CLCQ-33
LanguageENG
PublishYear2018
publishCompany
CRC Press
EISBN
9781351000918
PISBN
9781138549289
edition
3
- Product Details
- Contents
Since the first edition of Stochastic Modelling for Systems Biology, there have been many interesting developments in the use of "likelihood-free" methods of Bayesian inference for complex stochastic models. Having been thoroughly updated to reflect this, this third edition covers everything necessary for a good appreciation of stochastic kinetic modelling of biological networks in the systems biology context. New methods and applications are included in the book, and the use of R for practical illustration of the algorithms has been greatly extended. There is a brand new chapter on spatially extended systems, and the statistical inference chapter has also been extended with new methods, including approximate Bayesian computation (ABC). Stochastic Modelling for Systems Biology, Third Edition is now supplemented by an additional software library, written in Scala, described in a new appendix to the book.
New in the Third Edition
New chapter on spatially extended systems, covering the spatial Gillespie algorithm for reaction diffusion master equation models in 1- and 2-d, along with fast approximations based on the spatial chemical Langevin equation
Significantly expanded chapter on inference for stochastic kinetic models from data, covering ABC, including ABC-SMC
Updated R package, including code relating to all of the new material
New R package for parsing SBML models into simulatable stochastic Petri net models
New open-source software library, written in Scala, replicating most of the functionality of the R packages in a fast, compiled, strongly typed, functional language
Keeping with the spirit of earlier editions, all of the new theory is presented in a very informal and intuitive manner, keeping the text as accessible as possible to the widest possible readership. An effective introduction to the area of stochastic modelling in computational systems biology, this new edition adds additional detail and computational methods that will provide a stronger foundation for the development of more advanced courses in stochastic biological modelling.
Collected by
- China Agricultural University
- Princeton University
- University of California,Davis
- Yale University
- Stanford University
- Jinan University
- Beijing Normal University at Zhuhai
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