Simple jQuery Dropdowns

Browsing by Author W. Triampo

Jump to: 0-9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
or enter first few letters:  
Showing results 1 to 16 of 16
Issue DateTitleAuthor(s)
1-Jul-2011Biophysical approach for studying the MinD protein dynamics and energy landscape: A novel use of the spot tracking techniqueP. Kanthang; W. Ngamsaad; N. Nuttavut; W. Triampo; D. Triampo; C. Krittanai; Rajamangala University of Technology Phra Nakhon; University of Phayao; Mahidol University; South Carolina Commission on Higher Education
1-Sep-2010The dynamics of a nonlinear model of signal transduction in human under impulsive depressant drug treatmentC. Rattanakul; Y. Lenbury; J. Kongson; W. Triampo; Mahidol University; PERDO Commission on Higher Education
1-Dec-2009Investigating the heterodimerization process among receptors by Monte Carlo cellular automaton simulationA. Wisitsorasak; W. Triampo; D. Triampo; C. Modchang; Y. Lenbury; Mahidol University; South Carolina Commission on Higher Education
1-Dec-2007Modelling river pollution and removal by aerationB. Pimpunchat; W. L. Sweatman; W. Triampo; G. C. Wake; A. Parshotam; Mahidol University; King Mongkut's Institute of Technology Ladkrabang; Massey University, Auckland; National Institute of Water and Atmospheric Research, New Zealand
1-Jun-2005Modified self-avoiding walk in a polymerization processD. Triampo; S. Shobsngob; W. Triampo; P. Pongkitiwanichkul; Mahidol University
1-Dec-2010More realistic model for simulating min protein dynamics: Lattice Boltzmann method incorporating the role of nucleoidsJ. Yojina; W. Ngamsaad; N. Nuttavut; D. Triampo; Y. Lenbury; W. Triampo; P. Kanthang; S. Sriyab; Mahidol University; PERDO; Chiang Mai University
1-Jul-2010More realistic model for simulating min protein dynamics: Lattice Boltzmann method incorporating the role of nucleoidsJ. Yojina; W. Ngamsaad; N. Nuttavut; D. Triampo; Y. Lenbury; W. Triampo; P. Kanthang; S. Sriyab; Mahidol University; PERDO; Chiang Mai University
17-Nov-2010More realistic model for simulating min protein dynamics: Lattice boltzmann method incorporating the role of nucleoidsJ. Yojina; W. Ngamsaad; N. Nuttavut; D. Triampo; Y. Lenbury; W. Triampo; P. Kanthang; S. Sriyab; Mahidol University; PERDO; Chiang Mai University
1-Dec-2010Multiple latticed cellular automata: HIV dynamics in coupled lymph node and peripheral blood compartmentsS. Moonchai; Y. Lenbury; W. Triampo; Chiang Mai University; Mahidol University; South Carolina Commission on Higher Education
1-Jun-2011Non-equilibrium statistical mechanics of a driven lattice gas model: Probability function, FDT-violation, and monte carlo simulationsK. Sudprasert; M. Precharattana; N. Nuttavut; D. Triampo; B. Pattanasiri; Y. Lenbury; W. Triampo; Mahidol University; PERDO
1-Mar-2011Non-equilibrium statistical mechanics of a driven lattice gas model: Probability function, FDT-violation, and Monte Carlo simulationsK. Sudprasert; M. Precharattana; N. Nuttavut; D. Triampo; B. Pattanasiri; Y. Lenbury; W. Triampo; Mahidol University; PERDO
1-Jan-2008Single-particle tracking method for quantitative tracking and biophysical studies of the MinE proteinU. Junthorn; S. Unai; P. Kanthang; W. Ngamsaad; C. Modchang; W. Triampo; C. Krittanai; D. Wtriampo; Y. Lenbury; Mahidol University
1-Oct-2006A stochastic model of cancer growth with immune responseA. Boondirek; Y. Lenbury; J. Wong-Ekkabut; W. Triampo; I. M. Tang; P. Picha; Mahidol University; The Institute of Science and Technology for Research and Development, Mahidol University; National Cancer Institute Thailand
1-Mar-2011Stochastic modeling and combined spatial pattern analysis of epidemic spreadingS. Chadsuthi; W. Triampo; C. Modchang; P. Kanthang; D. Triampo; N. Nuttavut; Mahidol University; Rajamangala University of Technology Phra Nakhon
1-Oct-2018Travel distance and human movement predict paths of emergence and spatial spread of chikungunya in ThailandS. Chadsuthi; B. M. Althouse; S. Iamsirithaworn; W. Triampo; K. H. Grantz; D. A.T. Cummings; South Carolina Commission on Higher Education; Naresuan University; Thailand Ministry of Public Health; University of Washington, Seattle; University of Florida; Mahidol University; Johns Hopkins Bloomberg School of Public Health; New Mexico State University Las Cruces; Institute for Disease Modeling; Centre of Excellence in Mathematics CHE
1-Aug-2004Vacancy-mediated disordering process in binary alloys at finite temperatures: Monte Carlo simulationsJ. Wong-Ekkabut; W. Triampo; I. Ming Tang; D. Triampo; D. Baowan; Y. Lenbury; Mahidol University