51 |
Radiation budget over the Tibetian PlateauSun, Zhian January 1992 (has links)
No description available.
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Modelling the interaction of clouds and radiation using bulk microphysical schemesPetch, Jonathan January 1995 (has links)
No description available.
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53 |
Tropospheric sounding from the TIROS-N series of satellitesLloyd, P. E. January 1987 (has links)
No description available.
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54 |
Models of molecular line emission from star formation regionsMatthews, N. January 1986 (has links)
No description available.
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55 |
Studies of radiation in cloudy atmosphere£sGray, D. E. January 1986 (has links)
No description available.
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56 |
The ISO LWS high resolution spectral survey towards Sagittarius B2Polehampton, Edward January 2002 (has links)
No description available.
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57 |
Infrared radiative properties of cloudsFrancis, Peter N. January 1991 (has links)
No description available.
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58 |
Uniquitous: Implementation and Evaluation of a Cloud-based Game System in Unity3dLuo, Meng 18 December 2014 (has links)
"Cloud gaming is a new service based on cloud computation technology which allows games to be run on a server and streamed as video to players on a thin client. Commercial cloud gaming systems, such as Onlive, Gaikai and StreamMyGame remain proprietary, limiting access for game developers and researchers. In order to address these shortcomings, we developed an open source Unity3d cloud-based game system called Uniquitous that gives the game developers and researchers control of system and content. Detailed experiments evaluate performance of three main parameters: game genre, game resolution and game image quality. The evaluation results are used in a data model that can predict in-game frame rates for systems that have not been tested. Validation experiments show the accuracy of our model and allow us to use the model to explore cloud-based games in a variety of system conditions."
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Selecting Cloud Platform Services Based On Application RequirementsLarson, Bridger Ronald 01 December 2016 (has links)
As virtualization platforms or cloud computing have become more of a commodity, many more organizations have been utilizing them. Many organizations and technologies have emerged to fulfill those cloud needs. Cloud vendors provide similar services, but the differences can have significant impact on specific applications. Selecting the right provider is difficult and confusing because of the number of options. It can be difficult to determine which application characteristics will impact the choice of implementation. There has not been a concise process to select which cloud vendor and characteristics are best suited for the application requirements and organization requirements. This thesis provides a model that identifies crucial application characteristics, organization requirements and also characteristics of a cloud. The model is used to analyze the interaction of the application with multiple cloud platforms and select the best option based on a suitability score. Case studies utilize this model to test three applications against three cloud implementations to identify the best fit cloud implementation. The model is further validated by a small group of peers through a survey. The studies show that the model is useful in identifying and comparing cloud implementations with regard to application requirements.
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A numerical study of coastal stratus cloud in a two-dimensional meso-scale modelLee, Tae Young 01 November 1983 (has links)
A two-dimensional numerical mesoscale model, which ic1udes
radiative and turbulent transfers, has been constructed to study the
formation, development and dissipation of coastal stratus cloud
under an inversion. In the model, the delta-Eddington and emissivity
approximations are used for the solar and thermal radiative
transfers, respectively. K-theory parameterization is adopted for
the turbulent transfer. Ground surface temperature and moisture are
predicted using the methods of Deardorff (1977, 1978). This model
is applied to a domain which extends 180 km into sea and 240 km
inland horizontally and about 2 km from the earth1s surface vertically.
A bare, flat soil surface is assumed.
As a prelude to the study of the stratus cloud, sea breeze
circulations with and without a temperature inversion have been
investigated. The model without an inversion yields speeds of the
sea breeze front which are close to the values that have been
observed under insolation and other meteorological conditions
similar to those used in the model. The presence of an inversion
causes the depth of sea breeze circulation to be shallower and its
inland penetration during the evening hours to be weaker compared to
the case without inversion; however, the basic structure of the sea
breeze circulation is unaffected by the inversion.
The model has been used to study the growth, development and
dissipation of stratus cloud under an inversion in the west coast
region of the United States. The effects of large scale motions on
these processes have also been examined. Cloud parameters such as
the times of initial formation and of dissipation inland, the maximum
distance of inland penetration, the maximum liquid water path
and the cloud-top height are affected in the presence of such large
scale motions; for example, both the maximum liquid water path and
the cloud-top height are appreciably enhanced - by about a factor of
two - when large scale westerly winds (U[subscript g]=5mfs, V[subscript g]=0) are present
compared to the case when U[subscript g]=V[subscript g]=0. The cloud parameters
predicted by the model are in close correspondence with existing
observations in southern California.
It is found that the sea breeze circulation is not appreciably
affected by the presence of moderate amounts of stratus cloud.
While advection plays a dominant role in the horizontal development
of the stratus cloud inland, radiative processes (cooling
and heating) are observed to govern the vertical growth and dissipation
of the cloud layer. Vertical growth is influenced by the rate
of radiative cooling at cloud-top. Because of the combined effects
of solar and surface heating, the stratus inland is observed to
dissipate more rapidly during the morning hours than the cloud over
the ocean where surface heating is minimal. / Graduation date: 1984
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