In this work we study drawdowns and drawups of general diffusion processes. The drawdown process is defined as the current drop of the process from its running maximum, while the drawup process is defined as the current increase over its running minimum. The drawdown and the drawup are the first hitting times of the drawdown and the drawup processes respectively. In particular, we derive a closed-form formula for the Laplace transform of the probability density of the drawdown of a units when it precedes the drawup of b units. We then separately consider the special case of drifted Brownian motion, for which we derive a closed form formula for the above-mentioned density by inverting the Laplace transform. Finally, we apply the results to a...
International audienceWe study a model of diffusion in a brownian potential. This model was firstly ...
We study drawdowns and rallies of Brownian motion. A rally is defined as the difference of the prese...
We study drawdowns and rallies of Brownian motion. A rally is defined as the difference of the prese...
This paper studies drawdown and drawup processes in a general diffusion model. The main result is a ...
AbstractThis paper studies drawdown and drawup processes in a general diffusion model. The main resu...
We obtain closed-form expressions for the value of the joint Laplace transform of the running maximu...
We obtain closed-form expressions for the value of the joint Laplace transform of the running maximu...
We obtain closed-form expressions for the value of the joint Laplace transform of therunning maximum...
We obtain closed-form expressions for the values of joint Laplace transforms of the running maximum ...
First, we give a closed-form formula for first passage time of a reflected Brownian motion with drif...
Abstract In this paper we examine the probabilistic behavior of two quantities closely related to ma...
The maximum drawdown at time T of a random process on [0,T] can be defined informally as the largest...
We consider the drawdown and drawup of a fractional Brownian motion with trend, which corresponds to...
In the paper "On Truncated Variation of Brownian Motion with Drift" (Bull. Pol. Acad. Sci. Math. 56 ...
We investigate the exit times from an interval for a general one-dimensional time-homogeneous diffus...
International audienceWe study a model of diffusion in a brownian potential. This model was firstly ...
We study drawdowns and rallies of Brownian motion. A rally is defined as the difference of the prese...
We study drawdowns and rallies of Brownian motion. A rally is defined as the difference of the prese...
This paper studies drawdown and drawup processes in a general diffusion model. The main result is a ...
AbstractThis paper studies drawdown and drawup processes in a general diffusion model. The main resu...
We obtain closed-form expressions for the value of the joint Laplace transform of the running maximu...
We obtain closed-form expressions for the value of the joint Laplace transform of the running maximu...
We obtain closed-form expressions for the value of the joint Laplace transform of therunning maximum...
We obtain closed-form expressions for the values of joint Laplace transforms of the running maximum ...
First, we give a closed-form formula for first passage time of a reflected Brownian motion with drif...
Abstract In this paper we examine the probabilistic behavior of two quantities closely related to ma...
The maximum drawdown at time T of a random process on [0,T] can be defined informally as the largest...
We consider the drawdown and drawup of a fractional Brownian motion with trend, which corresponds to...
In the paper "On Truncated Variation of Brownian Motion with Drift" (Bull. Pol. Acad. Sci. Math. 56 ...
We investigate the exit times from an interval for a general one-dimensional time-homogeneous diffus...
International audienceWe study a model of diffusion in a brownian potential. This model was firstly ...
We study drawdowns and rallies of Brownian motion. A rally is defined as the difference of the prese...
We study drawdowns and rallies of Brownian motion. A rally is defined as the difference of the prese...