A. Abdelhedi, D. Boutat, L. Sbita, and R. Tami, Extended observer to estimate the spreading of contagious disease, 2014 European Control Conference (ECC), pp.1843-1848, 2014.

A. Abdelhedi, D. Boutat, L. Sbita, R. Tami, and D. Liu, Observer design for a class of nonlinear piecewise systems. Application to an epidemic model with treatment, Math. Biosci, vol.271, pp.128-135, 2016.

J. Alvarez-ramirez, M. Meraz, and J. X. Velasco-hernandez, International Journal of Bifurcation and Chaos, vol.10, pp.2207-2219, 2000.

R. M. Anderson and R. M. May, Helminth infections of humans: mathematical models, population dynamics, and control, Advances in parasitology, vol.24, pp.1-101, 1985.

R. M. Anderson and R. M. May, Infectious Diseases of Humans. Dynamics and Control, 1991.

P. J. Antsaklis and A. N. , Michel State Feedback and State Observers, pp.351-410, 2007.

M. S. Aronna and P. Bliman, Interval observer for uncertain time-varying SIR-SI model of vector-borne disease, Proc. of European Control Conference, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01493078

A. Barbour, Modeling the transmission of schistosomiasis: an introductory view, The American journal of tropical medicine and hygiene, vol.55, pp.135-143, 1996.

A. D. Barbour, Macdonald's model and the transmission of bilharzia, Transactions of the Royal Society of Tropical Medicine and Hygiene, vol.72, pp.6-15, 1978.

M. Basáñez, J. S. Mccarthy, M. D. French, G. Yang, M. Walker et al., A research agenda for helminth diseases of humans: modelling for control and elimination, PLoS neglected tropical diseases, vol.6, p.1548, 2012.

G. Besançon, Nonlinear observers and applications. Papers based on the presentations at the 28th Grenoble international summer school on control, vol.363, 2007.

G. Besancon, Q. Zhang, and H. Hammouri, High gain observer based state and parameter estimation in nonlinear systems, 2004.

J. Bethony, J. T. Williams, H. Kloos, J. Blangero, L. Alves-fraga et al., Exposure to schistosoma mansoni infection in a rural area in brazil. ii: household risk factors, Tropical Medicine & International Health, vol.6, pp.136-145, 2001.

D. Bichara, Étude de modèlesépidémiologiques: Stabilité, observation et estimation de paramètres, 2013.

D. Bichara, N. Cozic, and A. Iggidr, On the estimation of sequestered infected erythrocytes in Plasmodium falciparum malaria patients, Math. Biosci. Eng, vol.11, pp.741-759, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00922456

P. Bliman, B. , and D. Barros, Interval observers for SIR epidemic models subject to uncertain seasonality, Positive systems, vol.471, pp.31-39, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01567474

P. Bliman, D. Efimov, and R. Ushirobira, A class of nonlinear adaptive observers for sir epidemic model, Proc. of European Control Conference, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01724989

, Centers for Disease Control and Prevention, 2017.

D. Colley and W. Secor, Immunology of human schistosomiasis, Parasite immunology, vol.36, pp.347-357, 2014.

W. A. Coppel, Stability and asymptotic behavior of differential equations, D. C. Heath and Co, 1965.

M. Darouach, M. Zasadzinski, and S. J. Xu, Full-order observers for linear systems with unknown inputs, IEEE transactions on automatic control, vol.39, pp.606-609, 1994.
URL : https://hal.archives-ouvertes.fr/hal-00098125

K. Degue, D. Efimov, and A. Iggidr, Interval estimation of sequestered infected erythrocytes in malaria patients, ECC, vol.2016, pp.1141-1145, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01295741

M. Diaby, A. Iggidr, and M. Sy, Observer design for a schistosomiasis model, Mathematical Biosciences, vol.269, pp.17-29, 2015.
URL : https://hal.archives-ouvertes.fr/hal-00758712

Z. Feng, A. Eppert, F. A. Milner, and D. Minchella, Estimation of parameters governing the transmission dynamics of schistosomes, Applied Mathematics Letters, vol.17, pp.1105-1112, 2004.

J. P. Gauthier, H. Hammouri, and S. Othman, A simple observer for nonlinear systems applications to bioreactors, IEEE Transactions on automatic control, vol.37, pp.875-880, 1992.

D. J. Gray, D. P. Mcmanus, Y. Li, G. M. Williams, R. Bergquist et al., Schistosomiasis elimination: lessons from the past guide the future, vol.10, pp.733-736, 2010.

A. Guiro, A. Iggidr, D. Ngom, and H. Touré, On the stock estimation for some fishery systems, Reviews in fish biology and fisheries, vol.19, pp.313-327, 2009.
URL : https://hal.archives-ouvertes.fr/inria-00595295

M. Hirsch and H. L. Smith, Handbook of Differential Equations, vol.2, 2005.

M. W. Hirsch, Systems of differential equations which are competitive or cooperative. I: Limit sets, SIAM J. Math. Anal, vol.13, pp.167-179, 1982.

M. Hou and P. Muller, Design of observers for linear systems with unknown inputs, IEEE Transactions on automatic control, vol.37, pp.871-875, 1992.

M. Hou and P. Muller, Disturbance decoupled observer design: A unified viewpoint, IEEE Transactions on Automatic Control, vol.39, pp.1338-1341, 1994.

A. Iggidr, Encyclopedia of life support systems (eolss), in Mathematical Models, Controllability, Observability and Stability of Mathematical Models, 2004.

A. Iggidr and M. O. Souza, State estimators for some epidemiological systems, J Math Biol, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01672659

M. T. Inobaya, R. M. Olveda, T. N. Chau, D. U. Olveda, and A. G. Ross, Prevention and control of schistosomiasis: a current perspective, Research and reports in tropical medicine, p.65, 2014.

C. H. King and D. Bertsch, Historical perspective: snail control to prevent schistosomiasis, PLoS neglected tropical diseases, vol.9, p.3657, 2015.

D. Luenberger, An introduction to observers, IEEE Transactions on automatic control, vol.16, pp.596-602, 1971.

G. Macdonald, The dynamics of helminth infections, with special reference to schistosomes, Transactions of the Royal Society of Tropical Medicine and Hygiene, vol.59, pp.489-506, 1965.

L. Mari, M. Ciddio, R. Casagrandi, J. Perez-saez, E. Bertuzzo et al.,

G. A. Sokolow, M. De-leo, and . Gatto, Heterogeneity in schistosomiasis transmission dynamics, Journal of Theoretical Biology, vol.432, pp.87-99, 2017.

K. S. Narendra and A. M. Annaswamy, Stable adaptive systems, 1989.

G. Riveau, G. Sallet, and L. Tendeng, A Transmission Model of Bilharzia A Mathematical Analysis of an Heterogeneous Model, Revue Africaine de la Recherche en, Informatique et Mathématiques Appliquées, vol.14, pp.1-13, 2011.

R. Ross, The prevention of malaria, 1911.

H. L. Smith, Monotone dynamical systems: an introduction to the theory of competitive and cooperative systems, Mathematical Surveys and Monographs. 41, 1995.

S. J. Swartz, G. A. Leo, C. L. Wood, and S. H. Sokolow, Infection with schistosome parasites in snails leads to increased predation by prawns: implications for human schistosomiasis control, Journal of Experimental Biology, vol.218, pp.3962-3967, 2015.

R. Tami, D. Boutat, G. Zheng, and F. Kratz, Parameters and states estimation for dengue epidemic model, 2014 European Control Conference (ECC), pp.528-533, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01094912

L. Tendeng, Etude de modèles de transmission de la Schistosomiase: Analyse mathématique, reconstruction des variables d'état et estimation des paramètres, 2013.

G. , Ordinary Differential Equations and Dynamical Systems, 2012.

J. Utzinger, R. Bergquist, X. Shu-hua, B. H. Singer, and M. Tanner, The Lancet, vol.362, pp.1932-1934, 2003.

H. J. Van-cleave and L. G. Lederer, Studies on the life cycle of the snail, viviparus contectoides, Journal of Morphology, p.53, 1932.

J. X. Velasco-hernández, J. A. García, and D. Kirschner, Remarks on modeling hostviral dynamics and treatment., in Mathematical approaches for emerging and reemerging infectious diseases: An introduction, Proceedings of a tutorial Introduction to epidemiology and immunology, C. e. e. a. Castillo-Chavez, vol.125, pp.287-308, 2002.

W. Wonham, Linear multivariable control: a geometric approach, 1979.

M. Woolhouse, On the application of mathematical models of schistosome transmission dynamics. i. natural transmission, Acta tropica, vol.49, pp.241-270, 1991.

, On the application of mathematical models of schistosome transmission dynamics. ii. control, Acta Tropica, vol.50, pp.189-204, 1992.

M. Woolhouse, G. Hasibeder, and S. Chandiwana, On estimating the basic reproduction number for schistosoma haematobium, Tropical Medicine & International Health, vol.1, pp.456-463, 1996.