 99%

“…They develop an approximation scheme to solve two model variants. We implement the same risk measure as Luna et al (2016), but show that an approximation-decomposition approach is not needed to solve the resulting model.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Risk aversion in imperfect natural gas markets

Egging

Pichler

Kalvø

et al. 2017

European Journal of Operational Research

View full text Add to dashboard Cite

This paper presents a natural gas market equilibrium model that considers uncertainty in shale gas reserve exploration. Risk aversion is modeled using a risk measure known as the Average Value-at-Risk (also referred to as the Conditional Value-at-Risk). In the context of the European natural gas market, we show how risk aversion affects investment behavior of a Polish and a Ukrainian natural gas supplier. As expected, increased risk aversion leads generally to lower investment, and a larger share of investments in the form of lower risk alternatives, i.e., conventional resources. However, in our market setting where multiple risk-averse agents each maximize their own profits we do observe some counter-intuitive, non-monotonic results. It is noteworthy that in a competitive market, risk aversion leads to significantly lower reserve exploration, which may be interpreted as a credible threat by a large dominating supplier (such as Russia). A threat to flood natural gas markets could deter importing countries from extending their own reserve bases.

show abstract

Distributionally-Robust Optimization for Sustainable Exploitation of the Infinite-Dimensional Superposition of Affine Processes with an Application to Fish Migration

Yoshioka

Tsujimura

Yoshioka

2023

Lecture Notes in Computer Science

View full text Add to dashboard Cite

An approximation scheme for a class of risk-averse stochastic equilibrium problems

Cited by 20 publications

References 50 publications

Discrete approximation of two-stage stochastic and distributionally robust linear complementarity problems

Discrete approximation of two-stage stochastic and distributionally robust linear complementarity problems

Risk aversion in imperfect natural gas markets

Distributionally-Robust Optimization for Sustainable Exploitation of the Infinite-Dimensional Superposition of Affine Processes with an Application to Fish Migration

Contact Info

Product

Resources

About