PRICING EUROPEAN OPTION IN A DOUBLE EXPONENTIAL JUMP-DIFFUSION MODEL WITH TWO MARKET STRUCTURE RISKS AND ITS COMPARISONS

Using Fourier inversion transform, P.D.E. and Feynman-Kac formula, the closedform solution for price on European call option is given in a double exponential jump-diffusion model with two different market structure risks that there exist CIR stochastic volatility of stock return and Vasicek or CIR stochastic interest rate in the market. In the end, the result of the model in the paper is compared with those in other models, including BS model with numerical experiment. These results show that the double exponential jump-diffusion model with CIR-market structure risks is suitable for modelling the real-market changes and very useful.

Critical Exercise Price for American Floating Strike Lookback Option in a Mixed Jump-Diffusion Model

This paper studies the critical exercise price of American floating strike lookback options under the mixed jump-diffusion model. By using It formula and Wick-It-Skorohod integral, a new market pricing model established under the environment of mixed jumpdiffusion fractional Brownian motion. The fundamental solutions of stochastic parabolic partial differential equations are estimated under the condition of Merton assumptions. The explicit integral representation of early exercise premium and the critical exercise price are also given, then the American floating strike lookback options factorization formula is obtained, the results is generalized the classical Black-Scholes market pricing model.

A revised jump-diffusion and rotation-diffusion model

Quasi-elastic neutron scattering(QENS) has many applications that are directly related to the development of highperformance functional materials and biological macromolecules, especially those containing some water. The analysis method of QENS spectra data is important to obtain parameters that can explain the structure of materials and the dynamics of water. In this paper, we present a revised jump-diffusion and rotation-diffusion model(rJRM) used for QENS spectra data analysis. By the rJRM, the QENS spectra from a pure magnesium-silicate-hydrate(MSH) sample are fitted well for the Q range from 0.3 ^(-1) to 1.9 ^(-1) and temperatures from 210 K up to 280 K. The fitted parameters can be divided into two kinds. The first kind describes the structure of the MSH sample, including the ratio of immobile water(or bound water) C and the confining radius of mobile water a_0. The second kind describes the dynamics of confined water in pores contained in the MSH sample, including the translational diffusion coefficient Dt, the average translational residence timeτ0, the rotational diffusion coefficient D_r, and the mean squared displacement(MSD) u^2. The r JRM is a new practical method suitable to fit QENS spectra from porous materials, where hydrogen atoms appear in both solid and liquid phases.

Valuing Credit Default Swap under a double exponential jump diffusion model

This paper discusses the valuation of the Credit Default Swap based on a jump market, in which the asset price of a firm follows a double exponential jump diffusion process, the value of the debt is driven by a geometric Brownian motion, and the default barrier follows a continuous stochastic process. Using the Gaver-Stehfest algorithm and the non-arbitrage asset pricing theory, we give the default probability of the first passage time, and more, derive the price of the Credit Default Swap.

A Numerical Algorithm Based on Quadratic Finite Element for Two-Dimensional Nonlinear Time Fractional Thermal Diffusion Model

In this article,a high-order scheme,which is formulated by combining the quadratic finite element method in space with a second-order time discrete scheme,is developed for looking for the numerical solution of a two-dimensional nonlinear time fractional thermal diffusion model.The time Caputo fractional derivative is approximated by using the L2-1formula,the first-order derivative and nonlinear term are discretized by some second-order approximation formulas,and the quadratic finite element is used to approximate the spatial direction.The error accuracy O(h3+
t2)is obtained,which is verified by the numerical results.

Numerical Methods for Discrete Double Barrier Option Pricing Based on Merton Jump Diffusion Model

As a kind of weak-path dependent options, barrier options are an important kind of exotic options. Because the pricing formula for pricing barrier options with discrete observations cannot avoid computing a high dimensional integral, numerical calculation is time-consuming. In the current studies, some scholars just obtained theoretical derivation, or gave some simulation calculations. Others impose underlying assets on some strong assumptions, for example, a lot of calculations are based on the Black-Scholes model. This thesis considers Merton jump diffusion model as the basic model to derive the pricing formula of discrete double barrier option;numerical calculation method is used to approximate the continuous convolution by calculating discrete convolution. Then we compare the results of theoretical calculation with simulation results by Monte Carlo method, to verify their efficiency and accuracy. By comparing the results of degeneration constant parameter model with the results of previous models we verified the calculation method is correct indirectly. Compared with the Monte Carlo simulation method, the numerical results are stable. Even if we assume the simulation results are accurate, the time consumed by the numerical method to achieve the same accuracy is much less than the Monte Carlo simulation method.

Dividend Maximization when Cash Reserves Follow a Jump-diffusion Process

This paper deals with the dividend optimization problem for an insurance company, whose surplus follows a jump-diffusion process. The objective of the company is to maximize the expected total discounted dividends paid out until the time of ruin. Under concavity assumption on the optimal value function, the paper states some general properties and, in particular, smoothness results on the optimal value function, whose analysis mainly relies on viscosity solutions of the associated Hamilton-Jacobi-Bellman （HJB） equations. Based on these properties, the explicit expression of the optimal value function is obtained. And some numerical calculations are presented as the application of the results.

包含Jump-Arch过程的利率模型及其应用

从4个方面对比分析了 Jump-Arch 扩散模型、跳跃扩散模型、Arch 扩散模型和扩散模型,发现 Jump-Arch 扩散模型是研究中的最优模型,它在解释和预测利率的波动方面表现出很强的能力,跳跃不仅是利率均值回复的来源,也是利率波动的最主要来源,因此对利率动态行为的描述必须考虑跳跃过程.同时研究发现,R091国债回购市场波动存在明显的"周一"和"周五效应",并利用 Jump-Arch 扩散模型解释了出现这种异象的原因.

可变风险溢价结构下跳扩散模型的期权定价

风险溢价结构是真实测度与风险中性测度间的纽带,能够帮助提取投资者的风险偏好特征。本文针对跳扩散模型构建了灵活的风险溢价形式,允许期权市场隐含信息参与校准跳跃风险的市场价格,进而研究存在跳跃情形下的期权定价,并探索市场风险溢价结构。数值分析和实证研究表明,可变风险溢价结构有助于准确刻画市场定价核曲线,且市场风险溢价结构具有明显的时变特征,跳跃风险溢价能够较好解释隐含波动率曲面。此外,跳扩散模型的可变风险溢价结构在样本内外都具有明显的期权定价优势。考虑了不同样本长度、定价方法、定价区间以及期权产品后,以上结论均是稳健的。本研究有助于系统了解不同市场风险溢价结构与定价规律,有利于深入探索跳跃风险溢价补偿机制。

基于无穷跳-扩散双因子交叉回馈模型的期权定价

为研究股市无穷跳跃和连续扩散行为特征,提出了一类能够捕捉无穷跳和扩散之间交互影响的动态跳-扩散双因子交叉回馈模型.借助Lévy过程条件特征函数、局部风险中性关系和贝叶斯学习技术,给出了动态跳-扩散随机过程的期权定价方法,并进行标准普尔500指数欧式期权标准化合约的实证研究,对比了有限跳-扩散及无穷跳-扩散模型定价差异.研究结果表明:以VG为基础的无穷跳-扩散全面优于Merton的有限跳-扩散双因子模型;跳-扩散交又回馈模型具有最小的期权定价误差;跳跃行为相比扩散波动具有更高的持续性、更强的杠杆作用和更高的风险市场价格.

跳-扩散模型中回望期权的定价研究

文章主要研究了一种路径依赖型期权———回望期权的定价问题,建立了有Poisson跳-扩散过程驱动下的价格模型,利用广义Ito公式,得到了在该模型下回望期权价格所满足的微分方程。

跳-扩散风险模型下的最优投资和再保策略

研究了跳-扩散模型下的最优投资和最优再保险策略问题.基于跳-扩散风险模型,考虑购买非便宜比例再保险,以及资产投资于无风险资产和风险资产的条件下,通过应用HJB方程理论,得到破产时期望红利最大的最优策略和值函数.同时给出了当理赔分布为指数分布时最优投资策略和值函数的计算方法.算例中给出了一些参数对投资策略的影响,可以看出投资策略是符合实际情况的.

Black-Scholes期权定价模型的一种改进方法

讨论了Black-Scholes模型的定价偏差,给出了一种改进方法.假设利率是随机的且风险资产的价格过程服从跳-扩散过程的情况下,研究了欧式期权定价问题,得到了欧式看涨期权和看跌期权定价公式及平价关系.

基于跳跃-扩散过程的煤炭资源采矿权估价三因素模型

煤炭资源采矿权可以被认为是一个多期多阶段的复合看涨期权,煤炭价格、便利收益和利率的随机波动都对煤炭资源采矿权价值有较大的影响。基于期权理论,构建了煤炭价格服从跳跃-扩散过程,利率和便利收益服从均值回复过程的煤炭资源采矿权估价三因素模型。实例运用表明,该模型较单因素模型、双因素模型更能体现资源所有者的权益。随着采矿权有效期的临近,关于利率、便利收益、煤炭开采成本和煤炭价格的信息趋于透明,这些因素的变动对采矿权的影响逐渐减弱。

随机市场系数条件下不连续股价的M-V投资组合选择

在假定市场系数为随机过程并且股票价格服从跳跃扩散过程的市场条件下应用鞅方法讨论一个M-V模型的最优投资组合选择问题.通过引进凹函数U(x)以及等价鞅测度,应用鞅方法以及贝叶斯定理得到了最优投资策略以及有效边界表达式.

基于跳跃-扩散利率模型的浮动利率抵押贷款支持证券定价研究

已有文献在研究抵押贷款支持证券的定价时,所假设的利率随机过程大多是连续的,没有考虑到利率受人为或突发事件的干扰而产生跳跃不连续的情形。本文利用跳跃-扩散模型模拟利率随机过程,结合我国借款人行为特点建立提前偿还比例危险模型,运用Monte Carlo模拟方法,研究了浮动利率抵押贷款支持证券的定价,讨论了利率模型各参数的变化对定价的影响。经模拟发现:利率跳跃的频率、跳跃幅度的波动越大,证券价格越大,而利率跳跃幅度的均值越大,证券价格却越小。

分数跳-扩散环境下欧式期权定价的Ornstein-Uhlenbeck模型

假设股票价格遵循分数布朗运动和复合泊松过程驱动的随机微分方程,建立分数跳-扩散Ornstein-Uhlenbeck模型,利用价格过程的实际概率测度和公平保费原理,得到欧式看涨期权定价的解析表达式,推广了关于欧式期权定价的结论.

跳跃-扩散模型欧式期权定价

采用鞅方法讨论了跳跃扩散模型下欧式期权的定价问题.利用等价鞅测度和标准正态分布函数给出这一模型下欧式看涨期权和看跌期权的定价公式.

跳-扩散模型下一类房产期权模型及计算分析

假设房产价格服从跳-扩散模型,研究分期付款看涨房产期权的定价问题.以北京西奥中心写字楼"以租代售"的实例为背景,在Black-Scholes框架下建立了实物期权定价的偏微分方程模型,推导出相应的二叉树格式离散模型,并进行数值模拟和参数分析,结果表明该模型较扩散模型更接近实际市场.

基于仿射跳跃-扩散过程的电力市场电价随机模型

基于金融工程理论的电价随机模型对于竞争性电力市场中的电力衍生产品定价、风险管理、资产定价及不确定条件下的投资决策等具有基础意义。文中提出了基于仿射跳跃-扩散过程的、具有2个和3个跳跃分量的电价随机模型以及一种新的参数标定方法。所提出的近似参数标定方法可利用历史电价数据快速求解模型参数,且计算量与电价样本点数量无关。由于直接根据历史电价的数字特征求解,不存在误差累积的问题。根据法国Powernext、德国EEX和荷兰APX等3 个主要欧洲电力市场的历史日前小时电价数据标定了模型参数并采用Monte Carlo方法分析了模型的模拟效果。计算表明,文中提出的电价随机模型能够较为准确地描述电价的整体概率分布,满足进一步研究的需要。