Rate efficient estimation of realized Laplace transform of volatility with microstructure noise

The Laplace transform of the extinction time is determined for a general birth and death process with arbitrary catastrophe rate and catastrophe size distribution. It is assumed only that the birth rates satisfyλ0= 0,λj> 0 for eachj> 0, and. Necessary and sufficient conditions for certain extinction of the population are derived. The results are applied to the linear birth and death process (λj=jλ, µj=jμ) with catastrophes of several different types.

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Solution of a Mathematical Model Describing the Change of Hormone Level in Thyroid Using the Laplace Transform

Mathematical Journal of Interdisciplinary Sciences ◽

10.15415/mjis.2013.21009 ◽

2013 ◽

Vol 2 (1) ◽

pp. 99-108

Author(s):

Shama M. Mulla ◽

Chhaya H. Desai

Keyword(s):

Mathematical Model ◽

Laplace Transform ◽

Hormone Level ◽

The Laplace Transform

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SIMULATION OF INFILTRATION IN POROUS MEDIUM BY LAPLACE TRANSFORM TECHNIQUE AND FINITE DIFFERENCE METHOD

Hybrid Methods in Engineering ◽

10.1615/hybmetheng.v3.i1.10 ◽

2001 ◽

Vol 3 (1) ◽

pp. 9 ◽

Cited By ~ 1

Author(s):

E. Wendland ◽

Marco T. Vilhena

Keyword(s):

Porous Medium ◽

Finite Difference ◽

Finite Difference Method ◽

Laplace Transform ◽

Difference Method ◽

Laplace Transform Technique

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Modal Estimates and Stability Analysis of a Heat Exchanger Application. - A Laplace Transform Approach -

International Symposium on Transient Convective Heat Transfer ◽

10.1615/ichmt.1996.transientconvheattransf.300 ◽

1996 ◽

Author(s):

P. Ligarius ◽

Nordine Mouhab ◽

L. Estel

Keyword(s):

Stability Analysis ◽

Heat Exchanger ◽

Laplace Transform

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The Resolvent Operator

10.23943/princeton/9780691157122.003.0011 ◽

2017 ◽

Author(s):

Charles L. Epstein ◽

Rafe Mazzeo

Keyword(s):

Cauchy Problem ◽

Heat Equation ◽

Laplace Transform ◽

Heat Kernel ◽

Resolvent Operator ◽

Contour Integration ◽

Resolvent Kernel ◽

The Laplace Transform ◽

Elliptic Estimates ◽

The Resolvent Operator

This chapter describes the construction of a resolvent operator using the Laplace transform of a parametrix for the heat kernel and a perturbative argument. In the equation (μ‎-L) R(μ‎) f = f, R(μ‎) is a right inverse for (μ‎-L). In Hölder spaces, these are the natural elliptic estimates for generalized Kimura diffusions. The chapter first constructs the resolvent kernel using an induction over the maximal codimension of bP, and proves various estimates on it, along with corresponding estimates for the solution operator for the homogeneous Cauchy problem. It then considers holomorphic semi-groups and uses contour integration to construct the solution to the heat equation, concluding with a discussion of Kimura diffusions where all coefficients have the same leading homogeneity.

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High-Frequency Financial Econometrics

10.23943/princeton/9780691161433.001.0001 ◽

2014 ◽

Cited By ~ 20

Author(s):

Yacine Aït-Sahalia ◽

Jean Jacod

Keyword(s):

High Frequency ◽

Practical Importance ◽

Financial Econometrics ◽

Trading Strategies ◽

Financial Data ◽

Jump Processes ◽

High Frequency Trading ◽

Microstructure Noise ◽

Econometric Methods ◽

Mathematical Foundations

High-frequency trading is an algorithm-based computerized trading practice that allows firms to trade stocks in milliseconds. Over the last fifteen years, the use of statistical and econometric methods for analyzing high-frequency financial data has grown exponentially. This growth has been driven by the increasing availability of such data, the technological advancements that make high-frequency trading strategies possible, and the need of practitioners to analyze these data. This comprehensive book introduces readers to these emerging methods and tools of analysis. The book covers the mathematical foundations of stochastic processes, describes the primary characteristics of high-frequency financial data, and presents the asymptotic concepts that their analysis relies on. It also deals with estimation of the volatility portion of the model, including methods that are robust to market microstructure noise, and address estimation and testing questions involving the jump part of the model. As the book demonstrates, the practical importance and relevance of jumps in financial data are universally recognized, but only recently have econometric methods become available to rigorously analyze jump processes. The book approaches high-frequency econometrics with a distinct focus on the financial side of matters while maintaining technical rigor, which makes this book invaluable to researchers and practitioners alike.

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Automated, Accurate, and Scalable Relative Protein-Ligand Binding Free Energy Calculations using Lambda Dynamics

10.26434/chemrxiv.12781310.v1 ◽

2020 ◽

Author(s):

E. Prabhu Raman ◽

Thomas J. Paul ◽

Ryan L. Hayes ◽

Charles L. Brooks III

Keyword(s):

Free Energy ◽

Ligand Binding ◽

Binding Affinity ◽

Binding Free Energy ◽

Computational Cost ◽

Combinatorial Libraries ◽

Free Energy Calculations ◽

Lead Optimization ◽

Efficient Estimation ◽

Lead Compound

<p>Accurate predictions of changes to protein-ligand binding affinity in response to chemical modifications are of utility in small molecule lead optimization. Relative free energy perturbation (FEP) approaches are one of the most widely utilized for this goal, but involve significant computational cost, thus limiting their application to small sets of compounds. Lambda dynamics, also rigorously based on the principles of statistical mechanics, provides a more efficient alternative. In this paper, we describe the development of a workflow to setup, execute, and analyze Multi-Site Lambda Dynamics (MSLD) calculations run on GPUs with CHARMm implemented in BIOVIA Discovery Studio and Pipeline Pilot. The workflow establishes a framework for setting up simulation systems for exploratory screening of modifications to a lead compound, enabling the calculation of relative binding affinities of combinatorial libraries. To validate the workflow, a diverse dataset of congeneric ligands for seven proteins with experimental binding affinity data is examined. A protocol to automatically tailor fit biasing potentials iteratively to flatten the free energy landscape of any MSLD system is developed that enhances sampling and allows for efficient estimation of free energy differences. The protocol is first validated on a large number of ligand subsets that model diverse substituents, which shows accurate and reliable performance. The scalability of the workflow is also tested to screen more than a hundred ligands modeled in a single system, which also resulted in accurate predictions. With a cumulative sampling time of 150ns or less, the method results in average unsigned errors of under 1 kcal/mol in most cases for both small and large combinatorial libraries. For the multi-site systems examined, the method is estimated to be more than an order of magnitude more efficient than contemporary FEP applications. The results thus demonstrate the utility of the presented MSLD workflow to efficiently screen combinatorial libraries and explore chemical space around a lead compound, and thus are of utility in lead optimization.</p>

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