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Open-standards rich media mobile platform & rapid deployment service creation tool
This paper builds upon the work carried out by Brunel University in the field of "Fast Prototyping And Semi-automated User Interface And Application Generation for Converged Broadcast and Cellular Terminals" [1]. This work involved the development of a service creation application for interactive services on mobile devices and methodologies and tools to speed up and deskill the deployment process. This paper aims at further enhancing these tools and presents an enhanced open standards reference platform for mobile digital TV and rich media services. By using a Scalar Vector Graphics (SVG)-driven Java MIDP application (as opposed to bitmapped raster graphics-driven MHP), rich media services can be broadcast to mobile devices running various Java-supported platforms with a user interface scalable to any screen size. Moreover, the Rich Media Mobile Browser is integrated into a service creation tool, therefore enabling rapid testing and deployment of rich mobile media services.
The following sections detail the motivation behind the need for a platform which allows for rich media play-out on mobile devices, along with the rich media mobile viewing application and the tools used to create and test rich media with speed and ease
A brief introduction to equi-chordal and equi-isoclinic tight fusion frames
Equi-chordal and equi-isoclinic tight fusion frames (ECTFFs and EITFFs) are
both types of optimal packings of subspaces in Euclidean spaces. In the special
case where these subspaces are one-dimensional, ECTFFs and EITFFs both
correspond to types of optimal packings of lines known as equiangular tight
frames. In this brief note, we review some of the fundamental ideas and results
concerning ECTFFs and EITFFs
Performance statistics of the FORTRAN 4 /H/ library for the IBM system/360
Test procedures and results for accuracy and timing tests of the basic IBM 360/50 FORTRAN 4 /H/ subroutine library are reported. The testing was undertaken to verify performance capability and as a prelude to providing some replacement routines of improved performance
Towards an Understanding of the Role of Cation Packaging on DNA Protection from Oxidative Damage
In sperm chromatin, DNA exists in a highly condensed state reaching a final volume roughly twenty times that of a somatic nucleus. For the vast majority (\u3e90%) of sperm DNA in mammals, somatic-like histones are first replaced by transition proteins which in turn are replaced by arginine-rich protamines. This near crystalline organization of the DNA in mature sperm is thought crucial for both the transport and protection of genetic information since all DNA repair mechanisms are shut down. Recent studies show that increased DNA damage is linked to dysfunctions in replacing histones with protamines resulting in mispackaged DNA. This increased DNA damage correlates not only to infertility but also impacts normal embryonic development. This damage is currently poorly characterized, but is known to involve oxidative base damage by reactive oxygen species (ROS).
Using a variety of biophysical methods, the effect of DNA condensation by polycations on the on free radical access and DNA damage in the packaged state was investigated. In Chapter 2, gel electrophoresis was used to quantify the ability of free radicals to damage both unpackaged and packaged DNA. DNA condensed by polycations shows significantly reduced levels of indirect damage from exposure to free radicals. Combining previous work on packaging density, it is also shown that differences in the packaged state, even by a few Angstroms, can result in significantly different degrees of damage to the DNA. In Chapter 3, we investigate the effects of protamine concentration on the ability to condense and protect DNA. Insufficient protamination is known to be a potential source of protamine dysfunction in mammalian sperm chromatin. Using gel retardation assays and UV-Vis studies, we examined the ability for DNA to condense with protamine at varying nitrogen to phosphate (N:P) charge ratios. Initial results on damage as a function of N:P are also discussed. Future work will more quantitatively determine the interrelationship between DNA packaging densities and the resulting accessibility of DNA to reactive oxygen species (ROS)
Comparison of Two Separation Methods for Biological Particles: Field-Flow Fractionation (FFF) and Sucrose Density Gradients
Sucrose gradient centrifugation and Field-flow fractionation (FFF) are two different particle separation methods that overcome the problems of similar size microorganisms clumping together during standard filtration methods. FFF separates particles based on size and density via the parabolic velocity profile of laminar flow in a ribbon-like channel. The sucrose method separates particles via centrifugation in a density gradient. Both techniques worked well in separating eukaryotic from prokaryotic microbes, with the preferred method depending on the type and relative abundance of organisms to be separated. Minicells were separated from mother cells in transformed Escherichia coli cultures, heterotrophic flagellates (e.g., Diplonema papillatum) from their bacterial prey in cultures, and various eukaryotes from prokaryotes in natural seawater communities. These separated clean fractions were further analyzed for their biochemical composition (using radiolabeling and subsequent biochemical fractionation) revealing significant differences in the bulk biochemical makeup between prokaryotic and eukaryotic microbes. Even within domains, the sucrose gradient method was able to separate prokaryotic and eukaryotic microbes by size. Variables that influence and improve these separation techniques were explored, including the effect of aldehyde fixation
Buoyant Venus station mission feasibility study for 1972 and 1973 launch opportunities. Volume 1 - Mission summary definition and comparison Final report
Mission planning, scheduling, and costs for 1972 and 1973 buoyant Venus station missio
Vulvar contact dermatitis
Contact dermatitis is a common problem in the world of dermatology as well as women’s health, where vulvar irritation is a frequent complaint among women. It occurs following exposure to exogenous irritants (irritant contact dermatitis) or allergens (allergic contact dermatitis), and can present in acute, subacute, or chronic forms. While vulvar pruritus and pain can be seen in a number of different conditions, contact dermatitis is one of the most common causes encountered in clinical practice, and its effects on patient quality of life can be dramatic. With a thorough history and a complete physical exam, this prevalent condition can be diagnosed and addressed. Treatment is aimed at identifying and eliminating the underlying cause, restoring the damaged epithelial barrier, and calming the inflammation. Although numerous options are available for addressing the itch and pain, the only true ”cure” for contact dermatitis is to avoid the responsible exposures
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