Author: Sk Shahid Nadim; Indrajit Ghosh; Joydev Chattopadhyay
Title: Global dynamics of a general vector-borne disease model with two transmission routes Document date: 2018_12_7
ID: 0gwuvaj2_38
Snippet: Theorem 4.1. The system (2.1) has unique endemic equilibrium Y * if R 0 > 1 and cases 1, 2, 6 and 10 202 in Table 2 are satisfied, and has unique endemic equilibrium Y * if R 0 < 1 and cases 3, 4, 5 and 14 in 203 Table 3 are satisfied. The system (2.1) could have more than one endemic equilibrium if R 0 > 1 and 204 cases 3 − −5, 7 − −9, 11 − −13, 15 and 16 in Table 2 are satisfied, and could have more than one endemic 205 equilibriu.....
Document: Theorem 4.1. The system (2.1) has unique endemic equilibrium Y * if R 0 > 1 and cases 1, 2, 6 and 10 202 in Table 2 are satisfied, and has unique endemic equilibrium Y * if R 0 < 1 and cases 3, 4, 5 and 14 in 203 Table 3 are satisfied. The system (2.1) could have more than one endemic equilibrium if R 0 > 1 and 204 cases 3 − −5, 7 − −9, 11 − −13, 15 and 16 in Table 2 are satisfied, and could have more than one endemic 205 equilibrium if R 0 < 1 and cases 2, 6 − −13, 15 and 16 in Table 3 are satisfied. The Jacobian matrix of the system (2.1) evaluated at endemic equilibrium Y * can be written as
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