Perturbative Traveling-Wave Solution for a Flux-Limited Reaction-Diffusion Morphogenesis Equation
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2020
Detail
Title:
Perturbative Traveling-Wave Solution for a Flux-Limited Reaction-Diffusion Morphogenesis Equation
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.
Journal Title:
National / International:
International
Published:
Published
Vol.:
76
Issue No.:
4
Number.:
From Page.:
323
To Page.:
329
DOI no.:
https://doi.org/10.3938/jkps.76.323
Accepted date..:
2019-10-21
Url:
3
Propagating wave in the flock of self-propelled particles
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2018
Detail
Title:
Propagating wave in the flock of self-propelled particles
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Ngamsaad W, Suantai S. Propagating wave in the flock of self-propelled particles.In Physical Review E2018;98(26):062618.
Journal Title:
National / International:
International
Published:
Published
Vol.:
98
Issue No.:
6
Number.:
062618
From Page.:
To Page.:
DOI no.:
https://doi.org/10.1103/PhysRevE.98.062618
Accepted date..:
Url:
4
Mechanically-driven spreading of bacterial populations
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2016
Detail
Title:
Mechanically-driven spreading of bacterial populations
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Ngamsaad W, Suantai S. Mechanically-driven spreading of bacterial populations. Communications in Nonlinear Science and Numerical Simulation2016;35:88-96.
Journal Title:
National / International:
International
Published:
Published
Vol.:
35
Issue No.:
Number.:
From Page.:
88
To Page.:
96
DOI no.:
https://doi.org/10.1016/j.cnsns.2015.10.026
Accepted date..:
2015-10-20
Url:
5
Mechanical reaction-diffusion model for bacterial population dynamics
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2014
Detail
Title:
Mechanical reaction-diffusion model for bacterial population dynamics
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Waipot N, Suthep S. Mechanical reaction-diffusion model for bacterial population dynamics. Communications in Nonlinear Science and Numerical Simulation2014;35:88-96.
Radial propagation in population dynamics with density-dependent diffusion
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2014
Detail
Title:
Radial propagation in population dynamics with density-dependent diffusion
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Ngamsaad W. Radial propagation in population dynamics with density-dependent diffusion. Physical Review E2014;89(1):12122.
Journal Title:
National / International:
International
Published:
Published
Vol.:
89
Issue No.:
1
Number.:
012122
From Page.:
To Page.:
DOI no.:
https://doi.org/10.1103/PhysRevE.89.012122
Accepted date..:
Url:
10
An Ising-like model for monolayer-monolayer coupling in lipid bilayers
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2013
Detail
Title:
An Ising-like model for monolayer-monolayer coupling in lipid bilayers
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.
Journal Title:
National / International:
International
Published:
Published
Vol.:
63
Issue No.:
1
Number.:
From Page.:
71
To Page.:
77
DOI no.:
https://doi.org/10.3938/jkps.63.71
Accepted date..:
2013-04-01
Url:
11
Wave Propagation in Biological Population Dynamics (in Thai)
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2013
Detail
Title:
Wave Propagation in Biological Population Dynamics (in Thai)
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Ngamsaad W. Wave Propagation in Biological Population Dynamics (in Thai). KKU Science Journal2013;41(2):361-372.
Journal Title:
National / International:
International
Published:
Published
Vol.:
41
Issue No.:
2
Number.:
From Page.:
361
To Page.:
372
DOI no.:
Accepted date..:
2013-01-01
Url:
12
Self-similar dynamics of bacterial chemotaxis
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2012
Detail
Title:
Self-similar dynamics of bacterial chemotaxis
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Ngamsaad W, Khompurngson K. Self-similar dynamics of bacterial chemotaxis. Physical Review E2012;86(6):062901.
Journal Title:
National / International:
International
Published:
Published
Vol.:
86
Issue No.:
6
Number.:
From Page.:
1
To Page.:
4
DOI no.:
https://arxiv.org/abs/1209.0386v2
Accepted date..:
Url:
13
Compositional domain dynamics in two-coupled lipid monolayer: A mean field approximation approach
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2012
Detail
Title:
Compositional domain dynamics in two-coupled lipid monolayer: A mean field approximation approach
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.
Journal Title:
National / International:
International
Published:
Published
Vol.:
7
Issue No.:
46
Number.:
From Page.:
6034
To Page.:
6043
DOI no.:
https://doi.org/10.5897/IJPS12.285
Accepted date..:
2012-11-12
Url:
14
Self-similar solutions to a density-dependent reaction-diffusion model
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2012
Detail
Title:
Self-similar solutions to a density-dependent reaction-diffusion model
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Waipot Ngamsaad, Kannika Khompurngson.Self-similar solutions to a density-dependent reaction-diffusion model.
Phys. Rev. 2012,E 85, 066120.
Journal Title:
National / International:
International
Published:
Published
Vol.:
85
Issue No.:
6
Number.:
066120
From Page.:
-
To Page.:
-
DOI no.:
https://doi.org/10.1103/PhysRevE.85.066120
Accepted date..:
Url:
15
Some Exact Self-Similar Solutions to a Density-Dependent Reaction-Diffusion Model
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2012
Detail
Title:
Some Exact Self-Similar Solutions to a Density-Dependent Reaction-Diffusion Model
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
Khompurngson K, Ngamsaad W. Some Exact Self-Similar Solutions to a Density-Dependent Reaction-Diffusion Model. 2012:1-5.
Journal Title:
National / International:
International
Published:
Published
Vol.:
Issue No.:
Number.:
From Page.:
1
To Page.:
5
DOI no.:
10.1103/PhysRevE.85.066120
Accepted date..:
Url:
16
Spatial distributions and energy landscape of MinE protein dynamics via the biophysical spot tracking technique
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2011
Detail
Title:
Spatial distributions and energy landscape of MinE protein dynamics via the biophysical spot tracking technique
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.
Journal Title:
National / International:
International
Published:
Published
Vol.:
6
Issue No.:
15
Number.:
From Page.:
3733
To Page.:
3744
DOI no.:
Spatial distributions and energy landscape of MinE protein dynamics via the biophysical spot tracking technique
Accepted date..:
2011-06-02
Url:
17
Biophysical approach for studying the MinD protein dynamics and energy landscape: a novel use of the spot tracking technique
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2011
Detail
Title:
Biophysical approach for studying the MinD protein dynamics and energy landscape: a novel use of the spot tracking technique
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.
Journal Title:
National / International:
International
Published:
Published
Vol.:
55
Issue No.:
1
Number.:
11201
From Page.:
To Page.:
DOI no.:
https://doi.org/10.1051/epjap/2011100294
Accepted date..:
2011-04-11
Url:
18
Pinning of domains for fluid–fluid phase separation in lipid bilayers with asymmetric dynamics
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2011
Detail
Title:
Pinning of domains for fluid–fluid phase separation in lipid bilayers with asymmetric dynamics
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.
Journal Title:
National / International:
International
Published:
Published
Vol.:
7
Issue No.:
6
Number.:
From Page.:
2848
To Page.:
2857
DOI no.:
https://doi.org/10.1039/C0SM00462F
Accepted date..:
2010-11-15
Url:
19
The effect of boundary conditions on the mesoscopic lattice Boltzmann method: Case study of a reaction–diffusion based model for Min-protein oscillation
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2010
Detail
Title:
The effect of boundary conditions on the mesoscopic lattice Boltzmann method: Case study of a reaction–diffusion based model for Min-protein oscillation
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.
Journal Title:
National / International:
International
Published:
Published
Vol.:
217
Issue No.:
6
Number.:
From Page.:
2339
To Page.:
2347
DOI no.:
https://doi.org/10.1016/j.amc.2010.07.033
Accepted date..:
2010-07-17
Url:
20
Investigating flow patterns in a channel with complex obstacles using the lattice Boltzmann method
Asst. Prof. Dr. Waipot Ngamsaad
Journal
2010
Detail
Title:
Investigating flow patterns in a channel with complex obstacles using the lattice Boltzmann method
Author:
Asst. Prof. Dr. Waipot Ngamsaad
Reference:
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.