# | List of Publication by Prof. Guruprasad Samanta |
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1 | Debaldev Jana, GP Samanta, Ashok Mondal, Sudeshna Mondal, AK Pal, Debasis Manna, Explosive tritrophic food chain model with herd behaviour of prey and finite time blow-up of the top predator, 12(1), 36-56, DOI: 10.1504/IJDSDE.2022.122524, International Journal of Dynamical Systems and Differential Equations, 2022 |
2 | Bijoy Kumar Das, Debgopal Sahoo, GP Samanta, Impact of fear in a delay-induced predator–prey system with intraspecific competition within predator species, 191, 134-156, DOI: 10.1016/j.matcom.2021.08.005, Mathematics and Computers in Simulation, 2022 |
3 | Sudeshna Mondal, Guruprasad Samanta, A comparison study of predator–prey system in deterministic and stochastic environments influenced by fear and its carry-over effects, 137(1), 70, DOI: 10.1140/epjp/s13360-021-02219-9, The European Physical Journal Plus, 2022 |
4 | Sangeeta Saha, Guruprasad Samanta, Analysis of a host–vector dynamics of a dengue disease model with optimal vector control strategy, 195, 31-55, DOI: 10.1016/j.matcom.2021.12.021, Mathematics and Computers in Simulation, 2022 |
5 | Ashok Mondal, AK Pal, GP Samanta, Stability analysis of a complex four species food-web model, 36(1), 99-123, DOI: 10.2298/FIL2201099M, Filomat, 2022 |
6 | Ashok Mondal, AK Pal, P Dolai, GP Samanta, A system of two competitive prey species in presence of predator under the influence of toxic substances, 36(2), 361-385, DOI: 10.2298/FIL2202361M, Filomat, 2022 |
7 | Sangeeta Saha, Guruprasad Samanta, Juan J Nieto, Impact of optimal vaccination and social distancing on COVID-19 pandemic, 200, 285-314, DOI: 10.1016/j.matcom.2022.04.025, Mathematics and Computers in Simulation, 2022 |
8 | Sudeshna Mondal, Guruprasad Samanta, Manuel De la Sen, Dynamics of Oxygen-Plankton Model with Variable Zooplankton Search Rate in Deterministic and Fluctuating Environments, 10(10), 1641, DOI: 10.3390/math10101641, Mathematics, 2022 |
9 | Sudeshna Mondal, Guruprasad Samanta, Dynamics of a delayed toxin producing plankton model with variable search rate of zooplankton, 196, 166-191, DOI: 10.1016/j.matcom.2022.01.022, Mathematics and Computers in Simulation, 2022 |
10 | Protyusha Dutta, Debgopal Sahoo, Sudeshna Mondal, Guruprasad Samanta, Dynamical complexity of a delay-induced eco-epidemic model with Beddington–DeAngelis incidence rate, 197, 45-90, DOI: 10.1016/j.matcom.2022.02.002, Mathematics and Computers in Simulation, 2022 |
11 | Sudeshna Mondal, GP Samanta, Provision of additional food as a tool of biological control in a delayed predator–prey interaction with prey refuge, 42(4), 570-594, DOI: 10.1080/02286203.2021.1949233, International Journal of Modelling and Simulation, 2022 |
12 | Sangeeta Saha and Guruprasad Samanta, Dynamics of an Epidemic Model under the Influence of Environmental Stress, 16, DOI: 10.17537/2021.16.201, Math. Biol. Bioinf., 2021 |
13 | Meghadri Das and Guruprasad Samanta, Stability analysis of a fractional ordered COVID-19 model, 9, 22-45, DOI: 10.1515/cmb-2020-0116, Computational and Mathematical Biophysics, 2021 |
14 | Meghadri Das, Guruprasad Samanta and Manuel De la Sen, Stability analysis and optimal control of a fractional order synthetic drugs transmission model, 9, 703, DOI: 10.3390/math9070703, Mathematics, 2021 |
15 | Sarada Ghosh and G. P. Samanta, Gross Domestic Product Modeling Using “Panel-Data” Concept, 195-218, DOI: 10.1007/978-3-030-72929-5_9, Computational Management, Springer, Cham, 2021 |
16 | Sangeeta Saha and Guruprasad Samanta, Dynamics of an Epidemic Model under the Influence of Environmental Stress, 16(2), 201-243, DOI: 10.17537/2021.16.201, Mathematical Biology, 2021 |
17 | Sangeeta Saha and Guruprasad Samanta, Modelling of a two prey and one predator system with switching effect, 9(1), 90-113, DOI: 10.1515/cmb-2020-0120, Computational and Mathematical Biophysics, 2021 |
18 | Sangeeta Saha and Guruprasad Samanta, Impact of fear in a prey-predator system with herd behaviour, 9(1), 175-197, DOI: 10.1515/cmb-2020-0123, Computational and Mathematical Biophysics, 2021 |
19 | Meghadri Das, Guruprasad Samanta and Manuel De la Sen, A Fractional Ordered COVID-19 Model Incorporating Comorbidity and Vaccination, 9(21), 2806, DOI: 10.3390/math9212806, Mathematics, 2021 |
20 | Sarada Ghosh, Guruprasad Samanta, Manuel De la Sen, Feature selection and classification approaches in gene expression of breast cancer, 8(4), 372-384, DOI: 10.3934/biophy.2021029, AIMS Biophysics, 2021 |
21 | Amartya Das, GP Samanta, Analysis of open-water plankton-fish-mussel system under the influence of environmental noises, 35(12), 4135-4155, DOI: 10.2298/FIL2112135D, Filomat, 2021 |
22 | Sangeeta Saha, GP Samanta, Effect of anti-predator behaviour in a prey-predator system with strong Allee effect in prey population, 35(14), 4837-4870, DOI: 10.2298/FIL2114837S, Filomat, 2021 |
23 | Sangeeta Saha, GP Samanta, Analysis of a tritrophic food chain model with fear effect incorporating prey refuge, 35(15), 4971-4999, DOI: 10.2298/FIL2115971S, Filomat, 2021 |
24 | Sudeshna Mondal, GP Samanta, Pelican–Tilapia interaction in Salton sea: an eco-epidemiological model with strong Allee effect and additional food, 8, 1-24, DOI: 10.1007/s40808-021-01097-5, Modeling Earth Systems and Environment, 2021 |
25 | Meghadri Das, GP Samanta, A prey-predator fractional order model with fear effect and group defense, 9(1), 334-349, DOI: 10.1007/s40435-020-00626-x, International Journal of Dynamics and Control, 2021 |
26 | Sarada Ghosh, GP Samanta, Anuj Mubayi, Comparison of Regression Approaches for Analyzing Survival Data in the Presence of Competing Risks, 8(1), 29–47, DOI: 10.30707/LiB8.1.1647878866.022689, Letters in Biomathematics, 2021 |
27 | Sudeshna Mondal, GP Samanta, Impact of fear on a predator–prey system with prey-dependent search rate in deterministic and stochastic environment, 104(3), 2931-2959, DOI: 10.1007/s11071-021-06435-x, Nonlinear Dynamics, 2021 |
28 | Sarada Ghosh, Guruprasad Samanta, Manuel De la Sen, Multi-Model Approach and Fuzzy Clustering for Mammogram Tumor to Improve Accuracy, 9(5), 59, DOI: 10.3390/computation9050059, Computation, 2021 |
29 | Sudeshna Mondal, GP Samanta, Impact of Fear in a Delayed Predator–Prey System with Prey Refuge in Presence of Additional Food, 66(3), 438-463, DOI: 10.1134/S0006350921030118, Biophysics, 2021 |
30 | Meghadri Das, GP Samanta, Optimal control of a fractional order epidemic model with carriers, 10, 1-22, DOI: 10.1007/s40435-021-00822-3, International Journal of Dynamics and Control, 2021 |
31 | Debgopal Sahoo, GP Samanta, Impact of Fear Effect in a Two Prey-One Predator System with Switching Behaviour in Predation, 1-23, DOI: 10.1007/s12591-021-00575-7, Differential equations and dynamical systems, 2021 |
32 | Sarada Ghosh, Guruprasad Samanta, Manuel De la Sen, Bayesian Analysis for Cardiovascular Risk Factors in Ischemic Heart Disease, 9(7), 1242, DOI: 10.3390/pr9071242, Processes, 2021 |
33 | Sudeshna Mondal, GP Samanta, Juan J Nieto, Dynamics of a Predator-Prey Population in the Presence of Resource Subsidy under the Influence of Nonlinear Prey Refuge and Fear Effect, 2021, DOI: 10.1155/2021/9963031, Complexity, 2021 |
34 | Sangeeta Saha, GP Samanta, Modelling the role of optimal social distancing on disease prevalence of COVID-19 epidemic, 9(3), 1053-1077, DOI: 10.1007/s40435-020-00721-z, International journal of dynamics and control, 2021 |
35 | Debgopal Sahoo, Guruprasad Samanta, Manuel De la Sen, Impact of Fear and Habitat Complexity in a Predator-Prey System with Two Different Shaped Functional Responses: A Comparative Study, 2021, DOI: 10.1155/2021/6427864, Discrete Dynamics in Nature and Society, 2021 |
36 | Sarada Ghosh, Guruprasad Samanta, Juan J Nieto, Application of non-parametric models for analyzing survival data of COVID-19 patients, 14(10), 1328-1333, DOI: 10.1016/j.jiph.2021.08.025, Journal of Infection and Public Health, 2021 |
37 | Amartya Das, GP Samanta, Modelling the fear effect in a two-species predator–prey system under the influence of toxic substances, 70(3), 1501-1526, DOI: 10.1007/s12215-020-00570-x, Rendiconti del Circolo Matematico di Palermo Series 2, 2021 |
38 | Amartya Das, GP Samanta, Modelling the effect of resource subsidy on a two-species predator-prey system under the influence of environmental noises, 9(4), 1800-1817, DOI: 10.1007/s40435-020-00750-8, International Journal of Dynamics and Control, 2021 |
39 | Meghadri Das, GP Samanta, Evolutionary dynamics of a competitive fractional order model under the influence of toxic substances, 78(4), 595-621, DOI: 10.1007/s40324-021-00251-4, SeMA Journal, 2021 |
40 | Ashok Mondal, AK Pal, GP Samanta, Role of Age-selective Harvesting in a Delayed Predator-prey Model together with Fear and Additional Food, 9(4), 343-375,DOI: :10.5890/JEAM.2021.12.003, Journal of Environmental Accounting and Management, 2021 |
41 | Amartya Das, GP Samanta, Influence of environmental noises on a prey–predator species with predator-dependent carrying capacity in alpine meadow ecosystem, 190, 1294-1316, DOI: 10.1016/j.matcom.2021.07.014, Mathematics and Computers in Simulation, 2021 |
42 | Ashok Mondal, AK Pal, GP Samanta, Role of Age-selective Harvesting in a Delayed Predator-prey Model together with Fear and Additional Food, 9(04), 343-375, DOI:10.5890/JEAM.2021.12.003, Journal of Environmental Accounting and Management, 2021 |
43 | D. Pal, G.S. Mahapatra, S.K. Mahato and G.P. Samanta, A mathematical model of a prey-predator type fishery in the presence of toxicity with fuzzy optimal harvesting, 38, 13-36, Journal of applied mathematics & informatics, 2020 |
44 | Meghadri Das, and G.P. Samanta, A fractional order COVID-19 epidemic transmission model: stability analysis and optimal control, Available at SSRN 3635938, 2020 |
45 | Sangeeta Saha & G. P. Samanta, Modelling the role of optimal social distancing on disease prevalence of COVID-19 epidemic, 10.1007/s40435-020-00721-z, International Journal of Dynamics and Control, 2020 |
46 | Debgopal Sahoo & G. P. Samanta, Comparison between two tritrophic food chain models with multiple delays and anti-predation effect, Impact factor: 1.085 (2019) DOI: 10.1142/S1793524521500108, International Journal of Biomathematics, 2020 |
47 | G.P. Samanta, Ashok Mondal, Debgopal Sahoo and P. Dolai, A prey-predator system with herd behaviour of prey in a rapidly fluctuating environment, 1(1), 16-26, Mathematics in Applied Sciences and Engineering, 2020 |
48 | Amartya Das and G.P. Samanta, A prey–predator model with refuge for prey and additional food for predator in a fluctuating environment, 538, ID: 122844 Impact Factor: 2.924, Physica A: Statistical Mechanics and its Applications, 2020 |
49 | Sangeeta Saha & G. P. Samanta, Modeling of Insect-Pathogen Dynamics with Biological Control, 15(2), 268–294 DOI: 10.17537/2020.15.268, Mathematical Biology and Bioinformatics, 2020 |
50 | S. Biswas , D. Pal , G.S.Mahapatra & G. P. Samanta, Dynamics of a Prey-Predator System with Herd Behaviour in Both and Strong Allee Effect in Prey, 65(5), 826–835 DOI: 10.1134/S0006350920050036, Biophysics, Springer, 2020 |
51 | Sudeshna Mondal & G. P. Samanta, Dynamical behaviour of a two-prey and one-predator system with help and time delay, 5, 12-33, Energy, Ecology and Environment, 2020 |
52 | Sangeeta Saha & G. P. Samanta, Local dynamics of a predator–prey community in a moderate period of time, 5, 47-60, Energy, Ecology and Environment, 2020 |
53 | Ashok Mondal , A. K. Pal , G. P. Samanta, Evolutionary Dynamics of a Single-Species Population Model with Multiple Delays in a Polluted Environment, 9(3), 433-459, Discontinuity, Nonlinearity, and Complexity, 2020 |
54 | Debgopal Sahoo, Sudeshna Mondal, G. P. Samanta, Interaction among toxic phytoplankton with viral infection and zooplankton in presence of multiple time delays, https://doi.org/10.1007/s40435-020-00646-7, International Journal of Dynamics and Control, 2020 |
55 | Sudeshna Mondal and G. P. Samanta, Dynamics of a delayed predator–prey interaction incorporating nonlinear prey refuge under the influence of fear effect and additional food, 53, 295601 (47pp) Impact factor: 2.110 (2018) DOI: 10.1088/1751-8121/ab81d8, Journal of Physics A: Mathematical and Theoretical, 2020 |
56 | Sudeshna Mondal & G. P. Samanta, Time-delayed predator–prey interaction with the benefit of antipredation response in presence of refuge, Impact Factor 1.355 DOI: https://doi.org/10.1515/zna-2020-0195, Zeitschrift für Naturforschung A, 2020 |
57 | Sangeeta Saha & G. P. Samanta, A Prey-predator system with disease in prey and cooperative hunting strategy in predator, 53, 485601 (47pp) Impact factor: 2.110 (2018) DOI: 10.1088/1751-8121/abbc7b, Journal of Physics A: Mathematical and Theoretical, 2020 |
58 | Meghadri Das & G. P. Samanta, A prey-predator fractional order model with fear effect and group defense, https://doi.org/10.1007/s40435-020-00626-x, International Journal of Dynamics and Control, 2020 |
59 | Meghadri Das & G. P. Samanta, A delayed fractional order food chain model with fear effect and prey refuge, 178, 218-245 Impact Factor: 1.638, Mathematics and Computers in Simulation, 2020 |
60 | Amartya Das & G. P. Samanta, Modelling the fear effect in a two-species predator-prey system under the influence of toxic substances, DOI: 10.1007/s12215-020-00570-x, Rendiconti del Circolo Matematico di Palermo Series 2, 2020 |
61 | Meghadri Das & G. P. Samanta, Optimal Control of Fractional Order COVID-19 Epidemic Spreading in Japan and India 2020, https://doi.org/10.1142/S179304802050006X, Biophysical Reviews and Letters, 2020 |
62 | Sangeeta Saha, G. P. Samanta, Juan J. Nieto, Epidemic model of COVID-19 outbreak by inducing behavioural response in population, 102, 455–487 Impact factor: 4.867 (2019) DOI: 10.1007/s11071-020-05896-w, Nonlinear Dynamics, 2020 |
63 | Sarada Ghosh and G.P. Samanta, Fitting Cumulative Logit Models for Ordinal Response Variables in Retail Trends and Predictions, 20(1), 32-49, International Journal of Statistics and Economics, 2019 |
64 | Ashok Mondal, A.K. Pal and G.P. Samanta, Analysis of a Delayed Eco-Epidemiological Pest–Plant Model with Infected Pest, 14 (3), 141-170, Biophysical Reviews and Letters, 2019 |
65 | D.Pal, S. Biswas, G.S.Mahapatra and G.P. Samanta, A Prey-Predator Dynamics with Square Root Functional Responses and Strong Allee Effect, 8(3), 419-433, Journal of Applied Nonlinear Dynamics, 2019 |
66 | Sangeeta Saha and G.P. Samanta, Analysis of a predator-prey model with herd behavior and disease in prey incorporating prey refuge, 12(1), Impact factor: 1.085 (2019) ID: 1950007, International Journal of Biomathematics, 2019 |
67 | Sarada Ghosh and G.P. Samanta, Statistical modelling for cancer mortality, DOI 10.1080/23737867.2019.1581104, Letters in Biomathematics, 2019 |
68 | Sarada Ghosh and G.P. Samanta, Model justification and stratification for confounding of Chlamydia trachomatis disease, DOI 10.1080/23737867.2019.1654418, Letters in Biomathemat-ics, 2019 |
69 | Sangeeta Saha and G.P. Samanta, Synthetic drugs transmission: stability analysis and optimal control, DOI https://doi.org/10.1080/23737867.2019.1624204, Letters in Biomathematics, 2019 |
70 | Sudeshna Mondal and G.P. Samanta, Dynamical behaviour of a two-prey and one-predator system with help and time delay, DOI https://doi.org/10.1007/s40974-019-00141-6, Energy, Ecology and Environment, 2019 |
71 | Ashok Mondal, A.K. Pal and G.P. Samanta, On the dynamics of evolutionary Leslie-Gower predator-prey eco-epidemiological model with disease in predator, 10, ID: 100034, Ecological Genetics and Genomics, 2019 |
72 | D. Jana, S. Dutta and G.P. Samanta, Interplay between reproduction and age selective harvesting: A case study of Hilsa (Tenualosa ilisha) fish at Sundarban estuary of northern Bay of Bengal, India, 12(2), Impact factor: 1.085 (2019) ID: 1950023, International Journal of Biomathematics, 2019 |
73 | Sangeeta Saha and G.P. Samanta, Modelling and optimal control of HIV/AIDS prevention through PrEP and limited treatment, 516, 280-307 Impact Factor: 2.924, Physica A: Statistical Mechanics and its Applications, 2019 |
74 | Ashok Mondal, A.K. Pal and G.P. Samanta, Correction to: Rich dynamics of non-toxic phytoplankton, toxic phytoplankton and zooplankton system with multiple gestation delays, 7(1), 405, International Journal of Dynamics and Control, 2019 |
75 | D. Manna, A. Maiti and G.P. Samanta, Deterministic and stochastic analysis of a predator–prey model with Allee effect and herd behaviour, 95(4), 339-349 Impact factor: 1.090 DOI: 10.1177/0037549718779445, Simulation: Transactions of the Society for Modeling and Simulation International, 2019 |
76 | Sangeeta Saha and G.P. Samanta, Dynamics of an epidemic model with impact of toxins, 527, ID: 121152 Impact Factor: 2.924, Physica A: Statistical Mechanics and its Applications, 2019 |
77 | Sudeshna Mondal and G.P. Samanta, Dynamics of an additional food provided predator–prey system with prey refuge dependent on both species and constant harvest in predator, 534, ID: 122301 Impact Factor: 2.924, Physica A: Statistical Mechanics and its Applications, 2019 |
78 | Sangeeta Saha and G.P. Samanta, Influence of dispersal and strong Allee effect on a two-patch predator–prey model, 7(4), 1321-1349, International Journal of Dynamics and Control, 2019 |
79 | P. Sen, A. Maiti and G.P. Samanta, A Competition Model with Herd Behaviour and Allee Effect, 33(8), 2529–2542 Impact factor: 0.760, Filomat, 2019 |
80 | D. Manna, A. Maiti and G.P. Samanta, Deterministic and stochastic analysis of a predator–prey model with Allee effect and herd behaviour, DOI 10.1177/0037549718779445, Simulation, 2018 |
81 | Sudeshna Mondal, A. Maiti and G.P. Samanta, Effects of Fear and Additional Food in a Delayed Predator–Prey Model, DOI 10.1142/S1793048018500091, Biophysical Reviews and Letters, 2018 |
82 | Ashok Mondal, A.K. Pal and G.P. Samanta, Stability and Bifurcation Analysis of a Delayed Three Species Food Chain Model with Crowley-Martin Response Function, 13(2), 709-749, Applications and Applied Mathematics: An International Journal (AAM), 2018 |
83 | Ashok Mondal, A.K. Pal and G.P. Samanta, Rich dynamics of non-toxic phytoplankton, toxic phytoplankton and zooplankton system with multiple gestation delays, DOI https://doi.org/10.1007/s40435-018-0501-4, International Journal of Dynamics and Control, 2018 |
84 | D. Manna, A. Maiti and G.P. Samanta, Analysis of a predator-prey model for exploited fish populations with schooling behavior, 317, 35-48, Applied Mathematics and Computation, 2018 |
85 | D. Manna, A. Maiti and G.P. Samanta, Analysis of a harvested predator–prey system with schooling behaviour, 6(2), 881-891, International Journal of Dynamics and Control, 2018 |
86 | D.Pal, G.S.Mahapatra and G.P. Samanta, A STUDY of BIFURCATION of PREY-PREDATOR MODEL with TIME DELAY and HARVESTING USING FUZZY PARAMETERS, 26(2), 339-372, Journal of Biological Systems, 2018 |
87 | S. Sharma and G.P. Samanta, Dynamical behaviour of age-selective harvesting of a prey-predator system, 6(2), 550-560, International Journal of Dynamics and Control, 2018 |
88 | Sangeeta Saha, A. Maiti and G.P. Samanta, A Michaelis-Menten Predator-Prey Model with Strong Allee Effect and Disease in Prey Incorporating Prey Refuge, 28(6), ID: 1850073 Impact Factor: 2.469, International Journal of Bifurcation and Chaos, 2018 |
89 | G.P. Samanta and S.P. Bera, Analysis of a Chlamydia epidemic model with pulse vaccination strategy in a random environment, 23(4), 457-474, Nonlinear Analysis: Modelling and Control, 2018 |
90 | Meghadri Das, A. Maiti and G.P. Samanta, Stability analysis of a prey-predator fractional order model incorporating prey refuge, 7-8, 33-46, Ecological Genetics and Genomics, 2018 |
91 | D.Pal, G.S.Mahapatra and G.P. Samanta, New approach for stability and bifurcation analysis on predator–prey harvesting model for interval biological parameters with time delays, 37(3), 3145-3171, Computational and Applied Mathematics, 2018 |
92 | S. Sharma, Ashok Mondal, A.K. Pal and G.P. Samanta, Stability analysis and optimal control of avian influenza virus A with time delays, 6(3), 1351-1366, International Journal of Dynamics and Control, 2018 |
93 | Amartya Das and G.P. Samanta, Modeling the fear effect on a stochastic prey-predator system with additional food for the predator, 51(46), ID: 465601 Impact factor: 2.110 (2018), Journal of Physics A: Mathematical and Theoretical, 2018 |
94 | D.Pal and G.P. Samanta, Effects of dispersal speed and strong Allee effect on stability of a two-patch predator–prey model, 6(4), 1484-1495, International Journal of Dynamics and Control, 2018 |
95 | Amartya Das and G.P. Samanta, Stochastic prey–predator model with additional food for predator, 512, 121-141 Impact Factor: 2.924, Physica A: Statistical Mechanics and its Applications, 2018 |
96 | D. Jana and G.P. Samanta, Significance of prey harvesting in prey-predator system in discrete time scale using interval parameters, 39(2), 46-60, International Journal of Ecological Economics and Statistics, 2018 |
97 | P. Sen, A. Maiti and G.P. Samanta, DYNAMICS OF A SYMBIOTIC MODEL WITH HERD BEHAVIOUR AND STRONG ALLEE EFFECT, 25, 149-164, Neural, Parallel, and Scientific Computations, 2017 |
98 | A.K.Pal, P.Dolai and G.P. Samanta, Dynamics of a delayed competitive system affected by toxic substances with imprecise biological parameters, 31(16), 5271-5293 Impact factor: 0.760, Filomat, 2017 |
99 | S. Sharma and G.P. Samanta, Analysis of a hand-foot-mouth disease model, 10(2), ID: 1750016, International Journal of Biomathematics, 2017 |
100 | D.Pal, G.S.Mahapatra and G.P. Samanta, Parameter uncertainty in biomathematical model described by one-prey two-predator system with mutualism, 10(6), ID: 1750082, International Journal of Biomathematics, 2017 |
101 | G.P. Samanta, Ricardo Gómez Aíza and S. Sharma, Analysis of a mathematical model of periodically pulsed chemotherapy treatment, 5(3), 842-857, International Journal of Dynamics and Control, 2017 |
102 | D. Manna, A. Maiti and G.P. Samanta, A Michaelis–Menten type food chain model with strong Allee effect on the prey, 311, 390-409, Applied Mathematics and Computation, 2017 |
103 | D. Jana, A. Banerjee and G.P. Samanta, Degree of prey refuges: Control the competition among prey and foraging ability of predator, 104, 350-362, Chaos, Solitons and Fractals, 2017 |
104 | D.Pal, G.P. Samanta and G.S.Mahapatra, Selective harvesting of two competing fish species in the presence of toxicity with time delay, 313, 74-93, Applied Mathematics and Computation, 2017 |
105 | D. Manna and G.P. Samanta, A nonlinear irreversible investment model with von-bertalanffy law of growth, 17(1), 67-90, International Journal of Mathematics and Statistics, 2016 |
106 | S.P. Bera, A. Maiti and G.P. Samanta, Dynamics of a food chain model with herd behaviour of the prey, 2:131, DOI 10.1007/s40808-016-0189-4, Modeling Earth Systems and Environment, 2016 |
107 | D. Jana, P. Dolai, A.K. Pal and G.P. Samanta, On the stability and Hopf-bifurcation of a multi-delayed competitive population system affected by toxic substances with imprecise biological parameters, 2:110, DOI https://doi.org/10.1007/s40808-016-0156-0, Modeling Earth Systems and Environment, 2016 |
108 | S.Pal, G.S.Mahapatra and G.P. Samanta, A Three-Layer Supply Chain EPQ Model for Price- and Stock-Dependent Stochastic Demand with Imperfect Item Under Rework, 4: 10, DOI https://doi.org/10.1186/s40467-016-0050-3, Journal of Uncertainty Analysis and Applications, 2016 |
109 | A. Maiti, P.Sen, D. Manna and G.P. Samanta, A predator-prey system with herd behaviour and strong allee effect, 16(1), 86-101, Nonlinear Dynamics and Systems Theory, 2016 |
110 | A. Maiti, P.Sen and G.P. Samanta, Deterministic and stochastic analysis of a prey–predator model with herd behaviour in both, 4(1), 259-269, Systems Science and Control Engineering, 2016 |
111 | G.P. Samanta, P.Sen and A. Maiti, A delayed epidemic model of diseases through droplet infection and direct contact with saturation incidence and pulse vaccination, 4(1), 320-333, Systems Science and Control Engineering, 2016 |
112 | S.P. Bera, A. Maiti and G.P. Samanta, Stochastic analysis of a prey-predator model with herd behaviour of prey, 21(3), 345-361, Nonlinear Analysis: Modelling and Control, 2016 |
113 | S. Sharma and G.P. Samanta, Analysis of the Dynamics of a Tumor–Immune System with Chemotherapy and Immunotherapy and Quadratic Optimal Control, 24(2), 149-171, Differential Equations and Dynamical Systems, 2016 |
114 | D.Pal, G.S.Mahapatra and G.P. Samanta, Effects of fuzzy harvesting on logistic growth models for uncertain ecological parameter, 19(3), 433-451, Journal of Interdisciplinary Mathematics, 2016 |
115 | D.Pal, G.S.Mahapatra and G.P. Samanta, Stability and Bionomic Analysis of Fuzzy Prey–Predator Harvesting Model in Presence of Toxicity: A Dynamic Approach, 78(7), 1493-1519, Bulletin of Mathematical Biology, 2016 |
116 | D. Jana , R. Agrawal, R. K. Upadhyay and G.P. Samanta, Ecological dynamics of age selective harvesting of fish population: Maximum sustainable yield and its control strategy, 93, 111-122, Chaos, Solitons and Fractals, 2016 |
117 | S.P. Bera, A. Maiti and G.P. Samanta, A Delay Dynamic Model for HIV Infected Immune Response, 33(5-6), 559-578, J. Appl. Math. & Informatics, 2015 |
118 | S.P. Bera, A. Maiti and G.P. Samanta, Modelling herd behavior of prey: Analysis of a prey-predator model, 11(1), 3-14, World Journal of Modelling and Simulation, 2015 |
119 | S.P. Bera, A. Maiti and G.P. Samanta, A prey-predator model with infection in both prey and predator, 29(8), 1753-1767 Impact factor: 0.760, Filomat, 2015 |
120 | S. Sharma and G.P. Samanta, A Leslie-Gower predator-prey model with disease in prey incorporating a prey refuge, 70(1), 69-84, Chaos, Solitons and Fractals, 2015 |
121 | S. Sharma and G.P. Samanta, Stability analysis and optimal control of an epidemic model with vaccination, 8(3), ID: 1550030, International Journal of Biomathematics, 2015 |
122 | S. Sharma and G.P. Samanta, Analysis of a predator-prey population model, 36(4), 18-44, International Journal of Ecological Economics and Statistics, 2015 |
123 | G.P. Samanta, Mathematical Analysis of a Chlamydia Epidemic Model with Pulse Vaccination Strategy, 63(1), Acta Biotheoretica, 2015 |
124 | S. Pal, G.S.Mahapatra and G.P. Samanta, A production inventory model for deteriorating item with ramp type demand allowing inflation and shortages under fuzziness, 46, 334-345, Economic Modelling, 2015 |
125 | D. Pal, G.S.Mahapatra and G.P. Samanta, Bifurcation analysis of predator–prey model with time delay and harvesting efforts using interval parameter, 3(3), 199-209, International Journal of Dynamics and Control, 2015 |
126 | S. Sharma and G.P. Samanta, Analysis of a two prey one predator system with disease in the first prey population, 3(3), 210-224, International Journal of Dynamics and Control, 2015 |
127 | S. Sharma and G.P. Samanta, Analysis of a drinking epidemic model, 3(3), 288-305, International Journal of Dynamics and Control, 2015 |
128 | G.P. Samanta and Ricardo Gómez Aíza, Analysis of a delayed epidemic model of diseases through droplet infection and direct contact with pulse vaccination, 3(3), 275-287, International Journal of Dynamics and Control, 2015 |
129 | G.P. Samanta, A delayed hand–foot–mouth disease model with pulse vaccination strategy, 34(3), 1131-1152, Computational and Applied Mathematics, 2015 |
130 | G.P. Samanta and Ricardo Gómez Aíza, Modelos dinamicos de problaciones simples y de sistemas depredador-presa (in spanish), 58, 77-110, Miscelanea Matematica, 2014 |
131 | S.Pal, G.S.Mahapatra and G.P. Samanta, An EPQ model of ramp type demand with Weibull deterioration under inflation and finite horizon in crisp and fuzzy environment, 156, 159-166, International Journal of Production Economics, 2014 |
132 | S.Pal, G.S.Mahapatra and G.P. Samanta, Stability and bionomic analysis of fuzzy parameter based prey–predator harvesting model using UFM, 79(3), 1939-1955, Nonlinear Dynamics, 2014 |
133 | S. Sharma and G.P. Samanta, Optimal harvesting of a two species competition model with imprecise biological parameters, 77(4), 1101-1119, Nonlinear Dynamics, 2014 |
134 | S. Sharma and G.P. Samanta, Dynamical Behaviour of a Two Prey and One Predator System, 22(2), 125-145, Differential Equations and Dynamical Systems, 2014 |
135 | D. Manna and G.P. Samanta, Bioeconomic modeling of a single species fishery with Von Bertalaffy law of growth, 7(1), 117-131, Electronic Journal of Applied Statistical Analysis, 2014 |
136 | D. Jana and G.P. Samanta, Role of multiple delays in ratio-dependent prey-predator system with prey harvesting under stochastic environment, 22(1-2), 205-221, Neural, Parallel and Scientific Computations, 2014 |
137 | S. Sharma and G.P. Samanta, Dynamical Behaviour of an HIV/AIDS Epidemic Model, 22(4), 369-395, Differential Equations and Dynamical Systems, 2014 |
138 | S. Sharma and G.P. Samanta, Analysis of a Chlamydia epidemic model, 22(4), 713-744, Journal of Biological Systems, 2014 |
139 | S. Sharma and G.P. Samanta, A ratio-dependent predator-prey model with Allee effect and disease in prey, 47(1-2), 345-364, Journal of Applied Mathematics and Computing, 2014 |
140 | G.P. Samanta, Analysis of a delayed epidemic model with pulse vaccination, 66, 74-85, Chaos, Solitons and Fractals, 2014 |
141 | G.P. Samanta, Analysis of a delayed hand–foot–mouth disease epidemic model with pulse vaccination, 2(1), 61-73, Systems Science and Control Engineering, 2014 |
142 | G.P. Samanta and S. Sharma, Analysis of a delayed Chlamydia epidemic model with pulse vaccination, 230, 555-569, Applied Mathematics and Computation, 2014 |
143 | S.Pal, G.S.Mahapatra and G.P. Samanta, An inventory model of price and stock dependent demand rate with deterioration under inflation and delay in payment, 5(4), 591-601, International Journal of Systems Assurance Engineering and Management, 2014 |
144 | D.Pal, G.S.Mahapatra and G.P. Samanta, Quota Harvesting Model for a Single Species Population Under Fuzziness, 12(1-2), 33-46, International J. Mathematical Sciences, 2013 |
145 | S. Sharma and G.P. Samanta, Analysis of a fractional-order competition model with common inhibitory effect, 31(4), 68-86, International Journal of Ecological Economics & Statistics, 2013 |
146 | S. Sharma and G.P. Samanta, Dynamical Behaviour of a Drinking Epidemic Model, 31(5-6), 747-767, Journal of Applied Mathematics and Informatics, 2013 |
147 | S. Sharma and G.P. Samanta, Dynamical Behaviour of a Tumor-Immune System with Chemotherapy and Optimal Control, 2013, ID: 608598, Journal of Nonlinear Dynamics, 2013 |
148 | A.K.Pal and G.P. Samanta, A Ratio-dependent Eco-epidemiological Model Incorporating a Prey Refuge, 1(2), 86-100, Universal Journal of Applied Mathematics, 2013 |
149 | S. Sharma and G.P. Samanta, Mathematical analysis of a single-species population model in a polluted environment with discrete time delays, 2013, ID: 574213, Journal of Mathematics, 2013 |
150 | D.Pal, G.S.Mahapatra and G.P. Samanta, Optimal harvesting of prey-predator system with interval biological parameters: A bioeconomic model, 241(2), 181-187, Mathematical Biosciences, 2013 |
151 | G.S.Mahapatra, T.K.Mandal and G.P. Samanta, EPQ model with fuzzy coefficient of objective and constraint via parametric geometric programming, 17(4), 436-448, International Journal of Operational Research, 2013 |
152 | S. Sharma and G.P. Samanta, Drinking as an epidemic : a mathematical model with dynamic behavior, 31(1-2), 1-25, Journal of Applied Mathematics and Informatics, 2013 |
153 | S. Sharma and G.P. Samanta, Analysis of an epidemic model with non-linear incidence and vaccination, 28(1), 104-129, International Journal of Ecological Economics & Statistics, 2013 |
154 | G.S.Mahapatra, T.K.Mandal and G.P. Samanta, Fuzzy parametric geometric programming with application in fuzzy EPQ model under flexibility and reliability consideration, 7(3), 223-234, Journal of Information and Computing Science, 2012 |
155 | D.Pal, G.S.Mahapatra and G.P. Samanta, A proportional harvesting dynamical model with fuzzy intrinsic growth rate and harvesting quantity, 6(2), 199-213, Pacific-Asian Journal of Mathematics, 2012 |
156 | G.P. Samanta, Permanence and extinction for a nonautonomous SVIR epidemic model with distributed time delay, 8(1), 3-18, World Journal of Modelling and Simulation, 2012 |
157 | Jhuma Bhowmick and G.P. Samanta, Optimal inventory policies for imperfect inventory with price dependent stochastic demand and partially backlogged shortages, 22(2), 199-223, Yugoslav Journal of Operations Research, 2012 |
158 | G.S.Mahapatra, T.K.Mandal and G.P. Samanta, An EPQ model with imprecise space constraint based on intuitionistic fuzzy optimization technique, 19(5-6), 409-423, Journal of Multiple-Valued Logic and Soft Computing, 2012 |
159 | G.P. Samanta, Analysis of nonautonomous two species system in a polluted environment, 62(3), 567-586, Mathematica Slovaca, 2012 |
160 | G.P. Samanta and D. N. Garain, Analysis of a nonautonomous predator-prey model incorporating a prey refuge and time delay, 29 (3-4), 955-967, Journal of Applied Mathematics and Informatics, 2011 |
161 | Jhuma Bhowmick and G.P. Samanta, A Deterministic inventory Model of Deteriorating Items with Two Rates of Production, Shortages and Variable Production Cycle, 2011, ID: 657464, ISRN Applied Mathematics, 2011 |
162 | G.P. Samanta, Dynamical behaviour for a nonautonomous smoking dynamical model with distributed time delay, 29(3-4), 721-741, Journal of Applied Mathematics and Informatics, 2011 |
163 | G.P. Samanta, Dynamic behaviour for a nonautonomous heroin epidemic model with time delay, 35(1-2), 161-178, Journal of Applied Mathematics and Computing, 2011 |
164 | G.P. Samanta, A stochastic two species competition model: Nonequilibrium fluctuation and stability, 2011, ID: 489386, International Journal of Stochastic Analysis, 2011 |
165 | G.S.Mahapatra, T.K.Mandal and G.P. Samanta, A production inventory model with fuzzy coefficients using parametric geometric programming approach, 2(2), 99-105, International Journal of Machine Learning and Cybernetics, 2011 |
166 | Ajanta Roy and G.P. Samanta, Inventory model with two rates of production for deteriorating items with permissible delay in payments, 42(8), 1375-1386, International Journal of Systems Science, 2011 |
167 | G.P. Samanta, Analysis of a nonautonomous dynamical model of diseases through droplet infection and direct contact, 217(12), 5870-5888, Applied Mathematics and Computation, 2011 |
168 | G.P. Samanta, Permanence and extinction of a nonautonomous HIV/AIDS epidemic model with distributed time delay, 12(2), 1163-1177, Nonlinear Analysis: Real World Applications, 2011 |
169 | A.Maiti, A.K. Pal and G.P. Samanta, A nonlinear predator-prey system in deterministic and stochastic environment, 16 (W10), 14-25, International Journal of Ecological Economics & Statistics, 2010 |
170 | G.P. Samanta, Stability in randomly fluctuating versus deterministic environments of the Gomatam model of interacting species, 15 (1-2), 89-100, AMSE (D), Advances in Modelling: Computer Science and Statistics, 2010 |
171 | Madhumati Dutta and G.P. Samanta, Determining the factors that do and do not influence the demand for less polluting modes of passengers transport: a case study of Kolkata, India, 16 (3), 7-34, World Transport Policy & Practice, 2010 |
172 | A.K.Pal and G.P. Samanta, Dynamics of a single species population in a polluted environment, 28 (5-6), 1185-1202, Journal of Applied Mathematics and Informatics, 2010 |
173 | A.K.Pal and G.P. Samanta, Stability analysis of an eco-epidemiological model incorporating a prey refuge, 15 (4), 473-491, Nonlinear Analysis: Modelling and Control, 2010 |
174 | G.P. Samanta, Analysis of a nonautonomous delayed predator-prey system with a stage structure for the predator in a polluted environment, 2010, ID: 891812, International Journal of Mathematics and Mathematical Sciences, 2010 |
175 | G.P. Samanta and Jhuma Bhowmick, A deterministic inventory system with weibull distribution deterioration and ramp type demand rate, 3 (2), 92-114, Electronic Journal of Applied Statistical Analysis, 2010 |
176 | G.P. Samanta, Global Dynamics of a Nonautonomous SIRC Model for Influenza A with Distributed Time Delay, 18 (4), 341-362, Differential Equations and Dynamical Systems, 2010 |
177 | G.P. Samanta, Permanence and extinction for a nonautonomous avian-human influenza epidemic model with distributed time delay, 52 (9-10), 1794-1811, Mathematical and Computer Modelling, 2010 |
178 | G.P. Samanta, A two-species competitive system under the influence of toxic substances, 216 (1), 291-299, Applied Mathematics and Computation, 2010 |
179 | G.P. Samanta, Analysis of a nonautonomous HIV/AIDS epidemic model with distributed time delay, 15 (3), 327-347, Mathematical Modelling and Analysis, 2010 |
180 | A.K. Pal and G.P. Samanta, A single species population in a polluted environment, 3 (2), 187-204, International Journal of Biomathematics, 2010 |
181 | S. Pathak, A. Maiti and G.P. Samanta, Rich dynamics of an SIR epidemic model, 15 (1), 71-81, Nonlinear Analysis: Modelling and Control, 2010 |
182 | G.P. Samanta, Analysis of a delay nonautonomous predator-prey system with disease in the prey, 15 (1), 97-108, Nonlinear Analysis: Modelling and Control, 2010 |
183 | G.P. Samanta, Permanence and extinction of a nonautonomous stage-structured epidemic model with distributed time delay, 18(2), 377-398, Journal of Biological Systems, 2010 |
184 | G.P. Samanta, Analysis of a nonautonomous HIV/AIDS model, 5(6), 70-95, Mathematical Modelling of Natural Phenomena, 2010 |
185 | Jhuma Bhowmick and G.P. Samanta, An order-level inventory model for items with weibull distribution deterioration, shortages and stock-dependent time varying demand, 30 (2), 64-77, A.M.S.E. Periodicals (D) Production Engineering and Management, 2009 |
186 | Ajanta Roy and G.P. Samanta, Fuzzy continuous review inventory model without backorder for deteriorating items, 2 (1), 58-66, Electronic Journal of Applied Statistical Analysis, 2009 |
187 | Sweta Pathak, A. Maiti and G.P. Samanta, Rich dynamics of a food chain model with Hassell-Varley type functional responses, 208 (2), 303-317, Applied Mathematics and Computation, 2009 |
188 | A. Maiti, Bibek Patra and G.P. Samanta, Effect of time-delay on a ratio-dependent food chain model, 14 (2), 199-216, Nonlinear Analysis: Modelling and Control, 2009 |
189 | A. Maiti, A.K. Pal and G.P. Samanta, Usefulness of biocontrol of pests in tea: A mathematical model, 3 (4), 96-113, Mathematical Modelling of Natural Phenomena, 2008 |
190 | A. Maiti, S.P. Bera and G.P. Samanta, A prey-predator model with microparasite infection in the predator, 16 (2), 219-239, Journal of Biological Systems, 2008 |
191 | A. Maiti, A.K. Pal and G.P. Samanta, Effect of time-delay on a food chain model, 200 (1), 189-203, Applied Mathematics and Computation, 2008 |
192 | A. Maiti, Bibek Patra and G.P. Samanta, Bionomic exploitation of a ratio-dependent predator-prey system, 39 (8), 1061-1076, International Journal of Mathematical Education in Science and Technology, 2008 |
193 | G.P. Samanta and Nilanjana Gangopadhyaya, A Deterministic Inventory System with Deterioration and Stock Dependent Time Varying Demand Rate, 23 (4), 35-48, Tamsui Oxford Journal of Management Sciences, 2007 |
194 | A.Maiti, M.M.Jana and G.P. Samanta, Deterministic and Stochastic Analysis of a Ratio-Dependent Predator-Prey System with Delay, 12 (3), 383-398, Nonlinear Analysis : Modelling and Control, 2007 |
195 | Jhuma Bhowmick and G.P. Samanta, A continuous deterministic inventory system for deteriorating items with inventory-level-dependent time varying demand rate, 23 (2), 173-184, Tamsui Oxford Journal of Information and Mathematical Sciences, 2007 |
196 | A. Maiti, Bibek Patra and G.P. Samanta, Persistence and stability in aratio-dependent predator-prey system with delay and harvesting, 20 (4), 575-600, Natural Resource Modeling, 2007 |
197 | Ajanta Roy and G.P. Samanta, An Inventory Model of Deteriorating Items with time-Varying demand and shortages, 27 (1), 1-18, AMSE (D), 2006 |
198 | A. Maiti, Bibek Patra and G.P. Samanta, Persistence and stability of a food chain model with mixed selection of functional responses, 11 (2), 171-185, Nonlinear Analysis: Modelling and Control, 2006 |
199 | A. Maiti, Bibek Patra and G.P. Samanta, Sterile insect release method as a control measure of insect pests: A mathematical model, 22 (3), 71-86, Journal of Applied Mathematics and Computing, 2006 |
200 | A. Maiti and G.P. Samanta, Deterministic and stochastic analysis of a ratio-dependent prey-predator system, 37 (12), 817-826, International Journal of Systems Science, 2006 |
201 | A. Maiti and G.P. Samanta, Rich dynamics of a time-delayed food chain model, 14 (3), 387-412, Journal of Biological Systems, 2006 |
202 | A. Maiti and G.P. Samanta, Complex dynamics of a food chain model with mixed selection of functional responses, 97, 393-412, Bull. Cal. Math. Soc., 2005 |
203 | A. Maiiti and G.P. Samanta, Deterministic and stochastic analysis of a prey-dependent predator-prey system, 36 (1), 65-83, International Journal of Mathematical Education in Science and Technology, 2005 |
204 | G.P.Samanta, Stochastic analysis of a demographic model of urbanization, 18, 1-10, J. Natural and Physical Sciences, 2004 |
205 | Ajanta Roy and G.P.Samanta, An EOQ model for deteriorating items with stock-dependent time varying demand., 20(2), 37-46, Tamsui Oxford Journal of Management Sciences., 2004 |
206 | G.P.Samanta and Ajanta Roy, A deterministic inventory model of deteriorating items with two rates of production and shortages, 20, 205-218, Tamsui Oxford Journal of Mathematical Sciences, 2004 |
207 | G.P.Samanta and Ajanta Roy, A production inventory model with deteriorating items and shortages, 14 (2), 219-230, Yugoslav Journal of Operations Research, 2004 |
208 | G.P.Samanta and A. Maiti, Dynamical model of a single-species system in a polluted environment, 16 (1-2), 231-242, Journal of Applied Mathematics and Computing, 2004 |
209 | G.P.Samanta and A. Maiti, Stochastic gomatam model of interacting species: Non-equilibrium fluctuation and stability, 43 (6), 683-692, Systems Analysis Modelling Simulation, 2003 |
210 | G.P.Samanta. D. Manna and A. Maiti, Bioeconomic modelling of a three-species fishery with switching effect, 12 (1-2), 219-231, Journal of Applied Mathematics and Computing, 2003 |
211 | G.P.Samanta and Krishnendu Sen, Stability of a social group, 15, 45-54, J. Natural and Physical Sciences, 2001 |
212 | G.P.Samanta, The effects of random fluctuating environment on interacting species with time delay, 27 (1), 13-21, International Journal of Mathematical Education in Science and Technology, 1996 |
213 | G.P.Samanta, Influence of environmental noises on the Gomatam model of interacting species, 91(1-3), 283-291, Ecological Modelling, 1996 |
214 | G.P.Samanta, Stability and evolution of a predator-prey model near equilibrium, 87, 375-384, Bull. Cal. Math. Soc., 1995 |
215 | G.P.Samanta, Stochastic analysis of a prey-predator system, 25 (6), 797-803, International Journal of Mathematical Education in Science and Technology, 1994 |
216 | G.P.Samanta, Stability of resource consumer system, 85, 457-462, Bull. Cal. Math. Soc., 1993 |
217 | G.P.Samanta, Logistic growth under coloured noise, 37, 115-122, Bull. Math. de la Soc. Sci. Math. de Roumanie, 1993 |
218 | G.P.Samanta and C. G. Chakrabarti, Stochastic differential equation modelling of ecosystem, XXVI, 36-40, Math. Edu., 1992 |
219 | G.P.Samanta, Influence of environmental noise in Gompertzian growth model, 26, 503-511, J. Math. Phy. Sci., 1992 |
220 | G.P.Samanta, Complex stochastic averaging approach to a two-state predator system, 23 (5), 739-744, International Journal of Mathematical Education in Science and Technology, 1992 |
221 | G.P.Samanta and C. G. Chakrabarti, Stochastic behaviour of a damped Volterra-Lotka system with time-dependent parameters, 25, 351-359, J. Math. Phy. Sci., 1991 |
222 | G.P.Samanta, Stochastic analysis of a noisy oscillator, 4 (2), 61-63, Applied Mathematics Letters, 1991 |
223 | G.P.Samanta and C. G. Chakrabarti, On stability and fluctuation in Gompertzian and logistic growth models, 3 (3), 119-121, Applied Mathematics Letters, 1990 |
224 | G.P.Samanta, Fluctuation and stability in a diffusive predator-prey system, 3 (3), 115-118, Applied Mathematics Letters, 1990 |
225 | G.P.Samanta, Damped Volterra-Lotka system in a rapidly fluctuating environment, XXXII, 89-95, Pure and Appl. Mathematika Sciences, 1990 |
226 | G.P.Samanta, Fluctuation and stability in a diffusive resource-consumer system, 82, 182-185, Bull. Cal. Math. Soc., 1990 |
227 | C. G. Chakrabarti, R. N. Talapatra and G.P.Samanta, Kinetics of non-linear reaction-diffusion process, 81, 528-533, Bull. Cal. Math. Soc., 1989 |
228 | G.P.Samanta and C. G. Chakrabarti, Stochastically perturbed Hopf Bifurcation in an extended Volterra-Lotka System, 2 (2), 163-166, Applied Mathematics Letters, 1989 |
Created: 23 November 2019