An Information-Based Framework for Asset Pricing: X-Factor Theory and its Applications

TL;DR

This paper introduces an information-based asset pricing framework where asset values are modeled through market information processes related to underlying factors, leading to new models for various financial assets and derivatives.

Contribution

It develops a novel information-based approach to asset pricing, providing exactly solvable models and mechanisms for stochastic volatility and correlation dynamics.

Findings

New models for credit risk, share prices, interest rates, and inflation.

Exact solutions for asset and derivative price processes.

A discrete-time framework for interest rate and price index dynamics.

Abstract

A new framework for asset pricing based on modelling the information available to market participants is presented. Each asset is characterised by the cash flows it generates. Each cash flow is expressed as a function of one or more independent random variables called market factors or "X-factors". Each X-factor is associated with a "market information process", the values of which become available to market participants. In addition to true information about the X-factor, the information process contains an independent "noise" term modelled here by a Brownian bridge. The information process thus gives partial information about the X-factor, and the value of the market factor is only revealed at the termination of the process. The market filtration is assumed to be generated by the information processes associated with the X-factors. The price of an asset is given by the risk-neutral expectation of the sum of the discounted cash flows, conditional on the information available from the filtration. The theory is developed in some detail, with a variety of applications to credit risk management, share prices, interest rates, and inflation. A number of new exactly solvable models are obtained for the price processes of various types of assets and derivative securities; and a novel mechanism is proposed to account for the dynamics of stochastic volatility and dynamic correlation. A discrete-time version of the information-based framework is also developed, and is used to construct a new class of models for the real and nominal interest rate term structures, and the dynamics of the associated price index.