142 research outputs found
La Fiebre Chikungunya
ENY-736S, a 4-page fact sheet by Jorge R. Rey, C. Roxanne Connelly, Christopher N. Mores, Chelsea T. Smartt, and Walter J. Tabachnick, is the Spanish language version of ENY-736, "Chikungunya" It describes this mosquito-borne virus, what it is, its symptoms, how its transmitted to humans, where it occurs, risk to Floridians, and how it can be prevented. Includes references. Published by the UF Department of Entomology and Nematology, July 2007.
ENY-736S/IN729: La Fiebre Chikungunya (ufl.edu
Chikungunya
ENY-736, a 3-page illustrated fact sheet by C. Roxanne Connelly, Christopher N. Mores, Chelsea T. Smartt, and Walter J. Tabachnick, describes this mosquito-borne virus, what it is, its symptoms, how its transmitted to humans, where it occurs, risk to Floridians, and how it can be prevented. Includes references. Published by the UF Department of Entomology and Nematology, April 2007.
ENY-736/IN696: Chikungunya (ufl.edu
Chikungunya
ENY-736, a 3-page illustrated fact sheet by C. Roxanne Connelly, Christopher N. Mores, Chelsea T. Smartt, and Walter J. Tabachnick, describes this mosquito-borne virus, what it is, its symptoms, how its transmitted to humans, where it occurs, risk to Floridians, and how it can be prevented. Includes references. Published by the UF Department of Entomology and Nematology, April 2007.
ENY-736/IN696: Chikungunya (ufl.edu
La Fiebre Chikungunya
ENY-736S, a 4-page fact sheet by Jorge R. Rey, C. Roxanne Connelly, Christopher N. Mores, Chelsea T. Smartt, and Walter J. Tabachnick, is the Spanish language version of ENY-736, "Chikungunya" It describes this mosquito-borne virus, what it is, its symptoms, how its transmitted to humans, where it occurs, risk to Floridians, and how it can be prevented. Includes references. Published by the UF Department of Entomology and Nematology, July 2007.
ENY-736S/IN729: La Fiebre Chikungunya (ufl.edu
John Smartt Coley manuscript, MSS.0342
Abstract: Uncorrected manuscript of Coley's translation of Le Roman de Thebes, published in 1986 as part of the Garland Library of Medieval Literature.Scope and Content Note: The collection contains an uncorrected manuscript of Coley's translation of Le Roman de Thebes, published in 1986 as part of the Garland Library of Medieval Literature.Biographical/Historical Note: Author from Alexander City, Alabama; graduate of the University of Alabama, A.B., 1933 and graduate school, 1933-1935
Blood Feeding Insect Series: Yellow Fever
ENY-732, a 3-page illustrated fact sheet by Walter J. Tabachnick, C. Roxanne Connelly, Christopher N. Mores, and Chelsea T. Smartt, describes this feared human disease transmitted through the bite of infected mosquitoes, which even today poses formidable challenges and dangers to humans around the world. Includes history, description of the disease, the virus, and insect transmission, the importance of yellow fever today, and suggested further reading. Published by the UF Department of Entomology and Nematology, November 2006.
ENY-732/IN659: Blood Feeding Insect Series: Yellow Fever (ufl.edu
La Fiebre Amarilla
ENY-732S, a 4-page illustrated fact sheet by Jorge R. Rey, Walter J. Tabachnick, C. Roxanne Connelly, Christopher N. Mores, and Chelsea T. Smartt, is the Spanish language version of ENY-732: Yellow Fever. It describes this feared human disease transmitted through the bite of infected mosquitoes, which even today poses formidable challenges and dangers to humans around the world. Includes history, description of the disease, the virus, and insect transmission, the importance of yellow fever today, and suggested further reading. Published by the UF Department of Entomology and Nematology, April 2007
La Fiebre Amarilla
ENY-732S, a 4-page illustrated fact sheet by Jorge R. Rey, Walter J. Tabachnick, C. Roxanne Connelly, Christopher N. Mores, and Chelsea T. Smartt, is the Spanish language version of ENY-732: Yellow Fever. It describes this feared human disease transmitted through the bite of infected mosquitoes, which even today poses formidable challenges and dangers to humans around the world. Includes history, description of the disease, the virus, and insect transmission, the importance of yellow fever today, and suggested further reading. Published by the UF Department of Entomology and Nematology, April 2007
Blood Feeding Insect Series: Yellow Fever
ENY-732, a 3-page illustrated fact sheet by Walter J. Tabachnick, C. Roxanne Connelly, Christopher N. Mores, and Chelsea T. Smartt, describes this feared human disease transmitted through the bite of infected mosquitoes, which even today poses formidable challenges and dangers to humans around the world. Includes history, description of the disease, the virus, and insect transmission, the importance of yellow fever today, and suggested further reading. Published by the UF Department of Entomology and Nematology, November 2006.
ENY-732/IN659: Blood Feeding Insect Series: Yellow Fever (ufl.edu
High frequency propagation in large and multiply connected electromagnetic environments
Emergent wireless telecommunications and 5G mobile networks will operate at very high frequencies, ranging from microwave (5GHz) to mmWave (28GHz and beyond) regimes. Indoor coverage is challenging at these frequencies, where environments are expected to be highly overmoded. We perform full-wave Transmission Line Matrix simulations of a test electromagnetic environment. For electrically large, multiply connected rooms with simple polygonal irregularities, e.g. blades, we show that different regimes occur in the spatial field pattern as the frequency increases. From 1 GHz to 5 GHz the pattern is speckled. At 8 and 12 GHz we observe the emergence of specular components existing on a noisy background. The statistics of fields in the background are important for small scale fading in non-line-of-sight conditions. We characterize the spatial statistics of the test environment. Because of coupling and partially regular boundary, fluctuations acquire non-generic features, and they result in non-Rayleigh distribution functions at the investigated frequencies. The resurgence of directionality in the high microwave regime has an effect in fading statistics in a similar way of shadowing, from which background field statistics are fitted by fat tail (Bessel K) distribution. However, since the transition from low to high microwave regimes has no defined separation between specular and noisy components, generated by reflection and diffraction, ray tracing algorithms - more appropriate to predict energy of specular components - need to be extended to cope with noisy fields. We envisage these methods to be fundamental in the description of mmWave propagation. The achieved results are useful to create channel models for the outdoor-to-indoor transition and to extend mobile signal coverage to indoor regions
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