Books
1. F. Brauer, C. Castillo-Chávez, E. D. L. Pava, K. Barley, C. W. Castillo-Garsow, D. Chowell, B. Espinoza, G. P. Parra, C. H. Suarez, and V. M. Moreno, Modelos De La Propagación De Enfermedades Infecciosas, 1st edition, Universidad Autónoma de Occidente, Cali, Colombia, 2013.
Refereed Journal Articles
10. M. Safan, K. Barley, M. M. Elhaddad, M. A. Darwish, and S. H. Saker, Mathematical Analysis of an SIVRWS Model for Pertussis with Waning, and Naturally Boosted Immunity, Symmetry, 14, URL https://www.mdpi.com/2073-8994/14/11/2288
9. K. Barley, J. Vega-Guzmán, A. Ruffing, and S. K. Suslov, Discovery of the Relativistic Schrödinger Equation, Physics-Uspekhi, 65 (2022), 90–103, URL https://doi.org/10.336 7/ufne.2021.06.039000.
8. S. E. Scott, K. J. Cook, and K. Barley, A closer look at the spreaders of COVID-19 in Wisconsin, and the US, Mathematical Biosciences, and Engineering, 18 (2021), 3733–3754, URL http://dx.doi.org/10.3934/mbe.2021188.
7. V. Moreno, B. Espinoza, K. Barley, M. Paredes, D. Bichara, A. Mubayi, and C. Castillo-Chavez, The Role of Mobility, and Health Disparities on the Transmission Dynamics of Tuberculosis, Theoretical Biology, and Medical Modelling, 14 (2017), 3, URL https://doi.org/10.1186/s12976-017-0049-6.
6. C. Castillo-Chavez, K. Barley, D. Bichara, D. Chowell, E. Diaz Herrera, B. Espinoza, V. Moreno, S. Towers, and K. E. Yong, Modeling Ebola at the Mathematical, and Theoretical Biology Institute (MTBI), Notices of the American Mathematical Society, 63 (2016), 366–371, URL http://dx.doi.org/10.1090/noti1364.
5. A. Cherif, K. Barley, and M. Hurtado, Homo-psychologicus: Reactionary Behavioural Aspects of Epidemics, Epidemics, 14 (2016), 45–53, URL http://dx.doi.org/10.1016/j.epidem.2015.09. 003.
4. N. Hussaini, J. Lubuma J. M-S., K. Barley, and A. B. Gumel, Mathematical Analysis of a Model for AVL-HIV Co-endemicity, Mathematical Biosciences, 271 (2016), 80–95, URL http://dx.doi.org/10.1016/j.mbs.2015.10.008.
3. K. Barley, D. Murillo, S. Roudenko, A. M. Tameru, and S. Tatum, A Mathematical Model of HIV, and Malaria Co-Infection in Sub-Saharan Africa, Journal of AIDS & Clinical Research, 3 (2012), 1–7, URL http://dx.doi.org/10.4172/2155-6113.1000173.
2. K. Barley, and A. Cherif, Stochastic Nonlinear Dynamics of Interpersonal, and Romantic Relationships, Applied Mathematics, and Computation, 217 (2011), 6273 – 6281, URL http://dx.doi.org/10.1016/j.amc.2010.12.117.
1. A. Cherif, and K. Barley, Cliophysics: Socio-Political Reliability Theory, Polity Duration, and African Political (In)stabilities, PLoS ONE, 5 (2010), e15169 EP –, URL https://doi.org/10.137 1/journal.pone.0015169.
Book Chapters 1. S. K. Suslov, J. M. Vega-Guzmán, and K. Barley, An introduction to special functions with some applications to quantum mechanics, in Orthogonal Polynomials. AIMSVSW 2018 (eds. M. Foupouagnigni, and W. Koepf), Tutorials, Schools, and Workshops in the Mathematical Sciences, Springer International Publishing, 2020, 517–628, URL https://doi.org/10.1007/97 8-3-030-36744-2_21.
Other Publication
5. M. Buhr, O. Garcia, T. Reyes, H. Sumdani, K. Barley, A. Smith, B. Morin, and A. Mubayi, Dynamics of Glial Cell Defense Mechanisms in Response to Ischemic Hypoxia in the Brain, Technical Report MTBI-11-05M, Mathematical, and Theoretical Biology Institute, Arizona State University, Tempe, Arizona, 2014.
4. K. Blanco, K. Barley, and A. Mubayi, Population Dynamics of Wolves, and Coyotes at Yellowstone National Park: Modeling Interference Competition with an Infectious Disease, Technical Report MTBI-11-07M, Mathematical, and Theoretical Biology Institute, Arizona State University, Tempe, Arizona, 2014.
3. M. Ginithan, D. G. Fonseca, D. Lefevre, S. Srinivasan, B. Urena, K. Barley, J. Vega, K. E. Yong, and J. Flores, Eternal Sunshine of the Solar Panel, Technical Report MTBI-09-08M, Mathematical, and Theoretical Biology Institute, Arizona State University, Tempe, Arizona, 2012.
2. K. Barley, Schwarz’s Lacunal Surfaces: A Special Class of Minimal Surface, Technical report, NSF NY-Louis Stokes Alliance for Minority Participation (LSAMP), Medgar Evers College (The City University of New York), Brooklyn, NY, 2005.
1. K. Barley, A Characterization of Viviani’s Curve, and Associates Surface, Technical report, NSF NY-Louis Stokes Alliance for Minority Participation (LSAMP), Medgar Evers College (The City University of New York), Brooklyn, NY, 2003.