| # |
Authors |
Title |
Source |
Year |
Pages |
| 1 |
Naz, H., Dumrongpokaphan, T., Sitthiwirattham, T., Alrabaiah, H., Ansari, K.J. |
A numerical scheme for fractional order mortgage model of economics |
Results in Applied Mathematics |
2023 |
- |
| 2 |
Dumrongpokaphan, T., Patanarapeelert, N., Sitthiwirattham, T. |
Nonlocal neumann boundary value problem for fractional symmetric hahn integrodifference equations |
Symmetry |
2021 |
- |
| 3 |
Dumrongpokaphan, T., Ntouyas, S.K., Sitthiwirattham, T. |
Separate fractional (P, q)-integrodifference equations via nonlocal fractional (p, q)-integral boundary conditions |
Symmetry |
2021 |
- |
| 4 |
Dumrongpokaphan, T., Patanarapeelert, N., Sitthiwirattham, T. |
Existence results of nonlocal Robin mixed Hahn and q-difference boundary value problems |
Advances in Difference Equations |
2020 |
- |
| 5 |
Dumrongpokaphan, T., Patanarapeelert, N., Sitthiwirattham, T. |
On sequential fractional q-Hahn integrodifference equations |
Mathematics |
2020 |
- |
| 6 |
Dumrongpokaphan, T., Kosheleva, O., Kreinovich, V., Belina, A. |
Why Sparse? |
Studies in Computational Intelligence |
2020 |
461 - 470 |
| 7 |
Kosheleva, O., Kreinovich, V., Dumrongpokaphan, T. |
A Symmetry-Based Explanation of the Main Idea Behind Chubanov’s Linear Programming Algorithm |
Studies in Computational Intelligence |
2020 |
55 - 64 |
| 8 |
Dumrongpokaphany, T., Koshelevaz, O., Kreinovichz, V. |
Translating discrete estimates into a less detailed scale: An optimal approach |
Thai Journal of Mathematics |
2019 |
41 - 55 |
| 9 |
Dumrongpokaphan, T., Kreinovich, V., Sriboonchitta, S. |
Why threshold models: A theoretical explanation |
Studies in Computational Intelligence |
2019 |
137 - 145 |
| 10 |
Dumrongpokaphan, T., Gholamy, A., Kreinovich, V., Nguyen, H.P. |
Why hammerstein-type block models are so efficient: Case study of financial econometrics |
Studies in Computational Intelligence |
2019 |
129 - 136 |
| 11 |
Dumrongpokaphan, T., Patanarapeelert, N., Sitthiwirattham, T. |
Existence results of a coupled system of Caputo fractional Hahn difference equations with nonlocal fractional Hahn integral boundary value conditions |
Mathematics |
2018 |
- |
| 12 |
Sriboonchitta, S., Longpré, L., Kreinovich, V., Dumrongpokaphan, T. |
Why the best predictive models are often different from the best explanatory models: A theoretical explanation |
Studies in Computational Intelligence |
2018 |
163 - 171 |
| 13 |
Kreinovich, V., Kosheleva, O., Dumrongpokaphan, T. |
Beyond traditional applications of fuzzy techniques: Main idea and case studies |
Studies in Fuzziness and Soft Computing |
2018 |
465 - 481 |
| 14 |
Zapata, F., Kosheleva, O., Kreinovich, V., Dumrongpokaphan, T. |
Do It Today or Do It Tomorrow: Empirical Non-exponential Discounting Explained by Symmetry Ideas |
Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) |
2018 |
27 - 38 |
| 15 |
Dumrongpokaphan, T., Kreinovich, V. |
Markowitz portfolio theory helps decrease medicines’ side effect and speed up machine learning |
Studies in Computational Intelligence |
2018 |
86 - 93 |
| 16 |
Kreinovich, V., Dumrongpokaphan, T., Nguyen, H.T., Kosheleva, O. |
How to gauge accuracy of processing big data: Teaching machine learning techniques to gauge their own accuracy |
Studies in Computational Intelligence |
2018 |
198 - 204 |
| 17 |
Kreinovich, V., Dumrongpokaphan, T. |
How to estimate statistical characteristics based on a sample: Nonparametric maximum likelihood approach leads to sample mean, sample variance, etc. |
Studies in Computational Intelligence |
2018 |
192 - 197 |
| 18 |
Dumrongpokaphan, T., Kreinovich, V. |
Kuznets curve: A simple dynamical system-based explanation |
Studies in Computational Intelligence |
2018 |
177 - 181 |
| 19 |
Kreinovich, V., Dumrongpokaphan, T. |
Optimal group decision making criterion and how it can help to decrease poverty, inequality, and discrimination |
Studies in Fuzziness and Soft Computing |
2018 |
3 - 19 |
| 20 |
Dumrongpokaphan, T., Kreinovich, V. |
Why cannot we have a strongly consistent family of skew normal (And higher order) distributions |
Studies in Computational Intelligence |
2017 |
69 - 77 |
| 21 |
Kosheleva, O., Kreinovich, V., Dumrongpokaphan, T. |
How to explain ubiquity of constant elasticity of substitution (CES) production and utility functions without explicitly postulating CES |
Studies in Computational Intelligence |
2017 |
89 - 98 |
| 22 |
Longpré, L., Kreinovich, V., Dumrongpokaphan, T. |
Entropy as a measure of average loss of privacy |
Thai Journal of Mathematics |
2017 |
7 - 15 |
| 23 |
Dumrongpokaphan, T., Kreinovich, V., Nguyen, H.T. |
Maximum entropy as a feasible way to describe joint distribution in expert systems |
Thai Journal of Mathematics |
2017 |
35 - 44 |
| 24 |
Dumrongpokaphan, T., Kananthai, A. |
On the estimation of the hedging of the asset price involving the asian option |
Far East Journal of Mathematical Sciences |
2016 |
537 - 548 |
| 25 |
Dumrongpokaphan, T., Barragan, P., Kreinovich, V. |
Empirically successful transformations from non-gaussian to close-to-gaussian distributions: Theoretical justification |
Thai Journal of Mathematics |
2016 |
51 - 61 |
| 26 |
Batyrshin, I., Dumrongpokaphan, T., Kreinovich, V., Kosheleva, O. |
How to select an appropriate similarity measure: Towards a symmetry-based approach |
Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) |
2016 |
457 - 468 |
| 27 |
Dumrongpokaphan, T., Kaewkheaw, T., Ouncharoen, R. |
Stability analysis of epidemic model with varrying total population size and constant immigration rate |
Chiang Mai Journal of Science |
2014 |
470 - 485 |
| 28 |
Ouncharoen, R., Daengkongkho, S., Dumrongpokaphan, T., Lenbury, Y. |
Delay SIR model with nonlinear incident rate and varying total population |
International Journal of Mathematics and Computers in Simulation |
2013 |
369 - 378 |
| 29 |
Ouncharoen, R., Intawichai, S., Dumrongpokaphan, T., Lenbury, Y. |
A mathematical model for HIV apheresis |
International Journal of Mathematical Models and Methods in Applied Sciences |
2013 |
810 - 819 |
| 30 |
Dumrongpokaphan, T., Jaihonglam, W., Ouncharoen, R. |
Stability of a two epidemics model |
Advances in Intelligent and Soft Computing |
2011 |
443 - 451 |
| 31 |
Dumrongpokaphan, T., Lenbury, Y., Ouncharoen, R., Xu, Y. |
An intracellular delay-differential equation model of the HIV infection and immune control |
Mathematical Modelling of Natural Phenomena |
2007 |
84 - 112 |
| 32 |
Dumrongpokaphan, T., Lenbury, Y., Crooke, P.S. |
The Analysis of Higher-Order Cascade Systems with Separation Conditions Pivoting on the Slow Components: Application to a Model of Migration for Survival of the Species |
Mathematical and Computer Modelling |
2003 |
671 - 690 |
| 33 |
Dumrongpokaphan, T., Lenbury, Y. |
Cascade mechanism in a self-regulatory endocrine system. Modeling pulsatile hormone secretion |
Pure and Applied Chemistry |
2002 |
881 - 890 |