LIST OF RESEARCH PAPERS OF DR. GURUPRASAD SAMANTA
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s)/Article ID |
Volume & Year |
1 |
A prey–predator model with refuge for prey and additional food for predator in a fluctuating environment |
Amartya Das |
Physica A |
122844 |
Vol. 538 (2020) |
2 |
Dynamics of an additional food provided predator–prey system with prey refuge dependent on both species and constant harvest in predator |
Sudeshna Mondal |
Physica A |
122301 |
Vol. 534 (2019) |
3 |
Dynamics of an epidemic model with impact of toxins |
Sangeeta Saha |
Physica A |
121152 |
Vol. 527 (2019) |
4 |
Model justification and stratification for confounding of Chlamydia trachomatis disease |
Sarada Ghosh |
Letters in Biomathemat-ics |
2019, DOI: 10.1080/23737867.2019.1654418 |
|
5 |
Statistical modelling for cancer mortality |
Sarada Ghosh |
Letters in Biomathemat-ics |
2019, DOI: 10.1080/23737867.2019.1581104 |
|
6 |
Synthetic drugs transmission: stability analysis and optimal control |
Sangeeta Saha |
Letters in Biomathemat-ics |
2019, https://doi.org/10.1080/23737867.2019.1624204 |
|
7 |
Analysis of a predator–prey model with herd behavior and disease in prey incorporating prey refuge |
Sangeeta Saha |
International Journal of Biomathemat-ics |
1950007 |
Vol. 12, No. 1 (2019) |
8 |
Modelling and optimal control of HIV/AIDS prevention through PrEP and limited treatment |
Sangeeta Saha |
Physica A |
280-307 |
Vol. 516 (2019) |
9 |
On the dynamics of evolutionary Leslie-Gower predator-prey ecoepidemiological model with disease in predator |
A. Mondal , A. K. Pal |
Ecological Genetics and Genomics |
100034 |
Vol. 10 (2019) |
10 |
A Prey-Predator Dynamics with Square Root Functional Responses and Strong Allee Effect |
D. Pal, S. Biswas, G. S. Mahapatra |
Journal of Applied Nonlinear Dynamics |
419–433 |
Vol. 8(3) 2019 |
11 |
Fitting Cumulative Logit Models for Ordinal Response Variables in Retail Trends and Predictions |
Sarada Ghosh |
International Journal of Statistics and Economics |
32-49 |
Vol. 20(1) 2019 |
12 |
Rich dynamics of non-toxic phytoplankton, toxic phytoplankton and zooplankton system with multiple gestation delays |
A. Mondal , A. K. Pal |
International Journal of Dynamics and Control |
2018, DOI: 10.1007/s40435-018-0501-4 |
|
13 |
Stability and Bifurcation Analysis of a Delayed Three Species Food Chain Model with Crowley-Martin Response Function |
A. Mondal , A. K. Pal |
Appl. Appl. Math. |
709 – 749 |
Vol. 13(2) 2018 |
14 |
Influence of dispersal and strong Allee effect on a two-patch predator-prey model |
Sangeeta Saha |
International Journal of Dynamics and Control |
2018, DOI: 10.1007/s40435-018-0490-3 |
|
15 |
Effects of Fear and Additional Food in a Delayed Predator–Prey Model |
Sudeshna Mondal, Alakes Maiti |
Biophysical Reviews and Letters |
2018, DOI: 10.1142/S1793048018500091 |
|
16 |
Modeling the fear effect on a stochastic prey–predator system with additional food for the predator |
Amartya Das |
Journal of Physics A: Mathematical and Theoretical |
465601 (26pp) |
Vol. 51 (2018) |
17 |
Stochastic prey–predator model with additional food for predator |
Amartya Das |
Physica A |
121–141 |
Vol. 512 (2018) |
18 |
A Michaelis-Menten Predator-Prey Model with Strong Allee Effect and Disease in Prey Incorporating Prey Refuge |
Sangeeta Saha , Alakes Maiti |
International Journal of Bifurcation and Chaos |
1850073 (21 pages) |
Vol. 28, No. 6 (2018) |
19 |
Deterministic and stochastic analysis of a predator–prey model with Allee effect and herd behaviour |
Debasis Manna , Alakes Maiti |
Simulation |
1-11 |
2018, DOI: 10.1177/0037549718779445 |
20 |
A STUDY of BIFURCATION of PREY-PREDATOR MODEL with TIME DELAY and HARVESTING USING FUZZY PARAMETERS |
D.Pal, G.S. Mahapatra |
Journal of Biological Systems |
339-372 |
Vol. 26, No. 2, 2018 |
21 |
Effects of dispersal speed and strong Allee effect on stability of a two-patch predator–prey model |
D. Pal |
International Journal of Dynamics and Control |
2018 DOI 10.1007/s40435-018-0407-1 |
|
22 |
Significance of prey harvesting in prey-predator system in discrete time scale using interval parameters |
Debaldev Jana |
International Journal of Ecological Economics and Statistics |
46-60 |
Vol. 39(2),(2018), |
23 |
Stability analysis of a prey-predator fractional order model incorporating prey refuge |
Meghadri Das, Alakes Maiti |
Ecological Genetics and Genomics |
33-46 |
Vol. 7-8,(2018), DOI 10.1016/j.egg.2018.05.001 |
24 |
Analysis of a Chlamydia epidemic model with pulse vaccination strategy in a random environment |
Shyam Pada Bera |
Nonlinear Analysis: Modelling and Control |
457–474 |
Vol. 23(4),(2018), DOI 10.15388/NA.2018.4.1 |
25 |
Stability analysis and optimal control of avian influenza virus A with time delays |
S. Sharma, A. Mondal ,· A. K. Pal |
International Journal of Dynamics and Control |
1351-1366 |
Vol. 6, No. 3, 2018 DOI 10.1007/s40435-017-0379-6 |
26 |
Analysis of a predator-prey model for exploited fish populations with schooling behavior |
Debasis Manna, Alakes Maiti |
Applied Mathematics and Computation |
35-48 |
Vol. 317 (2018) |
27 |
Dynamical behaviour of age-selective harvesting of a prey-predator system |
Swarnali Sharma |
International Journal of Dynamics and Control |
550-560 |
Vol. 6(2), ( 2018), DOI 10.1007/s40435-017-0337-3 |
28 |
Analysis of a harvested predator–prey system with schooling behaviour |
Debasis Manna , Alakes Maiti |
International Journal of Dynamics and Control |
881-891 |
Vol.6(2), (2018), DOI 10.1007/s40435-017-0321-y |
29 |
New approach for stability and bifurcation analysis on predator–prey harvesting model for interval biological parameters with time delays |
D.Pal, G.S. Mahapatra |
Computationl and Applied Mathematics |
3145-3171 |
Vol. 37, No. 3, 2018, DOI 10.1007/s40314-017-0504-3 |
30 |
Degree of prey refuges: Control the competition among prey and foraging ability of predator |
Debaldev Jana , Aniket Banerjee |
Chaos, Solitons and Fractals |
350–362 |
Vol. 104 (2017) |
31 |
Dynamics of a Delayed Competitive System Affected |
A.K.Pal, P.Dolai |
Filomat |
5271–5293 |
Vol. 31, No. 16, (2017) |
32 |
Analysis of a hand-foot-mouth disease model, International Journal of Biomathematics |
Swarnali Sharma |
International Journal of Biomathematics |
1-47 |
Vol. 10(2), (2017) DOI: 10.1142/S1793524517500164 |
33 |
Parameter uncertainty in biomathematical model described by one-prey two-predator system with mutualism |
D.Pal, G.S. Mahapatra |
International Journal of Biomathematics |
1-36 |
Vol. 10(6); (2017) DOI : 10.1142/S1793524517500826 |
34 |
Selective harvesting of two competing fish species in the presence of toxicity with time delay |
D. Pal, G.S.Mahapatra |
Applied Mathematics and Computation |
74-93 |
Vol. 313 (2017) |
35 |
Analysis of a mathematical model of periodically pulsed chemotherapy treatment
|
Ricardo Gómez Aíza and Swarnali Sharma |
International Journal of Dynamics and Control |
842-857 |
Vol. 5(3) (2017) |
36 |
A Michaelis–Menten type food chain model with strong Allee effect on the prey |
Debasis Manna, Alakes Maiti |
Applied Mathematics and Computation |
390-409 |
Vol. 311 (2017) |
37 |
DYNAMICS OF A SYMBIOTIC MODEL WITH HERD BEHAVIOUR AND STRONG ALLEE EFFECT |
Prosenjit Sen, Alakes Maiti |
Neural, Parallel, and Scientific Computations |
149-164 |
Vol. 25 (2017) |
38 |
A Three-Layer Supply Chain EPQ Model for Price- and Stock-Dependent Stochastic Demand with Imperfect Item Under Rework |
Shilpi Pal, G. S. Mahapatra |
Journal of Uncertainty Analysis and Applications |
DOI 10.1186/s40467-016-0050-3, 2016 |
|
39 |
On the stability and Hopf-bifurcation of a multidelayed competitive population system affected by toxic substances with imprecise biological parameters |
D. Jana, P. Dolai, A.K.Pal |
Modeling Earth Systems and Environment |
1-16 |
DOI 10.1007/s40808-016-0156-0 , 2016 |
40 |
Analysis of the Dynamics of a Tumor-Immune System with Chemotherapy and Immunotherapy and Quadratic Optimal Control |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
149–171, |
Vol. 24(2) (2016) |
41 |
Stability and bionomic analysis of fuzzy prey-predator harvesting model in presence of toxicity: A dynamic approach |
D. Pal, G. S. Mahapatra |
Bulletin of Mathematical Biology |
1493–1519 |
Vol. 78(7) (2016) DOI: 10.1007/s11538-016-0192-y |
42 |
Dynamics of a food chain model with herd behaviour of the prey |
S. P. Bera , A. Maiti |
Modeling Earth Systems and Environment |
1-9 |
DOI 10.1007/s40808-016-0189-4 , (2016) |
43 |
Effects of fuzzy harvesting on logistic growth models for uncertain ecological parameter |
D.Pal, G.S. Mahapatra |
Journal of Interdiscipli-nary Mathematics |
433-451 |
Vol. 19(3); DOI : 10.1080/09720502.2014.914277, (2016) |
44 |
Deterministic and stochastic analysis of a prey–predator model with herd behaviour in both |
Alakes Maiti, Prosenjit Sen |
SYSTEMS SCIENCE & CONTROL EN- GINEERING |
259-269 |
Vol. 4 (2016) |
45 |
A delayed epidemic model of diseases through droplet infection and direct contact with saturation incidence and pulse vaccination |
Prosenjit Sen & Alakes Maiti |
SYSTEMS SCIENCE & CONTROL EN- GINEERING |
320-333 |
Vol. 4 ( 2016) |
46 |
A Predator-Prey System with Herd Behaviour and Strong Allee Effect |
Alakes Maiti, Prosenjit Sen, Debasis Manna |
Nonlinear Dynamics and Systems Theory |
86–101 |
Vol. 16 (1)( 2016) |
47 |
Ecological dynamics of age selective harvesting of fish population: Maximum sustainable yield and its control strategy |
Debaldev Jana , Rashmi Agrawal, Ranjit Kumar Upadhyay |
Chaos, Solitons and Fractals |
111–122 |
Vol. 93 (2016) |
48 |
Stochastic Analysis of a Prey-Predator Model with Herd Behavior of Prey |
S.P.Bera, A.Maiti |
Nonlinear Analysis: Modelling and Control |
345-361 |
Vol.21, No.3 (2016),http://dx.doi.org/10.15388/NA.2016.3.4 |
49 |
A nonlinear irreversible investment model with von-bertalanffy law of growth |
Debasis Manna |
International Journal of Mathematics and Statistics |
67-90 |
Vol. 17, Issue 1 (2016) |
50 |
Analysis Mathematical analysis of a Chlamydia epidemic model with pulse vaccination strategy, |
Acta Biotheoretica |
1-21 |
Vol. 63 (2015) |
|
51 |
A delayed hand-foot-mouth disease model with pulse vaccination strategy |
Computationl and Applied Mathematics |
1131-1152 |
Vol. 34, Issue 3 (2015) |
|
52 |
Stability and bionomic analysis of fuzzy parameter based prey–predator harvesting model using UFM |
D. Pal, G. S. Mahapatra |
Nonlinear Dynamics |
1939–1955 |
Vol. 79 (2015) |
53 |
A Leslie–Gower predator–prey model with disease in prey incorporating a prey refuge |
Swarnali Sharma |
Chaos, Solitons & Fractals |
69–84 |
Vol. 70 (2015) |
54 |
A Prey-predator Model with Infection in Both Prey and Predator |
S.P.Bera, A.Maiti |
Filomat |
1753–1767 |
Vol. 29, No. 8, (2015) |
55 |
Stability analysis and optimal control of an epidemic model with vaccination |
Swarnali Sharma |
International Journal of Bi-omathematics |
28 pages |
Vol. 8, No. 3(2015) 1550030 DOI: 10.1142/S1793524515500308. |
56 |
Analysis of a predator-prey population model |
Swarnali Sharma |
International Journal of Ecological Economics & Statistics |
18-44 |
Vol.36, No.4 (2015) |
57 |
A Delay Dynamic Model for HIV Infected Immune Response
|
S.P.Bera, A.Maiti |
J. Appl. Math. & Informatics |
559 –578 |
Vol. 33, No. 5 – 6 (2015) |
58 |
Analysis of the Dynamics of a Tumor-Immune System with Chemotherapy and Immunotherapy and Quadratic Optimal Control |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
1-23 |
DOI 10.1007/s12591-015-0250-1 (2015)
|
59 |
Modelling herd behavior of prey: analysis of a prey-predator model |
S.P.Bera, A.Maiti |
World J. of Modelling and Simulation |
3–14 |
Vol. 11, No. 1 (2015)
|
60 |
A production inventory model for deteriorating item with ramp type demand allowing inflation and shortages under fuzziness |
Shilpi Pal, G.S.Mahapatra |
Economic Modelling
|
334–345 |
Vol. 46 (2015) |
61 |
Analysis of a drinking epidemic model |
Swarnali Sharma |
International Journal of Dynamics and Control |
288-305 |
Vol. 3, Issue 3 (2015) |
62 |
Analysis of a delayed epidemic model of diseases through droplet infection and direct contact with pulse vaccination |
Ricardo Gómez Aíza |
International Journal of Dynamics and Control |
275-287 |
Vol. 3, Issue 3 (2015) |
63 |
A ratio-dependent predator-prey model with Allee effect and disease in prey |
Swarnali Sharma |
J. Appl. Math. Computing |
345–364 |
Vol. 47(2015) |
64 |
Analysis of a two prey one predator system with disease in the first prey population |
Swarnali Sharma |
International Journal of Dynamics and Control |
210-224 |
Vol. 3, Issue 3 (2015) |
65 |
Bifurcation analysis of predator–prey model with time delay and harvesting efforts using interval parameter |
D.Pal, G.S. Mahapatra |
International Journal of Dynamics and Control |
199-209 |
Vol. 3, Issue 3 (2015) |
66 |
Optimal harvesting of a two species competition model with imprecise biological parameters |
Swarnali Sharma |
Nonlinear Dynamics |
1101–1119 |
Vol. 77 (2014) |
67 |
Analysis of a delayed Chlamydia epidemic model with pulse vaccination |
Swarnali Sharma |
Applied Mathematics and Computation |
555–569 |
Vol. 230 (2014) |
68 |
An EPQ model of ramp type demand with Weibull deterioration under inflation and finite horizon in crisp and fuzzy environment |
Shilpi Pal, G.S. Mahapatra |
International Journal of Production Economics |
159-166 |
Vol. 156 (2014) |
69 |
Analysis of a delayed epidemic model with pulse vaccination |
Chaos, Solitons & Fractals |
74–85 |
Vol. 66 (2014) |
|
70 |
Analysis of a Chlamydia Epidemic Model |
Swarnali Sharma |
Journal of Biological Systems |
1–32 |
Vol. 22, No. 4 (2014) |
71 |
Modelos dinamicos de problaciones simples y de sistemas depredador-presa (in spanish) |
Ricardo Gómez Aíza |
Miscelanea Matematica |
77-110. |
Vol.58 (2014) |
72 |
Role of multiple delays in ratio-dependent prey-predator system with prey harvesting under stochastic environment |
Debaldev Jana |
Neural, Parallel, and Scientific Computations |
205-222 |
Vol.22 (2014) |
73 |
Bioeconomic modeling of a single species fishery with Von Bertalanffy law of growth |
Debasis Manna |
Electronic Journal of Applied Statistical Analysis |
117-131 |
Vol. 7, Issue 1 (2014) |
74 |
Analysis of a delayed hand–foot–mouth disease epidemic model with pulse vaccination |
Systems Science & Control Engineering: An Open Access Journal |
61–73 |
Vol. 2 (2014) |
|
75 |
An inventory model of price and stock dependent demand rate with deterioration under inflation and delay in payment |
Shilpi Pal, G.S. Mahapatra |
Int J Syst Assur Eng Management |
591-601 |
Vol. 5, Issue 4 (2014) |
76 |
Dynamical Behaviour of an HIV/AIDS Epidemic Model |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
369-395 |
Vol. 22, Issue 4 (2014) |
77 |
Dynamical Behaviour of a Two Prey and One Predator System |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
125-145 |
Vol. 22, Issue 2 (2014) |
78 |
Optimal harvesting of prey–predator system with interval biological parameters: A bioeconomic model |
D.Pal, G.S.Mahapatra |
Mathematical Biosciences |
181-187 |
Vol. 241 (2013) |
79 |
A Ratio-dependent Eco-epidemiological Model Incorporating a Prey Refuge |
A.K.Pal |
Universal Journal of Applied Mathematics |
86-100 |
Vol.1, No.2 (2013) |
80 |
EPQ model with fuzzy coefficient of objective and constraint via parametric geometric programming |
G.S. Mahapatra, T.K. Mandal |
International J. Operational Research |
436-448 |
Vol.17, No.4 (2013) |
81 |
Dynamical Behaviour of a Tumor-Immune System with Chemotherapy and Optimal Control |
Swarnali Sharma |
Journal of Nonlinear Dynamics |
13 pages |
Vol. 2013, Article ID 608598, http://dx.doi.org/10.1155/2013/608598 (2013) |
82 |
Mathematical analysis of a single-species population model in a polluted environment with discrete time delays |
Swarnali Sharma |
Journal of Mathematics |
18 pages |
Volume 2013, Article ID 574213 http://dx.doi.org/10.1155/2013/574213 (2013) |
83 |
Dynamical Behaviour of a Drinking Epidemic Model |
Swarnali Sharma |
Journal of Applied Mathematics and Informatics |
747-767 |
Vol.31, No.5-6 (2013) |
84 |
Analysis of a fractional-order competition model with common inhibitory effect |
Swarnali Sharma |
International Journal of Ecological Economics & Statistics |
68-86 |
Vol.31, No.4 (2013) |
85 |
Quota Harvesting Model for a Single Species Population Under Fuzziness |
D.Pal, G.S.Mahapatra |
International J. Mathematical Sciences |
33-46 |
Vol. 12, No. 1-2 (2013) |
86 |
Analysis of an epidemic model with non-linear incidence and vaccination |
Swarnali Sharma |
International Journal of Ecological Economics & Statistics |
104-129 |
Vol.28, No.1 ( 2013) |
87 |
Drinking as an epidemic : a mathematical model with dynamic behavior |
Swarnali Sharma |
Journal of Applied Mathematics and Informatics |
1-25 |
Vol.31, No.1-2 (2013) |
88 |
Dynamic Behaviour for Heroin Epidemic Models |
Swarnali Sharma |
Heroin: Pharmacology, Effect and Abuse Prevention (SCOPUS) |
51-92 |
Nova Science Publishers, New York (2012) |
89 |
Analysis of nonautonomous two species system in a polluted environment |
Mathematica Slovaca |
567-586 |
Vol.62, No.3(2012) |
|
90 |
An EPQ Model with Imprecise Space Constraint Based on Intuitionistic Fuzzy Optimization Technique |
G.S.Mahapatra, T.K.Mandal |
J. of Mult.-Valued Logic & Soft Computing |
409-423 |
Vol.19, No.5-6 (2012) |
91 |
A proportional harvesting dynamical model with fuzzy intrinsic growth rate and harvesting quantity |
D.Pal, G.S.Mahapatra |
Pacific-Asian Journal of Mathematics |
199-213 |
Vol. 6, No. 2 (2012) |
92 |
Fuzzy parametric geometric programming with application in fuzzy EPQ model under flexibility and reliability consideration |
G.S. Mahapatra, T.K. Mandal |
Journal of Information and Computing Science |
223-234 |
Vol. 7, No. 3 (2012) |
93 |
Optimal Inventory Policies for Imperfect Inventory with Price Dependent Stochastic Demand and Partial Backlogged Shortages |
Jhuma Bhowmick |
Yugoslav Journal of Operational Research. |
199-223 |
Vol. 22 (2012) |
94 |
Permanence and extinction for a nonautonomous SVIR epidemic model with distributed time delay |
World Journal of Modelling and Simulation |
3-18 |
Vol.8, No.1(2012) |
|
95 |
Permanence and extinction of a nonautonomous HIV/AIDS epidemic model with distributed time delay |
Nonlinear Analysis: Real World Applications |
1163-1177 |
Vol. 12, No. 2 (2011) |
|
96 |
Analysis of a nonautonomous dynamical model of diseases through droplet infection and direct contact |
Applied Mathematics and Computation |
5870-5888 |
Vol. 217, No. 12 (2011) |
|
97 |
Inventory model with two rates of production for deteriorating items with permissibly delay in payments |
Ajanta Roy |
Int. J. Syst. Sci. |
1375-1386 |
Vol. 42, Issue 8 (2011) |
98 |
A Production Inventory Model with Fuzzy Coefficients Using Parametric Geometric Programming Approach |
G.S.Mahapatra, T.K.Mandal |
International Journal of Machine Learning and Cybernetics |
99-105 |
Vol. 2, No. 2 (2011) |
99 |
Dynamical behaviour for a nonautonomous smoking dynamical model with distributed time delay |
Journal of Applied Mathematics and Informatics |
721-741 |
Vol.29, No.3-4 (2011) |
|
100 |
A Deterministic inventory Model of Deteriorating Items with Two Rates of Production, Shortages and Variable Production Cycle |
Jhuma Bhowmick |
ISRN Applied Mathematics |
16 pages |
Vol. 2011, Article ID 657464, doi: 10.5402/2011/657464 (2011) |
101 |
Dynamic behaviour for a nonautonomous heroin epidemic model with time delay |
Journal of Applied Mathematics and Computing |
161-178 |
Vol.35 (2011) |
|
102 |
A stochastic two species competition model: non-equilibrium fluctuation and stability |
International Journal of Stochastic Analysis |
7 pages |
Vol. 2011, Article ID 489386, |
|
103 |
Analysis of a nonautonomous predator-prey model incorporating a prey refuge and time delay |
D. N. Garain |
Journal of Applied Mathematics and Informatics |
955-967 |
Vol.29, No.3-4 (2011) |
104 |
Analysis of a nonautonomous HIV/AIDS model |
Mathematical Modelling of Natural Phenomena |
70-95 |
Vol.5, No.6 (2010) |
|
105 |
Permanence and extinction of a nonautonomous stage-structured epidemic model with distributed time delay |
Journal of Biological Systems |
377-398 |
Vol.18, No.2 (2010) |
|
106 |
Analysis of a delay nonautonomous predator-prey system with disease in the prey |
Nonlinear Analysis : Modeling and Control |
97-108 |
Vol.15, No.1 (2010) |
|
107 |
Rich dynamics of an SIR epidemic model |
S.Pathak, A.Maiti |
Nonlinear Analysis: Modeling and Control |
71-81 |
Vol.15, No.1 (2010)
|
108 |
A single species population in a polluted environment |
A.K. Pal |
International Journal of Biomathematics |
1-18 |
Vol.3, No.2 (2010) |
109 |
Analysis of a nonautonomous HIV/AIDS epidemic model with distributed time delay |
Mathematical Modelling and Analysis |
327-347 |
Vol.15, No.3 (2010) |
|
110 |
A two-species competitive system under the influence of toxic substances |
Applied Mathematics and Computation |
291-299 |
Vol. 216 (2010) |
|
111 |
Dynamics of a single species population in a polluted environment |
A.K.Pal |
J. Appl. Math. & Informatics |
1185-1202 |
Vol.28, No.5-6 (2010) |
112 |
Permanence and extinction for a nonautonomous avian-human influenza epidemic model with distributed time delay |
Mathematical and Computer Modelling |
1794-1811 |
Vol. 52 (2010) |
|
113 |
Global dynamics of a nonautonomous SIRC model for influenza A with distributed time delay |
Differential Equations and Dynamical Systems |
341-362 |
Vol. 18, Issue 4 (2010) |
|
114 |
A Deterministic Inventory System with Weibull Distribution Deterioration and Ramp Type Demand Rate |
Jhuma Bhowmick |
Electronic Journal of Applied Statistical Analysis, |
92-114 |
Vol. 3, Issue 2 (2010) |
115 |
Dynamics of a single species population in a polluted environment |
A.K.Pal |
Journal of Applied Mathematics and Informatics |
1185-1202 |
Vol.28, No.5-6 (2010) |
116 |
Determining the factors that do and do not influence the demand for less polluting modes of passengers transport: a case study of Kolkata, India |
Madhumati Dutta |
World Transport Policy & Practice |
7-34 |
Vol.16, No.3 (2010) |
117 |
Analysis of a nonautonomous delayed predator-prey system with a stage structure for the predator in a polluted environment |
International Journal of Mathematics and Mathematical Sciences |
18 pages |
Vol. 2010 Article ID 891812, |
|
118 |
Stability in randomly fluctuating versus deterministic environments of the Gomatam model of interacting species |
AMSE (D), Advances in Modelling: Computer Science and Statistics |
89-100 |
Vol.15, No. 1-2 (2010) |
|
119 |
A nonlinear predator-prey system in deterministic and stochastic environment |
A.Maiti, A.K. Pal |
International Journal of Ecological Economics & Statistics |
14-25 |
Vol.16, No. W10, Winter (2010) |
120 |
Effect of time-delay on a ratio-dependent food chain model |
Alakes Maiti, Bibek Patra |
Nonlinear Analysis : Modelling and Control |
199-216 |
Vol.14 (2009) |
121 |
Rich Dynamics of a Food Chain Model with Hassell-Varely Type Functional Responses |
Sweta Pathak, A.Maiti |
Applied Mathematics and Computation |
303-317 |
Vol. 208(2009) |
122 |
An order-level inventory model for items with weibull distribution deterioration, shortages and stock-dependent time varying demand |
Jhuma Bhowmick |
A.M.S.E. Periodicals (D) Production Engineering and Management |
64-77 |
Vol. 30, No. 2 (2009) |
123 |
Fuzzy continuous review inventory model without backorder for deteriorating items |
Ajanta Roy |
Electronic Journal of Applied Statistical Analysis |
58-66 |
Vol.1 (2009) |
124 |
Effect of time-delay on a food chain model |
A.Maiti, A.K. Pal |
Applied Mathematics and Computation |
189-203 |
Vol.200, No. 1 (2008) |
125 |
A Prey-Predator model with Microparasite Infection in the Predator |
A.Maiti, S.P.Bera |
J. Biol. System |
219-239 |
Vol. 16, No.2 (2008) |
126 |
Usefulness of Bio-Control of Pests in Tea:A Mathematical Model |
A.Maiti, A.K. Pal |
Mathematical Modelling of Natural Phenomena |
96-113 |
Vol.3, No.4 (2008) |
127 |
Bionomic Exploitation of a Ratio-Dependent Predator-Prey System |
Alakes Maiti, Bibek Patra |
Int. J. Math. Edu. Sci. Technol |
1061-1076 |
Vol. 39 (2008) |
128 |
Deterministic and Stochastic Analysis of a Ratio-Dependent Predator-Prey System with Delay |
A.Maiti, M.M.Jana |
Nonlinear Analysis : Modelling and Control |
383-398 |
Vol.12, No.3 (2007) |
129 |
Persistence and stability in a ratio-dependent predator-prey system with delay and harvesting |
Alakes Maiti, Bibek Patra |
Natural Resource Modelling |
575-600 |
Vol.20, No.4 (2007) |
130 |
A Deterministic Inventory System with Deterioration and Stock Dependent Time Varying Demand Rate |
Nilanjana Gangopadhyaya |
Tamsui Oxford Journal of Management Sciences |
35-48 |
Vol. 23, No. 4 (2007) |
131 |
A Continuous Deterministic Inventory System For Deteriorating Items with Inventory-Level-Dependent Time Varying Demand Rate |
Jhuma Bhowmick |
Tamsui Oxford Journal of Mathematical Sciences |
173-184 |
Vol. 23, No. 2 (2007) |
132 |
Persistence and stability of a food chain model with mixed selection of functional responses |
Alakes Maiti, Bibek Patra |
Nonlinear Analysis: Modelling and Control |
171-185 |
Vol.11, No. 2(2006) |
133 |
Rich dynamics of a time-delayed food chain model |
Alakes Maiti |
Journal of Biological Systems |
387- 412 |
Vol.14, No. 3(2006) |
134 |
Deterministic and stochastic analysis of a ratio-dependent prey-predator system |
Alakes Maiti |
Int. J. Syst. Sci. |
817-826 |
Vol. 37 (2006) |
135 |
An Inventory Model of Deteriorating Items with time-Varying demand and shortages |
Ajanta Roy |
AMSE (D) |
1-18 |
Vol. 27, No. 1 (2006) |
136 |
Sterile insect release method as a control measure of insect pests : A mathematical model |
Alakes Maiti, Bibek Patra |
Journal of Applied Mathematics and Computing |
71-86 |
Vol. 22, No. 3 (2006) |
137 |
Complex dynamics of a food chain model with mixed selection of functional responses |
Alakes Maiti |
Bull. Cal. Math. Soc. |
393-412. |
Vol. 97 (2005) |
138 |
Deterministic and stochastic analysis of a prey-dependent predator-prey system |
Alakes Maiti |
Int. J. Math. Educ. Sci. Technol. |
65-83 |
Vol. 36 (2005) |
139 |
An EOQ model for deteriorating items with stock-dependent time varying demand. |
Ajanta Roy |
Tamsui Oxford Journal of Management Sciences. |
37-46 |
Vol. 20 (2004) |
140 |
A deterministic inventory model of deteriorating items with two rates of production and shortages |
Ajanta Roy |
Tamsui Oxford Journal of Mathematical Sciences |
205-218 |
Vol. 20 (2004) |
141 |
A production inventory model with deteriorating items and shortages |
Ajanta Roy |
Yugoslav Journal of Operational Research |
219-230 |
Vol. 14 (2004) |
142 |
Dynamical model of a single-species system in a polluted environment |
Alakes Maiti |
Journal of Applied Mathematics and Computing |
231-242 |
Vol. 10 (2004) |
143 |
Stochastic analysis of a demographic model of urbanization |
J. Natural and Physical Sciences |
1-10 |
Vol. 18 (2004) |
|
144 |
Stochastic Gomatam model of interacting species : non-equilibrium fluctuation and stability |
Alakes Maiti |
Systems Analysis Modelling Simulation |
683-692 |
Vol. 43, Issue 6 (2003) |
145 |
Bionomic modelling of a three-species fishery with switching effect |
Debasis Manna, Alakes Maiti |
Journal of Applied Mathematics and Computing |
219-231 |
Vol. 12 (2003) |
146 |
Stability of a social group |
Krishnendu Sen |
J. Natural and Physical Sciences |
45-54 |
Vol. 15 (2001). |
147 |
Influence of environmental noises on Gomatam model of interacting species |
|
Ecological Modelling |
283-291 |
Vol. 91, Issues 1-3 (1996) |
148 |
The effects of random fluctuating environment on interacting species with time delay |
Int. J. Math. Edu. Sci.Technol. |
13-21 |
Vol. 27 (1996) |
|
149 |
Stability and evolution of a predator-prey model near equilibrium |
Bull. Cal. Math. Soc. |
375-384 |
Vol. 87 (1995) |
|
150 |
Stochastic analysis of a prey- predator system |
Int. J. Math. Edu. Sci. Technol. |
797-803 |
Vol. 25 (1994) |
|
151 |
Logistic growth under coloured noise |
|
Bull. Math. de la Soc. Sci. Math. de Roumanie |
115-122 |
Vol. 37 (1993) |
152 |
Stability of resource consumer system |
Bull. Cal. Math. Soc. |
457-462 |
Vol. 85 (1993) |
|
153 |
Influence of environmental noise in Gompertzian growth model |
J. Math. Phy. Sci. |
503-511 |
Vol. 26 (1992) |
|
154 |
Stochastic differential equation modelling of ecosystem |
C. G. Chakrabarti |
Math. Edu. |
36-40 |
Vol. XXVI (1992) |
155 |
Complex stochastic averaging approach to a two-state predator system |
Int. J. Math. Edu. Sci. Technol. |
739-744 |
Vol. 23 (1992) |
|
156 |
Stochastic analysis of a noisy oscillator |
|
Applied Mathematics Letters |
61-63 |
Vol. 4 (1991) |
157 |
Stochastic behaviour of a damped Volterra-Lotka system with time-dependent parameters |
C.G.Chakrabarti |
J. Math. Phy. Sci. |
351-359 |
Vol. 25 (1991) |
158 |
Fluctuation and stability in a diffusive predator-prey system |
|
Applied Mathematics Letters |
115-118 |
Vol. 3 (1990) |
159 |
On stability and fluctuation in Gompertzian and Logistic growth models |
C. G. Chakrabarti |
Applied Mathematics Letters |
119-121 |
Vol. 3 (1990) |
160 |
Fluctuation and stability in a diffusive resource-consumer system |
Bull. Cal. Math. Soc. |
182-185 |
Vol. 82 (1990) |
|
161 |
Damped Volterra-Lotka system in a rapidly fluctuating environment |
Pure and Appl. Mathematika Sciences |
89-95 |
Vol. XXXII (1990) |
|
162 |
Stochastically perturbed Hopf Bifurcation in an extended Volterra-Lotka System |
C. G. Chakrabarti |
Applied Mathematics Letters |
63-166 |
Vol. 2 (1989) |
163 |
Kinetics of non-linear reaction-diffusion process |
C. G. Chakrabarti, R. N. Talapatra |
Bull. Cal. Math. Soc. |
528-533 |
Vol. 81 (1989) |
Books authored by DR. GURUPRASAD SAMANTA:
- A Text Book of Partial Differential Equations (ISBN: 978-81-224-4352-3 C-17-03-10313), published by New Age International (P) Limited, New Delhi. (2017)
- A Text Book of Engineering Mathematics-IV (ISBN: 978-81-224-3554-2), published by New Age International (P) Limited, New Delhi.
- A Text Book of Engineering Mathematics-III (ISBN: 978-81-224-4044-7 C-16-07-9546), published by New Age International (P) Limited, New Delhi. (2017)
- A Text Book of Engineering Mathematics-II (ISBN: 978-81-224-3219-0, 978-81-224-3959-5), published by New Age International (P) Limited, New Delhi. (2016)
- A Text Book of Engineering Mathematics-I (ISBN: 978-81-224-3803-1), published by New Age International (P) Limited, New Delhi. (2015)
- A Text Book of Discrete Mathematics (ISBN: 978-81-224-3680-8), published by New Age International (P) Limited, New Delhi.
- A Text Book of Operations Research (ISBN: 978-93-84107-08-6), published by Knowledge Kit Publications, Kolkata (2015)
- A Text Book of Mathematics WBSCTE Semester 1 (ISBN: 978-81-92671-
- ), published by Knowledge Kit Publications, Kolkata.
- Diploma Engineering Mathematics WBSCTE Semester 2 (ISBN: 978-81-
- ), published by Knowledge Kit Publications, Kolkata.
LIST OF RESEARCH PAPERS OF DR. GURUPRASAD SAMANTA
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s)/Article ID |
Volume & Year |
A prey–predator model with refuge for prey and additional food for predator in a fluctuating environment |
Amartya Das |
Physica A |
122844 |
Vol. 538 (2020) |
|
Dynamics of an additional food provided predator–prey system with prey refuge dependent on both species and constant harvest in predator |
Sudeshna Mondal |
Physica A |
122301 |
Vol. 534 (2019) |
|
Dynamics of an epidemic model with impact of toxins |
Sangeeta Saha |
Physica A |
121152 |
Vol. 527 (2019) |
|
Model justification and stratification for confounding of Chlamydia trachomatis disease |
Sarada Ghosh |
Letters in Biomathemat-ics |
2019, DOI: 10.1080/23737867.2019.1654418 |
||
Statistical modelling for cancer mortality |
Sarada Ghosh |
Letters in Biomathemat-ics |
2019, DOI: 10.1080/23737867.2019.1581104 |
||
Synthetic drugs transmission: stability analysis and optimal control |
Sangeeta Saha |
Letters in Biomathemat-ics |
2019, https://doi.org/10.1080/23737867.2019.1624204 |
||
Analysis of a predator–prey model with herd behavior and disease in prey incorporating prey refuge |
Sangeeta Saha |
International Journal of Biomathemat-ics |
1950007 |
Vol. 12, No. 1 (2019) |
|
Modelling and optimal control of HIV/AIDS prevention through PrEP and limited treatment |
Sangeeta Saha |
Physica A |
280-307 |
Vol. 516 (2019) |
|
On the dynamics of evolutionary Leslie-Gower predator-prey ecoepidemiological model with disease in predator |
A. Mondal , A. K. Pal |
Ecological Genetics and Genomics |
100034 |
Vol. 10 (2019) |
|
A Prey-Predator Dynamics with Square Root Functional Responses and Strong Allee Effect |
D. Pal, S. Biswas, G. S. Mahapatra |
Journal of Applied Nonlinear Dynamics |
419–433 |
Vol. 8(3) 2019 |
|
Fitting Cumulative Logit Models for Ordinal Response Variables in Retail Trends and Predictions |
Sarada Ghosh |
International Journal of Statistics and Economics |
32-49 |
Vol. 20(1) 2019 |
|
Rich dynamics of non-toxic phytoplankton, toxic phytoplankton and zooplankton system with multiple gestation delays |
A. Mondal , A. K. Pal |
International Journal of Dynamics and Control |
2018, DOI: 10.1007/s40435-018-0501-4 |
||
1 |
Stability and Bifurcation Analysis of a Delayed Three Species Food Chain Model with Crowley-Martin Response Function |
A. Mondal , A. K. Pal |
Appl. Appl. Math. |
709 – 749 |
Vol. 13(2) 2018 |
2 |
Influence of dispersal and strong Allee effect on a two-patch predator-prey model |
Sangeeta Saha |
International Journal of Dynamics and Control |
2018, DOI: 10.1007/s40435-018-0490-3 |
|
3 |
Effects of Fear and Additional Food in a Delayed Predator–Prey Model |
Sudeshna Mondal, Alakes Maiti |
Biophysical Reviews and Letters |
2018, DOI: 10.1142/S1793048018500091 |
|
4 |
Modeling the fear effect on a stochastic prey–predator system with additional food for the predator |
Amartya Das |
Journal of Physics A: Mathematical and Theoretical |
465601 (26pp) |
Vol. 51 (2018) |
5 |
Stochastic prey–predator model with additional food for predator |
Amartya Das |
Physica A |
121–141 |
Vol. 512 (2018) |
6 |
A Michaelis-Menten Predator-Prey Model with Strong Allee Effect and Disease in Prey Incorporating Prey Refuge |
Sangeeta Saha , Alakes Maiti |
International Journal of Bifurcation and Chaos |
1850073 (21 pages) |
Vol. 28, No. 6 (2018) |
7 |
Deterministic and stochastic analysis of a predator–prey model with Allee effect and herd behaviour |
Debasis Manna , Alakes Maiti |
Simulation |
1-11 |
2018, DOI: 10.1177/0037549718779445 |
8 |
A STUDY of BIFURCATION of PREY-PREDATOR MODEL with TIME DELAY and HARVESTING USING FUZZY PARAMETERS |
D.Pal, G.S. Mahapatra |
Journal of Biological Systems |
339-372 |
Vol. 26, No. 2, 2018 |
9 |
Effects of dispersal speed and strong Allee effect on stability of a two-patch predator–prey model |
D. Pal |
International Journal of Dynamics and Control |
2018 DOI 10.1007/s40435-018-0407-1 |
|
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
10 |
Significance of prey harvesting in prey-predator system in discrete time scale using interval parameters |
Debaldev Jana |
International Journal of Ecological Economics and Statistics |
46-60 |
Vol. 39(2),(2018), |
11 |
Stability analysis of a prey-predator fractional order model incorporating prey refuge |
Meghadri Das, Alakes Maiti |
Ecological Genetics and Genomics |
33-46 |
Vol. 7-8,(2018), DOI 10.1016/j.egg.2018.05.001 |
12 |
Analysis of a Chlamydia epidemic model with pulse vaccination strategy in a random environment |
Shyam Pada Bera |
Nonlinear Analysis: Modelling and Control |
457–474 |
Vol. 23(4),(2018), DOI 10.15388/NA.2018.4.1 |
13 |
Stability analysis and optimal control of avian influenza virus A with time delays |
S. Sharma, A. Mondal ,· A. K. Pal |
International Journal of Dynamics and Control |
1351-1366 |
Vol. 6, No. 3, 2018 DOI 10.1007/s40435-017-0379-6 |
14 |
Analysis of a predator-prey model for exploited fish populations with schooling behavior |
Debasis Manna, Alakes Maiti |
Applied Mathematics and Computation |
35-48 |
Vol. 317 (2018) |
15 |
Dynamical behaviour of age-selective harvesting of a prey-predator system |
Swarnali Sharma |
International Journal of Dynamics and Control |
550-560 |
Vol. 6(2), ( 2018), DOI 10.1007/s40435-017-0337-3 |
16 |
Analysis of a harvested predator–prey system with schooling behaviour |
Debasis Manna , Alakes Maiti |
International Journal of Dynamics and Control |
881-891 |
Vol.6(2), (2018), DOI 10.1007/s40435-017-0321-y |
17 |
New approach for stability and bifurcation analysis on predator–prey harvesting model for interval biological parameters with time delays |
D.Pal, G.S. Mahapatra |
Computationl and Applied Mathematics |
3145-3171 |
Vol. 37, No. 3, 2018, DOI 10.1007/s40314-017-0504-3 |
18 |
Degree of prey refuges: Control the competition among prey and foraging ability of predator |
Debaldev Jana , Aniket Banerjee |
Chaos, Solitons and Fractals |
350–362 |
Vol. 104 (2017) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
19 |
Dynamics of a Delayed Competitive System Affected |
A.K.Pal, P.Dolai |
Filomat |
5271–5293 |
Vol. 31, No. 16, (2017) |
20 |
Analysis of a hand-foot-mouth disease model, International Journal of Biomathematics |
Swarnali Sharma |
International Journal of Biomathematics |
1-47 |
Vol. 10(2), (2017) DOI: 10.1142/S1793524517500164 |
21 |
Parameter uncertainty in biomathematical model described by one-prey two-predator system with mutualism |
D.Pal, G.S. Mahapatra |
International Journal of Biomathematics |
1-36 |
Vol. 10(6); (2017) DOI : 10.1142/S1793524517500826 |
22 |
Selective harvesting of two competing fish species in the presence of toxicity with time delay |
D. Pal, G.S.Mahapatra |
Applied Mathematics and Computation |
74-93 |
Vol. 313 (2017) |
23 |
Analysis of a mathematical model of periodically pulsed chemotherapy treatment
|
Ricardo Gómez Aíza and Swarnali Sharma |
International Journal of Dynamics and Control |
842-857 |
Vol. 5(3) (2017) |
24 |
A Michaelis–Menten type food chain model with strong Allee effect on the prey |
Debasis Manna, Alakes Maiti |
Applied Mathematics and Computation |
390-409 |
Vol. 311 (2017) |
25 |
DYNAMICS OF A SYMBIOTIC MODEL WITH HERD BEHAVIOUR AND STRONG ALLEE EFFECT |
Prosenjit Sen, Alakes Maiti |
Neural, Parallel, and Scientific Computations |
149-164 |
Vol. 25 (2017) |
26 |
A Three-Layer Supply Chain EPQ Model for Price- and Stock-Dependent Stochastic Demand with Imperfect Item Under Rework |
Shilpi Pal, G. S. Mahapatra |
Journal of Uncertainty Analysis and Applications |
DOI 10.1186/s40467-016-0050-3, 2016 |
|
27 |
On the stability and Hopf-bifurcation of a multidelayed competitive population system affected by toxic substances with imprecise biological parameters |
D. Jana, P. Dolai, A.K.Pal |
Modeling Earth Systems and Environment |
1-16 |
DOI 10.1007/s40808-016-0156-0 , 2016 |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
28 |
Analysis of the Dynamics of a Tumor-Immune System with Chemotherapy and Immunotherapy and Quadratic Optimal Control |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
149–171, |
Vol. 24(2) (2016) |
29 |
Stability and bionomic analysis of fuzzy prey-predator harvesting model in presence of toxicity: A dynamic approach |
D. Pal, G. S. Mahapatra |
Bulletin of Mathematical Biology |
1493–1519 |
Vol. 78(7) (2016) DOI: 10.1007/s11538-016-0192-y |
30 |
Dynamics of a food chain model with herd behaviour of the prey |
S. P. Bera , A. Maiti |
Modeling Earth Systems and Environment |
1-9 |
DOI 10.1007/s40808-016-0189-4 , (2016) |
31 |
Effects of fuzzy harvesting on logistic growth models for uncertain ecological parameter |
D.Pal, G.S. Mahapatra |
Journal of Interdiscipli-nary Mathematics |
433-451 |
Vol. 19(3); DOI : 10.1080/09720502.2014.914277, (2016) |
32 |
Deterministic and stochastic analysis of a prey–predator model with herd behaviour in both |
Alakes Maiti, Prosenjit Sen |
SYSTEMS SCIENCE & CONTROL EN- GINEERING |
259-269 |
Vol. 4 (2016) |
33 |
A delayed epidemic model of diseases through droplet infection and direct contact with saturation incidence and pulse vaccination |
Prosenjit Sen & Alakes Maiti |
SYSTEMS SCIENCE & CONTROL EN- GINEERING |
320-333 |
Vol. 4 ( 2016) |
34 |
A Predator-Prey System with Herd Behaviour and Strong Allee Effect |
Alakes Maiti, Prosenjit Sen, Debasis Manna |
Nonlinear Dynamics and Systems Theory |
86–101 |
Vol. 16 (1)( 2016) |
35 |
Ecological dynamics of age selective harvesting of fish population: Maximum sustainable yield and its control strategy |
Debaldev Jana , Rashmi Agrawal, Ranjit Kumar Upadhyay |
Chaos, Solitons and Fractals |
111–122 |
Vol. 93 (2016) |
36 |
Stochastic Analysis of a Prey-Predator Model with Herd Behavior of Prey |
S.P.Bera, A.Maiti |
Nonlinear Analysis: Modelling and Control |
345-361 |
Vol.21, No.3 (2016),http://dx.doi.org/10.15388/NA.2016.3.4 |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
37 |
A nonlinear irreversible investment model with von-bertalanffy law of growth |
Debasis Manna |
International Journal of Mathematics and Statistics |
67-90 |
Vol. 17, Issue 1 (2016) |
38 |
Analysis Mathematical analysis of a Chlamydia epidemic model with pulse vaccination strategy, |
Acta Biotheoretica |
1-21 |
Vol. 63 (2015) |
|
39 |
A delayed hand-foot-mouth disease model with pulse vaccination strategy |
Computationl and Applied Mathematics |
1131-1152 |
Vol. 34, Issue 3 (2015) |
|
40 |
Stability and bionomic analysis of fuzzy parameter based prey–predator harvesting model using UFM |
D. Pal, G. S. Mahapatra |
Nonlinear Dynamics |
1939–1955 |
Vol. 79 (2015) |
41 |
A Leslie–Gower predator–prey model with disease in prey incorporating a prey refuge |
Swarnali Sharma |
Chaos, Solitons & Fractals |
69–84 |
Vol. 70 (2015) |
42 |
A Prey-predator Model with Infection in Both Prey and Predator |
S.P.Bera, A.Maiti |
Filomat |
1753–1767 |
Vol. 29, No. 8, (2015) |
43 |
Stability analysis and optimal control of an epidemic model with vaccination |
Swarnali Sharma |
International Journal of Bi-omathematics |
28 pages |
Vol. 8, No. 3(2015) 1550030 DOI: 10.1142/S1793524515500308. |
44 |
Analysis of a predator-prey population model |
Swarnali Sharma |
International Journal of Ecological Economics & Statistics |
18-44 |
Vol.36, No.4 (2015) |
45 |
A Delay Dynamic Model for HIV Infected Immune Response
|
S.P.Bera, A.Maiti |
J. Appl. Math. & Informatics |
559 –578 |
Vol. 33, No. 5 – 6 (2015) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
46 |
Analysis of the Dynamics of a Tumor-Immune System with Chemotherapy and Immunotherapy and Quadratic Optimal Control |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
1-23 |
DOI 10.1007/s12591-015-0250-1 (2015)
|
47 |
Modelling herd behavior of prey: analysis of a prey-predator model |
S.P.Bera, A.Maiti |
World J. of Modelling and Simulation |
3–14 |
Vol. 11, No. 1 (2015)
|
48 |
A production inventory model for deteriorating item with ramp type demand allowing inflation and shortages under fuzziness |
Shilpi Pal, G.S.Mahapatra |
Economic Modelling
|
334–345 |
Vol. 46 (2015) |
49 |
Analysis of a drinking epidemic model |
Swarnali Sharma |
International Journal of Dynamics and Control |
288-305 |
Vol. 3, Issue 3 (2015) |
50 |
Analysis of a delayed epidemic model of diseases through droplet infection and direct contact with pulse vaccination |
Ricardo Gómez Aíza |
International Journal of Dynamics and Control |
275-287 |
Vol. 3, Issue 3 (2015) |
51 |
A ratio-dependent predator-prey model with Allee effect and disease in prey |
Swarnali Sharma |
J. Appl. Math. Computing |
345–364 |
Vol. 47(2015) |
52 |
Analysis of a two prey one predator system with disease in the first prey population |
Swarnali Sharma |
International Journal of Dynamics and Control |
210-224 |
Vol. 3, Issue 3 (2015) |
53 |
Bifurcation analysis of predator–prey model with time delay and harvesting efforts using interval parameter |
D.Pal, G.S. Mahapatra |
International Journal of Dynamics and Control |
199-209 |
Vol. 3, Issue 3 (2015) |
54 |
Optimal harvesting of a two species competition model with imprecise biological parameters |
Swarnali Sharma |
Nonlinear Dynamics |
1101–1119 |
Vol. 77 (2014) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
55 |
Analysis of a delayed Chlamydia epidemic model with pulse vaccination |
Swarnali Sharma |
Applied Mathematics and Computation |
555–569 |
Vol. 230 (2014) |
56 |
An EPQ model of ramp type demand with Weibull deterioration under inflation and finite horizon in crisp and fuzzy environment |
Shilpi Pal, G.S. Mahapatra |
International Journal of Production Economics |
159-166 |
Vol. 156 (2014) |
57 |
Analysis of a delayed epidemic model with pulse vaccination |
Chaos, Solitons & Fractals |
74–85 |
Vol. 66 (2014) |
|
58 |
Analysis of a Chlamydia Epidemic Model |
Swarnali Sharma |
Journal of Biological Systems |
1–32 |
Vol. 22, No. 4 (2014) |
59 |
Modelos dinamicos de problaciones simples y de sistemas depredador-presa (in spanish) |
Ricardo Gómez Aíza |
Miscelanea Matematica |
77-110. |
Vol.58 (2014) |
60 |
Role of multiple delays in ratio-dependent prey-predator system with prey harvesting under stochastic environment |
Debaldev Jana |
Neural, Parallel, and Scientific Computations |
205-222 |
Vol.22 (2014) |
61 |
Bioeconomic modeling of a single species fishery with Von Bertalanffy law of growth |
Debasis Manna |
Electronic Journal of Applied Statistical Analysis |
117-131 |
Vol. 7, Issue 1 (2014) |
62 |
Analysis of a delayed hand–foot–mouth disease epidemic model with pulse vaccination |
Systems Science & Control Engineering: An Open Access Journal |
61–73 |
Vol. 2 (2014) |
|
63 |
An inventory model of price and stock dependent demand rate with deterioration under inflation and delay in payment |
Shilpi Pal, G.S. Mahapatra |
Int J Syst Assur Eng Management |
591-601 |
Vol. 5, Issue 4 (2014) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
64 |
Dynamical Behaviour of an HIV/AIDS Epidemic Model |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
369-395 |
Vol. 22, Issue 4 (2014) |
65 |
Dynamical Behaviour of a Two Prey and One Predator System |
Swarnali Sharma |
Differential Equations and Dynamical Systems |
125-145 |
Vol. 22, Issue 2 (2014) |
66 |
Optimal harvesting of prey–predator system with interval biological parameters: A bioeconomic model |
D.Pal, G.S.Mahapatra |
Mathematical Biosciences |
181-187 |
Vol. 241 (2013) |
67 |
A Ratio-dependent Eco-epidemiological Model Incorporating a Prey Refuge |
A.K.Pal |
Universal Journal of Applied Mathematics |
86-100 |
Vol.1, No.2 (2013) |
68 |
EPQ model with fuzzy coefficient of objective and constraint via parametric geometric programming |
G.S. Mahapatra, T.K. Mandal |
International J. Operational Research |
436-448 |
Vol.17, No.4 (2013) |
69 |
Dynamical Behaviour of a Tumor-Immune System with Chemotherapy and Optimal Control |
Swarnali Sharma |
Journal of Nonlinear Dynamics |
13 pages |
Vol. 2013, Article ID 608598, http://dx.doi.org/10.1155/2013/608598 (2013) |
70 |
Mathematical analysis of a single-species population model in a polluted environment with discrete time delays |
Swarnali Sharma |
Journal of Mathematics |
18 pages |
Volume 2013, Article ID 574213 http://dx.doi.org/10.1155/2013/574213 (2013) |
71 |
Dynamical Behaviour of a Drinking Epidemic Model |
Swarnali Sharma |
Journal of Applied Mathematics and Informatics |
747-767 |
Vol.31, No.5-6 (2013) |
72 |
Analysis of a fractional-order competition model with common inhibitory effect |
Swarnali Sharma |
International Journal of Ecological Economics & Statistics |
68-86 |
Vol.31, No.4 (2013) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
73 |
Quota Harvesting Model for a Single Species Population Under Fuzziness |
D.Pal, G.S.Mahapatra |
International J. Mathematical Sciences |
33-46 |
Vol. 12, No. 1-2 (2013) |
74 |
Analysis of an epidemic model with non-linear incidence and vaccination |
Swarnali Sharma |
International Journal of Ecological Economics & Statistics |
104-129 |
Vol.28, No.1 ( 2013) |
75 |
Drinking as an epidemic : a mathematical model with dynamic behavior |
Swarnali Sharma |
Journal of Applied Mathematics and Informatics |
1-25 |
Vol.31, No.1-2 (2013) |
76 |
Dynamic Behaviour for Heroin Epidemic Models |
Swarnali Sharma |
Heroin: Pharmacology, Effect and Abuse Prevention (SCOPUS) |
51-92 |
Nova Science Publishers, New York (2012) |
77 |
Analysis of nonautonomous two species system in a polluted environment |
Mathematica Slovaca |
567-586 |
Vol.62, No.3(2012) |
|
78 |
An EPQ Model with Imprecise Space Constraint Based on Intuitionistic Fuzzy Optimization Technique |
G.S.Mahapatra, T.K.Mandal |
J. of Mult.-Valued Logic & Soft Computing |
409-423 |
Vol.19, No.5-6 (2012) |
79 |
A proportional harvesting dynamical model with fuzzy intrinsic growth rate and harvesting quantity |
D.Pal, G.S.Mahapatra |
Pacific-Asian Journal of Mathematics |
199-213 |
Vol. 6, No. 2 (2012) |
80 |
Fuzzy parametric geometric programming with application in fuzzy EPQ model under flexibility and reliability consideration |
G.S. Mahapatra, T.K. Mandal |
Journal of Information and Computing Science |
223-234 |
Vol. 7, No. 3 (2012) |
81 |
Optimal Inventory Policies for Imperfect Inventory with Price Dependent Stochastic Demand and Partial Backlogged Shortages |
Jhuma Bhowmick |
Yugoslav Journal of Operational Research. |
199-223 |
Vol. 22 (2012) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
82 |
Permanence and extinction for a nonautonomous SVIR epidemic model with distributed time delay |
World Journal of Modelling and Simulation |
3-18 |
Vol.8, No.1(2012) |
|
83 |
Permanence and extinction of a nonautonomous HIV/AIDS epidemic model with distributed time delay |
Nonlinear Analysis: Real World Applications |
1163-1177 |
Vol. 12, No. 2 (2011) |
|
84 |
Analysis of a nonautonomous dynamical model of diseases through droplet infection and direct contact |
Applied Mathematics and Computation |
5870-5888 |
Vol. 217, No. 12 (2011) |
|
85 |
Inventory model with two rates of production for deteriorating items with permissibly delay in payments |
Ajanta Roy |
Int. J. Syst. Sci. |
1375-1386 |
Vol. 42, Issue 8 (2011) |
86 |
A Production Inventory Model with Fuzzy Coefficients Using Parametric Geometric Programming Approach |
G.S.Mahapatra, T.K.Mandal |
International Journal of Machine Learning and Cybernetics |
99-105 |
Vol. 2, No. 2 (2011) |
87 |
Dynamical behaviour for a nonautonomous smoking dynamical model with distributed time delay |
Journal of Applied Mathematics and Informatics |
721-741 |
Vol.29, No.3-4 (2011) |
|
88 |
A Deterministic inventory Model of Deteriorating Items with Two Rates of Production, Shortages and Variable Production Cycle |
Jhuma Bhowmick |
ISRN Applied Mathematics |
16 pages |
Vol. 2011, Article ID 657464, doi: 10.5402/2011/657464 (2011) |
89 |
Dynamic behaviour for a nonautonomous heroin epidemic model with time delay |
Journal of Applied Mathematics and Computing |
161-178 |
Vol.35 (2011) |
|
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
90 |
A stochastic two species competition model: non-equilibrium fluctuation and stability |
International Journal of Stochastic Analysis |
7 pages |
Vol. 2011, Article ID 489386, |
|
91 |
Analysis of a nonautonomous predator-prey model incorporating a prey refuge and time delay |
D. N. Garain |
Journal of Applied Mathematics and Informatics |
955-967 |
Vol.29, No.3-4 (2011) |
92 |
Analysis of a nonautonomous HIV/AIDS model |
Mathematical Modelling of Natural Phenomena |
70-95 |
Vol.5, No.6 (2010) |
|
93 |
Permanence and extinction of a nonautonomous stage-structured epidemic model with distributed time delay |
Journal of Biological Systems |
377-398 |
Vol.18, No.2 (2010) |
|
94 |
Analysis of a delay nonautonomous predator-prey system with disease in the prey |
Nonlinear Analysis : Modeling and Control |
97-108 |
Vol.15, No.1 (2010) |
|
95 |
Rich dynamics of an SIR epidemic model |
S.Pathak, A.Maiti |
Nonlinear Analysis: Modeling and Control |
71-81 |
Vol.15, No.1 (2010)
|
96 |
A single species population in a polluted environment |
A.K. Pal |
International Journal of Biomathematics |
1-18 |
Vol.3, No.2 (2010) |
97 |
Analysis of a nonautonomous HIV/AIDS epidemic model with distributed time delay |
Mathematical Modelling and Analysis |
327-347 |
Vol.15, No.3 (2010) |
|
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
98 |
A two-species competitive system under the influence of toxic substances |
Applied Mathematics and Computation |
291-299 |
Vol. 216 (2010) |
|
99 |
Dynamics of a single species population in a polluted environment |
A.K.Pal |
J. Appl. Math. & Informatics |
1185-1202 |
Vol.28, No.5-6 (2010) |
100 |
Permanence and extinction for a nonautonomous avian-human influenza epidemic model with distributed time delay |
Mathematical and Computer Modelling |
1794-1811 |
Vol. 52 (2010) |
|
101 |
Global dynamics of a nonautonomous SIRC model for influenza A with distributed time delay |
Differential Equations and Dynamical Systems |
341-362 |
Vol. 18, Issue 4 (2010) |
|
102 |
A Deterministic Inventory System with Weibull Distribution Deterioration and Ramp Type Demand Rate |
Jhuma Bhowmick |
Electronic Journal of Applied Statistical Analysis, |
92-114 |
Vol. 3, Issue 2 (2010) |
103 |
Dynamics of a single species population in a polluted environment |
A.K.Pal |
Journal of Applied Mathematics and Informatics |
1185-1202 |
Vol.28, No.5-6 (2010) |
104 |
Determining the factors that do and do not influence the demand for less polluting modes of passengers transport: a case study of Kolkata, India |
Madhumati Dutta |
World Transport Policy & Practice |
7-34 |
Vol.16, No.3 (2010) |
105 |
Analysis of a nonautonomous delayed predator-prey system with a stage structure for the predator in a polluted environment |
International Journal of Mathematics and Mathematical Sciences |
18 pages |
Vol. 2010 Article ID 891812, |
|
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
106 |
Stability in randomly fluctuating versus deterministic environments of the Gomatam model of interacting species |
AMSE (D), Advances in Modelling: Computer Science and Statistics |
89-100 |
Vol.15, No. 1-2 (2010) |
|
107 |
A nonlinear predator-prey system in deterministic and stochastic environment |
A.Maiti, A.K. Pal |
International Journal of Ecological Economics & Statistics |
14-25 |
Vol.16, No. W10, Winter (2010) |
108 |
Effect of time-delay on a ratio-dependent food chain model |
Alakes Maiti, Bibek Patra |
Nonlinear Analysis : Modelling and Control |
199-216 |
Vol.14 (2009) |
109 |
Rich Dynamics of a Food Chain Model with Hassell-Varely Type Functional Responses |
Sweta Pathak, A.Maiti |
Applied Mathematics and Computation |
303-317 |
Vol. 208(2009) |
110 |
An order-level inventory model for items with weibull distribution deterioration, shortages and stock-dependent time varying demand |
Jhuma Bhowmick |
A.M.S.E. Periodicals (D) Production Engineering and Management |
64-77 |
Vol. 30, No. 2 (2009) |
111 |
Fuzzy continuous review inventory model without backorder for deteriorating items |
Ajanta Roy |
Electronic Journal of Applied Statistical Analysis |
58-66 |
Vol.1 (2009) |
112 |
Effect of time-delay on a food chain model |
A.Maiti, A.K. Pal |
Applied Mathematics and Computation |
189-203 |
Vol.200, No. 1 (2008) |
113 |
A Prey-Predator model with Microparasite Infection in the Predator |
A.Maiti, S.P.Bera |
J. Biol. System |
219-239 |
Vol. 16, No.2 (2008) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
114 |
Usefulness of Bio-Control of Pests in Tea:A Mathematical Model |
A.Maiti, A.K. Pal |
Mathematical Modelling of Natural Phenomena |
96-113 |
Vol.3, No.4 (2008) |
115 |
Bionomic Exploitation of a Ratio-Dependent Predator-Prey System |
Alakes Maiti, Bibek Patra |
Int. J. Math. Edu. Sci. Technol |
1061-1076 |
Vol. 39 (2008) |
116 |
Deterministic and Stochastic Analysis of a Ratio-Dependent Predator-Prey System with Delay |
A.Maiti, M.M.Jana |
Nonlinear Analysis : Modelling and Control |
383-398 |
Vol.12, No.3 (2007) |
117 |
Persistence and stability in a ratio-dependent predator-prey system with delay and harvesting |
Alakes Maiti, Bibek Patra |
Natural Resource Modelling |
575-600 |
Vol.20, No.4 (2007) |
118 |
A Deterministic Inventory System with Deterioration and Stock Dependent Time Varying Demand Rate |
Nilanjana Gangopadhyaya |
Tamsui Oxford Journal of Management Sciences |
35-48 |
Vol. 23, No. 4 (2007) |
119 |
A Continuous Deterministic Inventory System For Deteriorating Items with Inventory-Level-Dependent Time Varying Demand Rate |
Jhuma Bhowmick |
Tamsui Oxford Journal of Mathematical Sciences |
173-184 |
Vol. 23, No. 2 (2007) |
120 |
Persistence and stability of a food chain model with mixed selection of functional responses |
Alakes Maiti, Bibek Patra |
Nonlinear Analysis: Modelling and Control |
171-185 |
Vol.11, No. 2(2006) |
121 |
Rich dynamics of a time-delayed food chain model |
Alakes Maiti |
Journal of Biological Systems |
387- 412 |
Vol.14, No. 3(2006) |
122 |
Deterministic and stochastic analysis of a ratio-dependent prey-predator system |
Alakes Maiti |
Int. J. Syst. Sci. |
817-826 |
Vol. 37 (2006) |
123 |
An Inventory Model of Deteriorating Items with time-Varying demand and shortages |
Ajanta Roy |
AMSE (D) |
1-18 |
Vol. 27, No. 1 (2006) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
124 |
Sterile insect release method as a control measure of insect pests : A mathematical model |
Alakes Maiti, Bibek Patra |
Journal of Applied Mathematics and Computing |
71-86 |
Vol. 22, No. 3 (2006) |
125 |
Complex dynamics of a food chain model with mixed selection of functional responses |
Alakes Maiti |
Bull. Cal. Math. Soc. |
393-412. |
Vol. 97 (2005) |
126 |
Deterministic and stochastic analysis of a prey-dependent predator-prey system |
Alakes Maiti |
Int. J. Math. Educ. Sci. Technol. |
65-83 |
Vol. 36 (2005) |
127 |
An EOQ model for deteriorating items with stock-dependent time varying demand. |
Ajanta Roy |
Tamsui Oxford Journal of Management Sciences. |
37-46 |
Vol. 20 (2004) |
128 |
A deterministic inventory model of deteriorating items with two rates of production and shortages |
Ajanta Roy |
Tamsui Oxford Journal of Mathematical Sciences |
205-218 |
Vol. 20 (2004) |
129 |
A production inventory model with deteriorating items and shortages |
Ajanta Roy |
Yugoslav Journal of Operational Research |
219-230 |
Vol. 14 (2004) |
130 |
Dynamical model of a single-species system in a polluted environment |
Alakes Maiti |
Journal of Applied Mathematics and Computing |
231-242 |
Vol. 10 (2004) |
131 |
Stochastic analysis of a demographic model of urbanization |
J. Natural and Physical Sciences |
1-10 |
Vol. 18 (2004) |
|
132 |
Stochastic Gomatam model of interacting species : non-equilibrium fluctuation and stability |
Alakes Maiti |
Systems Analysis Modelling Simulation |
683-692 |
Vol. 43, Issue 6 (2003) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
133 |
Bionomic modelling of a three-species fishery with switching effect |
Debasis Manna, Alakes Maiti |
Journal of Applied Mathematics and Computing |
219-231 |
Vol. 12 (2003) |
134 |
Stability of a social group |
Krishnendu Sen |
J. Natural and Physical Sciences |
45-54 |
Vol. 15 (2001). |
135 |
Influence of environmental noises on Gomatam model of interacting species |
|
Ecological Modelling |
283-291 |
Vol. 91, Issues 1-3 (1996) |
136 |
The effects of random fluctuating environment on interacting species with time delay |
Int. J. Math. Edu. Sci.Technol. |
13-21 |
Vol. 27 (1996) |
|
137 |
Stability and evolution of a predator-prey model near equilibrium |
Bull. Cal. Math. Soc. |
375-384 |
Vol. 87 (1995) |
|
138 |
Stochastic analysis of a prey- predator system |
Int. J. Math. Edu. Sci. Technol. |
797-803 |
Vol. 25 (1994) |
|
139 |
Logistic growth under coloured noise |
|
Bull. Math. de la Soc. Sci. Math. de Roumanie |
115-122 |
Vol. 37 (1993) |
140 |
Stability of resource consumer system |
Bull. Cal. Math. Soc. |
457-462 |
Vol. 85 (1993) |
|
141 |
Influence of environmental noise in Gompertzian growth model |
J. Math. Phy. Sci. |
503-511 |
Vol. 26 (1992) |
|
142 |
Stochastic differential equation modelling of ecosystem |
C. G. Chakrabarti |
Math. Edu. |
36-40 |
Vol. XXVI (1992) |
143 |
Complex stochastic averaging approach to a two-state predator system |
Int. J. Math. Edu. Sci. Technol. |
739-744 |
Vol. 23 (1992) |
|
144 |
Stochastic analysis of a noisy oscillator |
|
Applied Mathematics Letters |
61-63 |
Vol. 4 (1991) |
|
Title of Paper(s) |
Name of the Co-Author(s) |
Name of the Journal(s) |
Page(s) |
Volume & Year |
145 |
Stochastic behaviour of a damped Volterra-Lotka system with time-dependent parameters |
C.G.Chakrabarti |
J. Math. Phy. Sci. |
351-359 |
Vol. 25 (1991) |
146 |
Fluctuation and stability in a diffusive predator-prey system |
|
Applied Mathematics Letters |
115-118 |
Vol. 3 (1990) |
147 |
On stability and fluctuation in Gompertzian and Logistic growth models |
C. G. Chakrabarti |
Applied Mathematics Letters |
119-121 |
Vol. 3 (1990) |
148 |
Fluctuation and stability in a diffusive resource-consumer system |
Bull. Cal. Math. Soc. |
182-185 |
Vol. 82 (1990) |
|
149 |
Damped Volterra-Lotka system in a rapidly fluctuating environment |
Pure and Appl. Mathematika Sciences |
89-95 |
Vol. XXXII (1990) |
|
150 |
Stochastically perturbed Hopf Bifurcation in an extended Volterra-Lotka System |
C. G. Chakrabarti |
Applied Mathematics Letters |
63-166 |
Vol. 2 (1989) |
151 |
Kinetics of non-linear reaction-diffusion process |
C. G. Chakrabarti, R. N. Talapatra |
Bull. Cal. Math. Soc. |
528-533 |
Vol. 81 (1989) |
Books authored by DR. GURUPRASAD SAMANTA:
- A Text Book of Partial Differential Equations (ISBN: 978-81-224-4352-3 C-17-03-10313), published by New Age International (P) Limited, New Delhi. (2017)
- A Text Book of Engineering Mathematics-IV (ISBN: 978-81-224-3554-2), published by New Age International (P) Limited, New Delhi.
- A Text Book of Engineering Mathematics-III (ISBN: 978-81-224-4044-7 C-16-07-9546), published by New Age International (P) Limited, New Delhi. (2017)
- A Text Book of Engineering Mathematics-II (ISBN: 978-81-224-3219-0, 978-81-224-3959-5), published by New Age International (P) Limited, New Delhi. (2016)
- A Text Book of Engineering Mathematics-I (ISBN: 978-81-224-3803-1), published by New Age International (P) Limited, New Delhi. (2015)
- A Text Book of Discrete Mathematics (ISBN: 978-81-224-3680-8), published by New Age International (P) Limited, New Delhi.
- A Text Book of Operations Research (ISBN: 978-93-84107-08-6), published by Knowledge Kit Publications, Kolkata (2015)
- A Text Book of Mathematics WBSCTE Semester 1 (ISBN: 978-81-92671-
- ), published by Knowledge Kit Publications, Kolkata.
- Diploma Engineering Mathematics WBSCTE Semester 2 (ISBN: 978-81-
- ), published by Knowledge Kit Publications, Kolkata.