Taghikhani, Rahim; Sharomi, Oluwaseun; Gumel, Abba B. Dynamics of a two-sex model for the population ecology of dengue mosquitoes in the presence of Wolbachia. (English) Zbl 1453.92265 Math. Biosci. 328, Article ID 108426, 21 p. (2020). MSC: 92D25 92D40 92D45 34C23 PDF BibTeX XML Cite \textit{R. Taghikhani} et al., Math. Biosci. 328, Article ID 108426, 21 p. (2020; Zbl 1453.92265) Full Text: DOI
Dianavinnarasi, J.; Cao, Yang; Raja, R.; Rajchakit, G.; Lim, C. P. Delay-dependent stability criteria of delayed positive systems with uncertain control inputs: application in mosquito-borne morbidities control. (English) Zbl 07208700 Appl. Math. Comput. 382, Article ID 125210, 12 p. (2020). MSC: 00 PDF BibTeX XML Cite \textit{J. Dianavinnarasi} et al., Appl. Math. Comput. 382, Article ID 125210, 12 p. (2020; Zbl 07208700) Full Text: DOI
Cardona-Salgado, Daiver; Campo-Duarte, Doris E.; Sepulveda-Salcedo, Lilian S.; Vasilieva, Olga Wolbachia-based biocontrol for dengue reduction using dynamic optimization approach. (English) Zbl 07193520 Appl. Math. Modelling 82, 125-149 (2020). MSC: 92 90 PDF BibTeX XML Cite \textit{D. Cardona-Salgado} et al., Appl. Math. Modelling 82, 125--149 (2020; Zbl 07193520) Full Text: DOI
Qiu, Zhipeng; Wei, Xuerui; Shan, Chunhua; Zhu, Huaiping Monotone dynamics and global behaviors of a West Nile virus model with mosquito demographics. (English) Zbl 1433.92061 J. Math. Biol. 80, No. 3, 809-834 (2020). Reviewer: Yilun Shang (Newcastle) MSC: 92D30 34D23 PDF BibTeX XML Cite \textit{Z. Qiu} et al., J. Math. Biol. 80, No. 3, 809--834 (2020; Zbl 1433.92061) Full Text: DOI
Strugarek, Martin; Bossin, Hervé; Dumont, Yves On the use of the sterile insect release technique to reduce or eliminate mosquito populations. (English) Zbl 07183476 Appl. Math. Modelling 68, 443-470 (2019). MSC: 92 37 PDF BibTeX XML Cite \textit{M. Strugarek} et al., Appl. Math. Modelling 68, 443--470 (2019; Zbl 07183476) Full Text: DOI
Bliman, Pierre-Alexandre; Cardona-Salgado, Daiver; Dumont, Yves; Vasilieva, Olga Implementation of control strategies for sterile insect techniques. (English) Zbl 1425.92126 Math. Biosci. 314, 43-60 (2019). MSC: 92C60 34D23 93B52 93D20 PDF BibTeX XML Cite \textit{P.-A. Bliman} et al., Math. Biosci. 314, 43--60 (2019; Zbl 1425.92126) Full Text: DOI arXiv
Almeida, Luis; Privat, Yannick; Strugarek, Martin; Vauchelet, Nicolas Optimal releases for population replacement strategies: application to Wolbachia. (English) Zbl 1421.92029 SIAM J. Math. Anal. 51, No. 4, 3170-3194 (2019). MSC: 92D30 49K15 49J30 PDF BibTeX XML Cite \textit{L. Almeida} et al., SIAM J. Math. Anal. 51, No. 4, 3170--3194 (2019; Zbl 1421.92029) Full Text: DOI
Li, Dan; Wan, Hui The threshold infection level for Wolbachia invasion in a two-sex mosquito population model. (English) Zbl 1417.92182 Bull. Math. Biol. 81, No. 7, 2596-2624 (2019). MSC: 92D30 34C60 34C23 PDF BibTeX XML Cite \textit{D. Li} and \textit{H. Wan}, Bull. Math. Biol. 81, No. 7, 2596--2624 (2019; Zbl 1417.92182) Full Text: DOI
Zheng, Bo; Liu, Xiaoping; Tang, Moxun; Xi, Zhiyong; Yu, Jianshe Use of age-stage structural models to seek optimal Wolbachia-infected male mosquito releases for mosquito-borne disease control. (English) Zbl 1412.92180 J. Theor. Biol. 472, 95-109 (2019). MSC: 92C60 PDF BibTeX XML Cite \textit{B. Zheng} et al., J. Theor. Biol. 472, 95--109 (2019; Zbl 1412.92180) Full Text: DOI
Strugarek, Martin; Vauchelet, Nicolas; Zubelli, Jorge P. Quantifying the survival uncertainty of Wolbachia-infected mosquitoes in a spatial model. (English) Zbl 1406.92522 Math. Biosci. Eng. 15, No. 4, 961-991 (2018). MSC: 92D25 92C60 35K57 PDF BibTeX XML Cite \textit{M. Strugarek} et al., Math. Biosci. Eng. 15, No. 4, 961--991 (2018; Zbl 1406.92522) Full Text: DOI
Pandey, Surabhi; Nanda, Seema; Vutha, Amit; Naresh, Ram Modeling the impact of biolarvicides on malaria transmission. (English) Zbl 1406.92362 J. Theor. Biol. 454, 396-409 (2018). MSC: 92C60 92D30 PDF BibTeX XML Cite \textit{S. Pandey} et al., J. Theor. Biol. 454, 396--409 (2018; Zbl 1406.92362) Full Text: DOI
Zhou, Fengyan; Ma, Chengrong; Liang, Hongzhen; Dai, Binxiang; Yao, Hongxing Impact of predator on the host-vector disease model with stage structure for the vector. (English) Zbl 1448.92265 Adv. Difference Equ. 2018, Paper No. 324, 22 p. (2018). MSC: 92D25 37N25 PDF BibTeX XML Cite \textit{F. Zhou} et al., Adv. Difference Equ. 2018, Paper No. 324, 22 p. (2018; Zbl 1448.92265) Full Text: DOI
Zhang, Xianghong; Tang, Sanyi; Liu, Qiyong; Cheke, Robert A.; Zhu, Huaiping Models to assess the effects of non-identical sex ratio augmentations of Wolbachia-carrying mosquitoes on the control of dengue disease. (English) Zbl 1393.92054 Math. Biosci. 299, 58-72 (2018). MSC: 92D30 92D25 37N25 PDF BibTeX XML Cite \textit{X. Zhang} et al., Math. Biosci. 299, 58--72 (2018; Zbl 1393.92054) Full Text: DOI
Campo-Duarte, Doris E.; Vasilieva, Olga; Cardona-Salgado, Daiver; Svinin, Mikhail Optimal control approach for establishing wMelpop Wolbachia infection among wild Aedes aegypti populations. (English) Zbl 1390.92133 J. Math. Biol. 76, No. 7, 1907-1950 (2018). MSC: 92D30 92D25 49K15 PDF BibTeX XML Cite \textit{D. E. Campo-Duarte} et al., J. Math. Biol. 76, No. 7, 1907--1950 (2018; Zbl 1390.92133) Full Text: DOI
Nadin, Grégoire; Strugarek, Martin; Vauchelet, Nicolas Hindrances to bistable front propagation: application to Wolbachia invasion. (English) Zbl 1411.34039 J. Math. Biol. 76, No. 6, 1489-1533 (2018). Reviewer: Abdolrahman Razani (Qazvin) MSC: 34B18 35K57 35B40 92D25 35C07 PDF BibTeX XML Cite \textit{G. Nadin} et al., J. Math. Biol. 76, No. 6, 1489--1533 (2018; Zbl 1411.34039) Full Text: DOI
Bliman, Pierre-Alexandre; Aronna, M. Soledad; Coelho, Flávio C.; da Silva, Moacyr A. H. B. Ensuring successful introduction of Wolbachia in natural populations of Aedes aegypti by means of feedback control. (English) Zbl 1392.92096 J. Math. Biol. 76, No. 5, 1269-1300 (2018). MSC: 92D30 34C12 93D15 93D25 PDF BibTeX XML Cite \textit{P.-A. Bliman} et al., J. Math. Biol. 76, No. 5, 1269--1300 (2018; Zbl 1392.92096) Full Text: DOI
Qu, Zhuolin; Xue, Ling; Hyman, James M. Modeling the transmission of Wolbachia in mosquitoes for controlling mosquito-borne diseases. (English) Zbl 1392.92107 SIAM J. Appl. Math. 78, No. 2, 826-852 (2018). MSC: 92D30 34K18 93A30 93C15 PDF BibTeX XML Cite \textit{Z. Qu} et al., SIAM J. Appl. Math. 78, No. 2, 826--852 (2018; Zbl 1392.92107) Full Text: DOI
Mishra, Arti; Gakkhar, Sunita Non-linear dynamics of two-patch model incorporating secondary dengue infection. (English) Zbl 1383.92083 Int. J. Appl. Comput. Math. 4, No. 1, Paper No. 19, 22 p. (2018). MSC: 92D30 PDF BibTeX XML Cite \textit{A. Mishra} and \textit{S. Gakkhar}, Int. J. Appl. Comput. Math. 4, No. 1, Paper No. 19, 22 p. (2018; Zbl 1383.92083) Full Text: DOI
Mishra, Arti; Ambrosio, Benjamin; Gakkhar, Sunita; Aziz-Alaoui, M. A. A network model for control of dengue epidemic using sterile insect technique. (English) Zbl 1379.92064 Math. Biosci. Eng. 15, No. 2, 441-460 (2018). MSC: 92D30 PDF BibTeX XML Cite \textit{A. Mishra} et al., Math. Biosci. Eng. 15, No. 2, 441--460 (2018; Zbl 1379.92064) Full Text: DOI
Xue, Ling; Manore, Carrie A.; Thongsripong, Panpim; Hyman, James M. Two-sex mosquito model for the persistence of Wolbachia. (English) Zbl 1447.92493 J. Biol. Dyn. 11, Suppl. 1, 216-237 (2017). MSC: 92D30 34D20 PDF BibTeX XML Cite \textit{L. Xue} et al., J. Biol. Dyn. 11, 216--237 (2017; Zbl 1447.92493) Full Text: DOI
Li, Yazhi; Liu, Xianning An impulsive model for Wolbachia infection control of mosquito-borne diseases with general birth and death rate functions. (English) Zbl 1377.92093 Nonlinear Anal., Real World Appl. 37, 412-432 (2017). MSC: 92D30 PDF BibTeX XML Cite \textit{Y. Li} and \textit{X. Liu}, Nonlinear Anal., Real World Appl. 37, 412--432 (2017; Zbl 1377.92093) Full Text: DOI
Farkas, József Z.; Gourley, Stephen A.; Liu, Rongsong; Yakubu, Abdul-Aziz Modelling Wolbachia infection in a sex-structured mosquito population carrying West Nile virus. (English) Zbl 1387.92082 J. Math. Biol. 75, No. 3, 621-647 (2017). MSC: 92D30 34D20 34C11 PDF BibTeX XML Cite \textit{J. Z. Farkas} et al., J. Math. Biol. 75, No. 3, 621--647 (2017; Zbl 1387.92082) Full Text: DOI
Ndii, Meksianis Z.; Allingham, David; Hickson, R. I.; Glass, Kathryn The effect of Wolbachia on dengue outbreaks when dengue is repeatedly introduced. (English) Zbl 1366.92128 Theor. Popul. Biol. 111, 9-15 (2016). MSC: 92D30 PDF BibTeX XML Cite \textit{M. Z. Ndii} et al., Theor. Popul. Biol. 111, 9--15 (2016; Zbl 1366.92128) Full Text: DOI
Zhang, Xianghong; Tang, Sanyi; Cheke, Robert A.; Zhu, Huaiping Modeling the effects of augmentation strategies on the control of dengue fever with an impulsive differential equation. (English) Zbl 1361.92075 Bull. Math. Biol. 78, No. 10, 1968-2010 (2016). MSC: 92D30 34A37 34C23 PDF BibTeX XML Cite \textit{X. Zhang} et al., Bull. Math. Biol. 78, No. 10, 1968--2010 (2016; Zbl 1361.92075) Full Text: DOI
Strugarek, Martin; Vauchelet, Nicolas Reduction to a single closed equation for 2-by-2 reaction-diffusion systems of Lotka-Volterra type. (English) Zbl 1355.35108 SIAM J. Appl. Math. 76, No. 5, 2060-2080 (2016). MSC: 35K57 92D25 35K40 PDF BibTeX XML Cite \textit{M. Strugarek} and \textit{N. Vauchelet}, SIAM J. Appl. Math. 76, No. 5, 2060--2080 (2016; Zbl 1355.35108) Full Text: DOI
Ndii, Meksianis Z.; Hickson, R. I.; Allingham, David; Mercer, G. N. Modelling the transmission dynamics of dengue in the presence of Wolbachia. (English) Zbl 1315.92083 Math. Biosci. 262, 157-166 (2015). MSC: 92D30 PDF BibTeX XML Cite \textit{M. Z. Ndii} et al., Math. Biosci. 262, 157--166 (2015; Zbl 1315.92083) Full Text: DOI
Zhou, Fengyan; Yao, Hongxing Dynamics and biocontrol: the indirect effects of a predator population on a host-vector disease model. (English) Zbl 1406.92646 Abstr. Appl. Anal. 2014, Article ID 252718, 14 p. (2014). MSC: 92D30 92D25 34C23 34D23 PDF BibTeX XML Cite \textit{F. Zhou} and \textit{H. Yao}, Abstr. Appl. Anal. 2014, Article ID 252718, 14 p. (2014; Zbl 1406.92646) Full Text: DOI