Pricing and clearing combinatorial markets with singleton and swap orders: Efficient algorithms for the futures opening auction problem

Müller J, Pokutta S, Martin A, Pape S, Peter A, Winter T (2017)

Publication Language: English

Publication Type: Journal article

Publication year: 2017

Journal

Mathematical Methods of Operations Research Springer Verlag (Germany)

Book Volume: 85

Pages Range: 155-177

Journal Issue: 2

DOI: 10.1007/s00186-016-0555-z

Abstract

In this article we consider combinatorial markets with valuations only for singletons and pairs of buy/sell-orders for swapping two items in equal quantity. We provide an algorithm that permits polynomial time market-clearing and -pricing. The results are presented in the context of our main application: the futures opening auction problem. Futures contracts are an important tool to mitigate market risk and counterparty credit risk. In futures markets these contracts can be traded with varying expiration dates and underlyings. A common hedging strategy is to roll positions forward into the next expiration date, however this strategy comes with significant operational risk. To address this risk, exchanges started to offer so-called futures contract combinations, which allow the traders for swapping two futures contracts with different expiration dates or for swapping two futures contracts with different underlyings. In theory, the price is in both cases the difference of the two involved futures contracts. However, in particular in the opening auctions price inefficiencies often occur due to suboptimal clearing, leading to potential arbitrage opportunities. We present a minimum cost flow formulation of the futures opening auction problem that guarantees consistent prices. The core ideas are to model orders as arcs in a network, to enforce the equilibrium conditions with the help of two hierarchical objectives, and to combine these objectives into a single weighted objective while preserving the price information of dual optimal solutions. The resulting optimization problem can be solved in polynomial time and computational tests establish an empirical performance suitable for production environments.

Authors with CRIS profile

Johannes Müller Economics - Discrete Optimization - Mathematics (EDOM) Alexander Martin Economics - Discrete Optimization - Mathematics (EDOM) Susanne Pape Economics - Discrete Optimization - Mathematics (EDOM) Andrea Peter Economics - Discrete Optimization - Mathematics (EDOM)

Involved external institutions

Eurex Frankfurt AG DE Germany (DE) Georgia Institute of Technology US United States (USA) (US)

How to cite

APA:

Müller, J., Pokutta, S., Martin, A., Pape, S., Peter, A., & Winter, T. (2017). Pricing and clearing combinatorial markets with singleton and swap orders: Efficient algorithms for the futures opening auction problem. Mathematical Methods of Operations Research, 85(2), 155-177. https://dx.doi.org/10.1007/s00186-016-0555-z

MLA:

Müller, Johannes, et al. "Pricing and clearing combinatorial markets with singleton and swap orders: Efficient algorithms for the futures opening auction problem." Mathematical Methods of Operations Research 85.2 (2017): 155-177.

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