Journal of Mathematical Imaging and Vision
Variable order revised binary treecode
Journal of Computational Physics
Shadow hybrid Monte Carlo: an efficient propagator in phase space of macromolecules
Journal of Computational Physics
Development, evaluation and benchmarking of simulation software for biomolecule-based computing
Natural Computing: an international journal
Natural Computing: an international journal
WIGGLE: A new constrained molecular dynamics algorithm in Cartesian coordinates
Journal of Computational Physics
Optimization Methods & Software
Error analysis of a stochastic immersed boundary method incorporating thermal fluctuations
Mathematics and Computers in Simulation
A Cartesian treecode for screened coulomb interactions
Journal of Computational Physics
An incomplete Hessian Newton minimization method and its application in a chemical database problem
Computational Optimization and Applications
Encoding molecular motions in voxel maps
ICRA'09 Proceedings of the 2009 IEEE international conference on Robotics and Automation
Dinucleotide step parameterization of pre-miRNAs using multi-objective evolutionary algorithms
EvoBIO'07 Proceedings of the 5th European conference on Evolutionary computation, machine learning and data mining in bioinformatics
A graph-based developmental swarm representation and algorithm
ANTS'10 Proceedings of the 7th international conference on Swarm intelligence
GLUBs: games for learning and understanding biology
Futureplay '10 Proceedings of the International Academic Conference on the Future of Game Design and Technology
Encoding Molecular Motions in Voxel Maps
IEEE/ACM Transactions on Computational Biology and Bioinformatics (TCBB)
Computational Optimization and Applications
Automatica (Journal of IFAC)
On the computation of protein backbones by using artificial backbones of hydrogens
Journal of Global Optimization
On the number of solutions of the discretizable molecular distance geometry problem
COCOA'11 Proceedings of the 5th international conference on Combinatorial optimization and applications
Protein simulation using fast volume preservation
ICCS'06 Proceedings of the 6th international conference on Computational Science - Volume Part I
An embedded atom hyperelastic constitutive model and multiscale cohesive finite element method
Computational Mechanics
Monte Carlo strategies for first-principles simulations of elemental systems
Proceedings of the 1st Conference of the Extreme Science and Engineering Discovery Environment: Bridging from the eXtreme to the campus and beyond
The discretizable molecular distance geometry problem
Computational Optimization and Applications
On the estimation and correction of discretization error in molecular dynamics averages
Applied Numerical Mathematics
Journal of Scientific Computing
Journal of Computational Physics
A discrete search algorithm for finding the structure of protein backbones and side chains
International Journal of Bioinformatics Research and Applications
On-Board Multi-GPU molecular dynamics
Euro-Par'13 Proceedings of the 19th international conference on Parallel Processing
On the number of realizations of certain Henneberg graphs arising in protein conformation
Discrete Applied Mathematics
| Hi-index | 0.03 |
From the Publisher:The basic goal of this new text is to introduce students to molecular modeling and simulation and to the wide range of biomolecular problems being attacked by computational techniques. The premise of the author is that the dazzling modeling and simulation software now available often leaves practitioners unaware of the fundamental problems and the complex algorithmic approaches to them that still form the heart of ongoing research. The text provides an overview of biomolecular modeling and structure, molecular mechanics (including functional construction and evaluation techniques), molecular graphics and visualization, techniques for conformational sampling (Monte Carlo, global optimization), methods for geometry optimization, and molecular dynamics simulations. Throughout the text emphasizes that the field changes very rapidly and that it is full of exciting discoveries, and that many of these findings lead to medical and technological breakthroughs. This book stimulates this excitement, while still providing students many computational details.The text evolved from Molecular Modeling courses taught by the author at New York University. It contains detailed illustrations throughout and homework assignments at the end of the book. It should appeal to beginning graduate students in medical schools, and in many scientific departments such as biology, chemistry, physics, mathematics and computer science.