K. Hampson, L. Coudeville, T. Lembo, M. Sambo, A. Kieffer et al., Estimating the Global Burden of Endemic Canine Rabies, PLoS Negl Trop Dis, vol.9, 2015.

, World Health Organization. WHO Expert Consultation on Rabies: Second Report, 2013.

A. I. Wandeler, H. C. Matter, A. Kappeler, and A. Budde, The ecology of dogs and canine rabies: a selective review, Rev Sci Tech, vol.12, issue.1, pp.51-71, 1993.

K. Bö-gel and F. X. Meslin, Economics of human and canine rabies elimination: guidelines for programme orientation, Bull World Health Organ, vol.68, issue.3, pp.281-291, 1990.

J. Zinsstag, S. Durr, M. A. Penny, R. Mindekem, F. Roth et al., Transmission dynamics and economics of rabies control in dogs and humans in an African city, Proc Natl Acad Sci, vol.106, pp.14996-15001, 2009.

T. Lembo, K. Hampson, M. T. Kaare, E. E. Knobel, D. Kazwala et al., The Feasibility of Canine Rabies Elimination in Africa: Dispelling Doubts with Data, PLoS Negl Trop Dis, vol.4, p.626, 2010.

M. C. Fitzpatrick, K. Hampson, S. Cleaveland, L. A. Meyers, J. P. Townsend et al., Potential for Rabies Control through Dog Vaccination in Wildlife-Abundant Communities of Tanzania. Reithinger R, editor, PLoS Negl Trop Dis, vol.6, p.1796, 2012.

T. Jibat, H. Hogeveen, and M. Mourits, Review on Dog Rabies Vaccination Coverage in Africa: A Question of Dog Accessibility or Cost Recovery?, PLoS Negl Trop Dis, vol.9, 2015.

S. L. Davlin and H. M. Vonville, Canine rabies vaccination and domestic dog population characteristics in the developing world: A systematic review, Vaccine, vol.30, pp.3492-3502, 2012.

C. P. Mulipukwa, B. Mudenda, and A. R. Mbewe, Insights and efforts to control rabies in Zambia: Evaluation of determinants and barriers to dog vaccination in Nyimba district, PLoS Negl Trop Dis, vol.11, 2017.

S. Cleaveland, M. Kaare, D. Knobel, and M. K. Laurenson, Canine vaccination-Providing broader benefits for disease control, Vet Microbiol, vol.117, pp.43-50, 2006.

B. Dodet, M. C. Tejiokem, A. Aguemon, and H. Bourhy, Human rabies deaths in Africa: breaking the cycle of indifference, Int Health, vol.7, pp.4-6, 2015.
URL : https://hal.archives-ouvertes.fr/pasteur-01476336

B. Abela-ridder, L. Knopf, S. Martin, L. Taylor, G. Torres et al., 2016: the beginning of the end of rabies?, Lancet Glob Health, vol.4, pp.780-781, 2016.

L. H. Nel, Discrepancies in Data Reporting for Rabies, Africa. Emerg Infect Dis, vol.19, pp.529-533, 2013.

R. M. Anderson and R. M. May, Infectious Diseases of Humans: Dynamics and Control, 1992.

M. J. Keeling and P. Rohani, Modeling Infectious Diseases in Humans and Animals, 2011.

K. Hampson, J. Dushoff, S. Cleaveland, D. T. Haydon, M. Kaare et al., Transmission Dynamics and Prospects for the Elimination of Canine Rabies, PLoS Biol, vol.7, 2009.

H. Bourhy, E. Nakouné, M. Hall, P. Nouvellet, A. Lepelletier et al., Revealing the Micro-scale Signature of Endemic Zoonotic Disease Transmission in an African Urban Setting, PLOS Pathog, vol.12, p.1005525, 2016.
URL : https://hal.archives-ouvertes.fr/pasteur-01429570

J. Zinsstag, M. Lechenne, M. Laager, R. Mindekem, S. Naïssengar et al., Vaccination of dogs in an African city interrupts rabies transmission and reduces human exposure, Sci Transl Med, vol.9, 2017.

J. Lee, J. Lee, J. Kim, C. Bae, W. Lee et al., Review of canine rabies prevalence under two different vaccination programmes in Korea, Vet Rec, vol.148, pp.511-512, 2001.

P. G. Coleman and C. Dye, Immunization coverage required to prevent outbreaks of dog rabies, Vaccine, vol.14, pp.197-206, 1996.

P. M. Kitala, J. J. Mcdermott, P. G. Coleman, and C. Dye, Comparison of vaccination strategies for the control of dog rabies in Machakos District, Kenya. Epidemiol Infect, vol.129, 2002.

A. M. Bilinski, M. C. Fitzpatrick, C. E. Rupprecht, A. D. Paltiel, and A. P. Galvani, Optimal frequency of rabies vaccination campaigns in Sub-Saharan Africa, Proc R Soc B Biol Sci, vol.283, 2016.

S. E. Townsend, I. P. Sumantra, . Pudjiatmoko, G. N. Bagus, E. Brum et al., Designing Programs for Eliminating Canine Rabies from Islands: Bali, Indonesia as a Case Study. Rupprecht CE, editor, PLoS Negl Trop Dis, vol.7, 2013.

K. Hampson, J. Dushoff, J. Bingham, G. Bruckner, Y. H. Ali et al., Synchronous cycles of domestic dog rabies in sub-Saharan Africa and the impact of control efforts, Proc Natl Acad Sci, vol.104, pp.7717-7722, 2007.

C. Talbi, E. C. Holmes, P. De-benedictis, F. O. Nakoune, E. Gamatie et al., Evolutionary history and dynamics of dog rabies virus in western and central Africa, J Gen Virol, vol.90, pp.783-791, 2009.

H. Bourhy, J. Reynes, E. J. Dunham, L. Dacheux, F. Larrous et al., The origin and phylogeography of dog rabies virus, J Gen Virol, vol.89, p.18931062, 2008.
URL : https://hal.archives-ouvertes.fr/pasteur-01835621

P. Lemey, A. Rambaut, J. J. Welch, and M. A. Suchard, Phylogeography Takes a Relaxed Random Walk in Continuous Space and Time, Mol Biol Evol, vol.27, pp.1877-1885, 2010.

E. A. Ferguson, K. Hampson, S. Cleaveland, R. Consunji, R. Deray et al., Heterogeneity in the spread and control of infectious disease: consequences for the elimination of canine rabies, Sci Rep, vol.5, p.18232, 2015.

R. Woodroffe and C. A. Donnelly, Risk of contact between endangered African wild dogs Lycaon pictus and domestic dogs: opportunities for pathogen transmission: Contact between domestic and wild dogs, J Appl Ecol, vol.48, pp.1345-1354, 2011.

V. F. Nettles, J. H. Shaddock, R. K. Sikes, and C. R. Reyes, Rabies in translocated raccoons, Am J Public Health, vol.69, pp.601-602, 1979.

D. L. Smith, B. Lucey, L. A. Waller, J. E. Childs, and L. A. Real, Predicting the spatial dynamics of rabies epidemics on heterogeneous landscapes, Proc Natl Acad Sci, vol.99, pp.3668-3672, 2002.

M. L. Wilson, P. M. Bretsky, G. H. Cooper, S. H. Egbertson, H. J. Van-kruiningen et al., Emergence of raccoon rabies in Connecticut, 1991-1994: spatial and temporal characteristics of animal infection and human contact, Am J Trop Med Hyg, vol.57, pp.457-463, 1997.

P. Bajardi, A. Barrat, L. Savini, and V. Colizza, Optimizing surveillance for livestock disease spreading through animal movements, J R Soc Interface, vol.9, pp.2814-2825, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00766126

C. Talbi, P. Lemey, M. A. Suchard, E. Abdelatif, M. Elharrak et al., Phylodynamics and Human-Mediated Dispersal of a Zoonotic Virus, PLoS Pathog, vol.6, p.1001166, 2010.
URL : https://hal.archives-ouvertes.fr/pasteur-01491944

A. S. Gsell, D. L. Knobel, R. R. Kazwala, P. Vounatsou, and J. Zinsstag, Domestic dog demographic structure and dynamics relevant to rabies control planning in urban areas in Africa: the case of Iringa, BMC Vet Res, vol.8, p.236, 2012.

K. Kulonen, M. Smreczak, B. Kissi, N. Tordo, E. C. Holmes et al., Ecology and evolution of rabies virus in Europe, J Gen Virol, vol.80, pp.2545-2557, 1999.

. Tenzin, B. Sharma, N. K. Dhand, N. Timsina, and M. P. Ward, Reemergence of Rabies in Chhukha District, Bhutan, Emerg Infect Dis, vol.16, pp.1925-1930, 2008.

S. Dellicour, R. Rose, N. R. Faria, L. Vieira, H. Bourhy et al., Using Viral Gene Sequences to Compare and Explain the Heterogeneous Spatial Dynamics of Virus Epidemics, Mol Biol Evol, p.28, 2017.

T. Hemachudha, J. Laothamatas, and C. E. Rupprecht, Human rabies: a disease of complex neuropathogenetic mechanisms and diagnostic challenges, Lancet Neurol, vol.1, pp.41-49, 2002.

C. E. Rupprecht, C. A. Hanlon, and T. Hemachudha, Rabies re-examined, Lancet Infect Dis, vol.2, pp.287-293, 2002.

D. J. Dean, W. M. Evans, and R. C. Mcclure, Pathogenesis of rabies. Bull World Health Organ, vol.29, pp.803-811, 1963.

T. Hemachudha, Human rabies: clinical aspects, pathogenesis, and potential therapy, Curr Top Microbiol Immunol, vol.187, pp.121-143, 1994.

H. L. Beyer, K. Hampson, T. Lembo, S. Cleaveland, M. Kaare et al., The implications of metapopulation dynamics on the design of vaccination campaigns, Vaccine, vol.30, pp.1014-1022, 2012.

H. L. Beyer, K. Hampson, T. Lembo, S. Cleaveland, M. Kaare et al., Metapopulation dynamics of rabies and the efficacy of vaccination, Proc R Soc B Biol Sci, vol.278, pp.2182-2190, 2011.

S. Dürr and M. P. Ward, Development of a Novel Rabies Simulation Model for Application in a Non-endemic Environment, PLoS Negl Trop Dis, vol.9, 2015.

V. Tricou, J. Bouscaillou, K. Mebourou, E. Koyanongo, F. D. Nakouné et al., Surveillance of Canine Rabies in the Central African Republic: Impact on Human Health and Molecular Epidemiology, PLoS Negl Trop Dis, vol.10, p.4433, 2016.

E. Nakouné, M. Digol, X. Konamna, B. Selekon, L. Faou et al., New introduction and spread of rabies among dog population in Bangui, Acta Trop, vol.123, pp.107-110, 2012.

A. Cori, P. Nouvellet, T. Garske, H. Bourhy, E. Nakouné et al., A graph-based evidence synthesis approach to detecting outbreak clusters: An application to dog rabies, PLOS Comput Biol, vol.14, 2018.

A. L. Lloyd and R. M. May, Spatial Heterogeneity in Epidemic Models, J Theor Biol, vol.179, pp.1-11, 1996.

B. Grenfell, Meta)population dynamics of infectious diseases, Trends Ecol Evol, vol.12, pp.1174-1183, 1997.

J. Butler and J. Bingham, Demography and dog-human relationships of the dog population in Zimbabwean communal lands, Vet Rec, vol.147, pp.442-446, 2000.

D. L. Knobel, S. Cleaveland, P. G. Coleman, E. M. Fèvre, M. I. Meltzer et al., Re-evaluating the burden of rabies in Africa and Asia, Bull World Health Organ, vol.83, pp.360-368, 2005.

D. L. Knobel, M. K. Laurenson, R. R. Kazwala, L. A. Boden, and S. Cleaveland, A cross-sectional study of factors associated with dog ownership in Tanzania, BMC Vet Res, vol.4, p.18230137, 2008.

C. Linard, M. Gilbert, R. W. Snow, A. M. Noor, and A. J. Tatem, Population Distribution, Settlement Patterns and Accessibility across Africa in 2010, PLoS ONE, vol.7, 2012.

D. Balcan, V. Colizza, B. Goncalves, H. Hu, J. J. Ramasco et al., Multiscale mobility networks and the spatial spreading of infectious diseases, Proc Natl Acad Sci, vol.106, pp.21484-21489, 2009.

E. Sven, S. Neil, and F. , The Gravity Model in Transportation Analysis: Theory and Extensions, 1990.

J. Ortúzar, D. De, and L. G. Willumsen, Modelling Transport, 2001.

Y. Xia, O. N. Bjørnstad, and B. T. Grenfell, Measles Metapopulation Dynamics: A Gravity Model for Epidemiological Coupling and Dynamics, Am Nat, vol.164, pp.267-281, 2004.

J. Zinsstag, S. Durr, M. A. Penny, R. Mindekem, F. Roth et al., Transmission dynamics and economics of rabies control in dogs and humans in an African city, Proc Natl Acad Sci, vol.106, pp.14996-15001, 2009.

T. R. Eng, D. B. Fishbein, H. E. Talamante, D. B. Hall, G. F. Chavez et al., Urban epizootic of rabies in Mexico: epidemiology and impact of animal bite injuries, Bull World Health Organ, vol.71, p.615, 1993.

T. Lembo, K. Hampson, D. T. Haydon, M. Craft, A. Dobson et al., Exploring reservoir dynamics: a case study of rabies in the Serengeti ecosystem, J Appl Ecol, vol.45, p.22427710, 2008.

P. Kitala, J. Mcdermott, M. Kyule, J. Gathuma, B. Perry et al., Dog ecology and demography information to support the planning of rabies control in Machakos District, Kenya. Acta Trop, vol.78, pp.82-83, 2001.

J. New, W. J. Kelch, J. M. Hutchison, M. D. Salman, M. King et al., Birth and death rate estimates of cats and dogs in U.S. households and related factors, J Appl Anim Welf Sci JAAWS, p.20, 2004.

D. Balcan, H. Hu, B. Goncalves, P. Bajardi, C. Poletto et al., Seasonal transmission potential and activity peaks of the new influenza A (H1N1): a Monte Carlo likelihood analysis based on human mobility, BMC Med, vol.7, p.45, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00421835

C. Poletto, C. Pelat, D. Levy-bruhl, Y. Yazdanpanah, P. Boelle et al., Assessment of the Middle East respiratory syndrome coronavirus (MERS-CoV) epidemic in the Middle East and risk of international spread using a novel maximum likelihood analysis approach, Eurosurveillance, vol.19, p.3, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01317410

B. J. Coburn, J. T. Okano, and S. Blower, Using geospatial mapping to design HIV elimination strategies for sub-Saharan Africa, Sci Transl Med, vol.9, p.19, 2017.

C. Torrence and G. P. Compo, A Practical Guide to Wavelet Analysis, Bull Am Meteorol Soc, vol.79, pp.61-78, 1998.

K. Brunker, K. Hampson, D. L. Horton, and R. Biek, Integrating the landscape epidemiology and genetics of RNA viruses: rabies in domestic dogs as a model, Parasitology, vol.139, pp.1899-1913, 2012.

A. Conlan and B. T. Grenfell, Seasonality and the persistence and invasion of measles, Proc R Soc B Biol Sci, vol.274, p.17327206, 2007.

H. J. Wearing, P. Rohani, and M. J. Keeling, Appropriate Models for the Management of Infectious Diseases. Ellner SP, editor, PLoS Med, vol.2, 2005.

A. L. Lloyd, Realistic Distributions of Infectious Periods in Epidemic Models: Changing Patterns of Persistence and Dynamics, Theor Popul Biol, vol.60, pp.59-71, 2001.

Z. Feng, D. Xu, and H. Zhao, Epidemiological Models with Non-Exponentially Distributed Disease Stages and Applications to Disease Control, Bull Math Biol, vol.69, p.17237913, 2007.

M. J. Keeling and B. T. Grenfell, Understanding the persistence of measles: reconciling theory, simulation and observation, Proc R Soc B Biol Sci, vol.269, pp.335-343, 2002.

C. Troupin, L. Dacheux, M. Tanguy, C. Sabeta, H. Blanc et al., Large-Scale Phylogenomic Analysis Reveals the Complex Evolutionary History of Rabies Virus in Multiple Carnivore Hosts, PLOS Pathog, vol.12, p.1006041, 2016.
URL : https://hal.archives-ouvertes.fr/pasteur-01429562

C. R. Fisher, D. G. Streicker, and M. J. Schnell, The spread and evolution of rabies virus: conquering new frontiers, Nat Rev Microbiol, vol.16, pp.241-255, 2018.

C. Windiyaningsih, H. Wilde, F. X. Meslin, T. Suroso, and H. S. Widarso, The rabies epidemic on Flores Island, Indonesia (1998-2003), J Med Assoc Thail Chotmaihet Thangphaet, vol.87, pp.1389-93, 2004.

D. A. Randall, S. D. Williams, I. V. Kuzmin, C. E. Rupprecht, L. A. Tallents et al., Rabies in Endangered Ethiopian Wolves, Emerg Infect Dis, vol.10, pp.2214-2217, 2004.

A. Wesolowski, C. O. Buckee, L. Bengtsson, E. Wetter, X. Lu et al., Commentary: Containing the Ebola Outbreak-the Potential and Challenge of Mobile Network Data, PLoS Curr, 2014.

,

A. J. Garcia, D. K. Pindolia, K. K. Lopiano, and A. J. Tatem, Modeling internal migration flows in sub-Saharan Africa using census microdata, Migr Stud, vol.3, pp.89-110, 2015.

C. A. Hanlon, M. Niezgoda, and C. E. Rupprecht, Rabies in Terrestrial Animals, Rabies, pp.201-258, 2007.

M. Laager, M. Léchenne, K. Naissengar, R. Mindekem, A. Oussiguere et al., A metapopulation model of dog rabies transmission, J Theor Biol, vol.462, pp.408-417, 2019.

M. Laager, C. Mbilo, E. A. Madaye, A. Naminou, M. Lé-chenne et al., The importance of dog population contact network structures in rabies transmission, PLoS Negl Trop Dis, vol.12, p.6680, 2018.

S. Cleaveland and K. Hampson, Rabies elimination research: juxtaposing optimism, pragmatism and realism, Proc R Soc B Biol Sci, vol.284, 2017.

S. Cleaveland, F. Lankester, S. Townsend, T. Lembo, and K. Hampson, Rabies control and elimination: a test case for One Health, Vet Rec, vol.175, pp.188-193, 2014.