Ngamsaad W, Suantai S. Perturbative Traveling-Wave Solution for a Flux-Limited Reaction-Diffusion Morphogenesis Equation. Journal of the Korean Physical2020;76(4):323-329.

Ngamsaad W, Suantai S. Propagating wave in the flock of self-propelled particles. In Physical Review E2018;98(26):062618.

Ngamsaad W, Suantai S. Mechanically-driven spreading of bacterial populations. Communications in Nonlinear Science and Numerical Simulation2016;35:88-96.

Waipot N, Suthep S. Mechanical reaction-diffusion model for bacterial population dynamics. Communications in Nonlinear Science and Numerical Simulation2014;35:88-96. 

 Ngamsaad W. Radial propagation in population dynamics with density-dependent diffusion. Physical Review E2014;89(1):12122.

Kan S, Charin M, Narin N, Waipot N, Darapond T, Wannapong T. An Ising-like model for monolayer-monolayer coupling in lipid bilayers. Journal of the Korean Physical Society2013;63(1):71-77.

Ngamsaad W. Wave Propagation in Biological Population Dynamics (in Thai). KKU Science Journal2013;41(2):361-372.

Ngamsaad W, Khompurngson K. Self-similar dynamics of bacterial chemotaxis. Physical Review E2012;86(6):062901.

Sornbundit K, Ngamsaad W, Modchang C, Nuttavut N, Triampo D, Triampo W. Compositional domain dynamics in two-coupled lipid monolayer: A mean field approximation approach. International Journal of Physical Sciences2012;7(46):6034-6043.

Waipot Ngamsaad, Kannika Khompurngson.Self-similar solutions to a density-dependent reaction-diffusion model.

Phys. Rev. 2012,E 85, 066120.

Khompurngson K, Ngamsaad W. Some Exact Self-Similar Solutions to a Density-Dependent Reaction-Diffusion Model. 2012:1-5.

Aroonnual S, Ngamsaad W, Kanthang P, Nuttawut N, Triampo W, Triampo D, Krittanai C. Spatial distributions and energy landscape of MinE protein dynamics via the biophysical spot tracking technique. International Journal of Physical Sciences2011;6(15):3733-3744.

Ngamsaad W, Kanthang P, Nuttavut N, Triampo W, Triampo D, Krittanai C. Biophysical approach for studying the MinD protein dynamics and energy landscape: a novel use of the spot tracking technique. The European Physical Journal Applied Physics2011;55(1):11201.

Ngamsaad W, May S, Wagner JW, Triampo W. Pinning of domains for fluid–fluid phase separation in lipid bilayers with asymmetric dynamics. Soft Matter2011;7(6): 2848-2857.

Ngamsaad W, Kanthang P, Modchang C, Sriyab S, Triampo W. The effect of boundary conditions on the mesoscopic lattice Boltzmann method: Case study of a reaction–diffusion based model for Min-protein oscillation. Applied mathematics and computation2010;217(6):2339-2347.

Ngamsaad W, Yojina J, Nuttavut N, Triampo D, Lenbury Y, Kanthang P, Sriyab S, Triampo W. Investigating flow patterns in a channel with complex obstacles using the lattice Boltzmann method. Journal of mechanical science and technology2010;24(10):2025-2034.

Ngamsaad W, Yojina J, Nuttavut N, Triampo D, Lenbury Y, Triampo W, Kanthang P, Sriyab S. More Realistic Model for Simulating Min Protein Dynamics: Lattice Boltzmann Method Incorporating the Role of Nucleoids. International Journal of Bioengineering and Life Sciences2010;4(7):422-447.

Ngamsaad W, Yojina J, Triampo W. Theoretical studies of phase-separation kinetics in a Brinkman porous medium. Journal of Physics A: Mathematical and Theoretical2010;43(20):202001.

Ngamsaad W, Yojina J, Kanthang P, Modchang C, Krittanai C, Triampo D, Nuttawut N, Triampo W. Quantitative approach of Min protein researches and applications: Experiments, mathematical modeling and computer simulations. African Journal of Biotechnology2009;8(25):7350-7362.

Ngamsaad W, Sriyab S, Yojina J, Kanthang P, Modchang C, Nuttavut N, Lenbury Y, Krittanai C, Triampo W. Mesoscale modeling technique for studying the dynamics oscillation of Min protein: Pattern formation analysis with lattice Boltzmann method. Computers in biology and medicine2009;39(5):412-424.

Ngamsaad W, Unai S, Kanthang P, Junthon U, Triampo W, Modchang C, Krittanai C. Quantitative analysis of time-series fluorescence microscopy using a spot tracking method: application to Min protein dynamics. Biologia2009;64(1):27-42.

Ngamsaad W, Modchang C, Triampo W, Kanthang P, Junthorn U, Unai S, Nuttavut N, Triampo D, Lenbury Y. Stochastic modeling of external electric field effect on Escherichia coli Min protein dynamics. Journal of the Korean Physical Society2008;53(2):851-862.

Modchang C, Triampo W, Kangthang P, Junthorn U, Somris U, Ngamsaad W, Nuttawut N, Lenbury Y. Stochastic modeling of the effect of an external electric field on the Min protein Dynamics in E. coli. Journal- Korean Physical Society 53(2):851-862.

Ngamsaad W, Junthorn U, Unai S, Kanthang P, Modchang C, Triampo W, Krittanai C, Wtriampo D, Lenbury Y. Single-particle tracking method for quantitative tracking and biophysical studies of the MinE protein. Journal of Korean Physical Society2018;52(3):639.

S. Unai, P. Khantang, U. Junthorn, W. Ngamsaad, N. Nattavut, W. Triampo, C. Krittanai.Biophysical study of MinD protein oscillation in E. coli.2008; 

N. Waipot.THE DYNAMICS OF THE PARTITIONING OF THE BACTERIA: LATTICE-BOLTZMANN METHOD.2005;

W. Ngamsaad, W. Triampo, P. Kanthang, I.-M. Tang, N. Nuttawut, C. Modchang, Y. Lenbury.A lattice Boltzmann method for modeling min proteins oscillation in Escherichia coli.2005; 339-356

Ngamsaad, W., Modchang, C., Kanthang, P., Triampo, W., Nuttawut, N., Tang, I., Lenbury, Y. (2014). Modeling of the dynamic pole-to-pole oscillations of the min proteins in bacterial cell division: The effect of an external field. In arXiv preprint physics/0412110. On December 17, 2004.

Ngamsaad, W., Kanthang, P., Modchang, C., Triampo, W., Nuttawut, N., Tang, I., Lenbury, Y. (2004). The dynamics of the min proteins of Escherichia coli under the constant external fields. In arXiv preprint q-bio/0412023. On December 13, 2004.

W. Ngamsaad, W. Triampo, P. Kanthang, I Tang, N. Nuttawut, C. Modjung.A one-dimensional Lattice Boltzmann method for modeling the dynamic pole-to-pole oscillations of Min proteins for determining the position of the midcell division plane.2004; 1-13