American Spread Option Pricing with Stochastic Interest Rate

Jiang, An

01 June 2016

In financial markets, spread option is a derivative security with two underlying assets and the payoff of the spread option depends on the difference of these assets. We consider American style spread option which allows the owners to exercise it at any time before the maturity. The complexity of pricing American spread option is that the boundary of the corresponding partial differential equation which determines the option price is unknown and the model for the underlying assets is two-dimensional.In this dissertation, we incorporate the stochasticity to the interest rate and assume that it satisfies the Vasicek model or the CIR model. We derive the partial differential equations with terminal and boundary conditions which determine the American spread option with stochastic interest rate and formulate the associated free boundary problem. We convert the free boundary problem to the linear complimentarity conditions for the American spread option, so that we can go around the free boundary and compute the option price numerically. Alternatively, we approximate the option price using methods based on the Monte Carlo simulation, including the regression-based method, the Lonstaff and Schwartz method and the dual method. We make the comparisons among the option prices derived by the partial differential equation method and Monte Carlo methods to show the accuracy of the result.

American Spread Option

Stochastic Interest Rate

Free Boundary Problem

Linear Complementarity Conditions

CIR Model

Monte Carlo Simulation

Mathematics

Average cost power contracts and CO2 burdens for energy intensive industry

Oggioni, Giorgia

19 June 2008

Market evidences of the last three years show that the application of the Emission Trading Scheme (ETS) may endanger the European electricity intensive industries both directly and indirectly. The direct ETS burdens come from the costs of both abating emissions from old technologies and buying emission allowances on the market. The pass through of carbon cost in electricity price implies an indirect ETS charge. The combined action of these two carbon burdens may negatively affect European industries' competitiveness at international level. Some of these industries are threatening to relocate their production activities outside of Europe. This would lead to the so-called "carbon leakage" phenomenon. Taking stock of a French industrial proposal, I consider some special contractual policies whereby electricity intensive industries can buy electricity at average cost. The rest of the market is instead priced at marginal cost. Thanks to these contracts, generators reserve part of their power plants for these industries and apply to them a price depending on the average capacity, fuel and emission costs of these dedicated units. In addition, these contracts account for the average transmission charges. Industries can choose to be supplied either at a single regional average cost price or at zonal (assimilated to nodal) average cost prices (in which case transmission costs are equal to zero). The final objective consists in analyzing the effects provoked by the application of the single and the nodal average cost prices in the cases where generators dispose of fixed capacity or can invest in new technologies. The market for transmission services is of the "flow based market coupling" type and the allowance price is endogenous. The results show that power contracts indeed partially relieve the direct and the indirect carbon costs and mitigate the incentive of European electricity intensive industries to relocate their activities, but with quite diverse regional impacts in correspondence with different national power policies. Finally, the EU-ETS drives generators' investment choices towards clean and nuclear based technologies. Models are formulated as non-monotone complementarity problems with endogenous electricity, transmission and allowance prices. These are implemented in GAMS and solved by PATH. They are applied to a prototype power system calibrated on four countries of the Central Western Europe represented by France, Germany, Belgium and The Netherlands.

Complementarity conditions

Energy intensive industries

European emission trading scheme

Average cost power contracts

Central Western European market