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Ubiquitous network

Rednction in the size and bnlk of the personal protective equipment, computer and electronics systems used in the war zones. These advanced systems, together with sensors and wireless communication components, would form a ubiquitous network on the battlefield ... [Pg.281]

The next section looks at the technology development of LTCCs that must be carried out in order to meet the needs of future ubiquitous network applications. [Pg.204]

What hcis not yet been discussed is the reason for this behavioral universality. A possible mechanism may be provided by the apparently ubiquitous phenomenon of attractive rule simulation in blocking transformation networks, a description of which we turn to next. [Pg.66]

The ubiquitous hydrosilation reaction, popular especially in silicone manufacturing,132 has been utilized by Houser and Keller for the synthesis of the networked polymers (104) (Fig. 64) from the reaction of the l,7-bis(vinyltetramethyldisiloxyl)-w-carborane monomer with the polymeric crosslinker, poly(methylhydrosiloxane).133 The reactions were catalyzed by the Speier s catalyst, H2PtCl6. Three samples were... [Pg.64]

The sigmoidal function generates a different output signal for each input signal, so the neuron can pass on information about the size of the input in a fashion that is not possible with a step function, which can transmit only an on/off signal. A network composed of neurons with sigmoidal functions can learn complicated behavior. Most importantly, it can learn to model nonlinear functions, and because nonlinear behavior is ubiquitous in science, this ability is crucial in producing a scientific tool of wide applicability. [Pg.369]

In the past decade, a large number of studies emphasized the heterogeneous scale-free degree distribution of metabolic networks Most substrates participate in only a few reactions, whereas a small number of metabolites ( hubs ) participate in a very large number of reactions [19,45,52]. Not surprisingly, the list of highly connected metabolites is headed by the ubiquitous cofactors, such as adenosine triphosphate (ATP), adenosine diphosphate (ADP), and nicotinamide adenine dinucleotide (NAD) in its various forms, as well as by intermediates of glycolysis and the tricarboxylic acid (TCA) cycle. [Pg.153]

The stability of the molecular conformation of organic solids Is determined by the nature and distribution within the molecular network of both covalent crosslinks and the various non-covalent Interactions. The latter Include localized (e.g. hydrogen bonds) and non-locallzed electrostatic Interactions and the short-range non-polar Interactions between molecular units due to the ubiquitous and weak van der Waals Induction and dispersion forces (7 ). [Pg.112]

Malta and co-workers [41] conclude that stability of the molecules investigated is explained partially in terms of the energy that is necessary to disrupt the encasing network of these H-H bond paths. These interactions must be ubiquitous, and their stabilization energies contribute to the sublimation energies of hydrocarbon molecular crystals. [Pg.144]

As a new subject we have considered the effect of the frequency-dependence of the elastic moduli on dynamic light scattering. The resultant nonexponential decay of the time-correlation function seems to be observable ubiquitously if gels are sufficiently compliant. Furthermore, even if the frequency-dependent parts of the moduli are very small, the effect can be important near the spinodal point. The origin of the complex decay is ascribed to the dynamic coupling between the diffusion and the network stress relaxation [76], Further scattering experiments based on the general formula (6.34) should be very informative. [Pg.118]

The theory of polymer gel phase transition provides a novel paradigm of remarkable predictive power to explain both condensation and decondensation in secretion. It assigns specific functional roles to the polyanionic-network/ cation pairs ubiquitously found in secretory granules, and provides a working framework to formulate new, testable questions to investigate further the mechanisms of storage and release in secretion. [Pg.154]

The body maintains an antioxidant network consisting of vitamins A, C, and E, antioxidant enzymes, and a group of related compounds called coenzyme Q, for which the general formula is shown. The n represents the number of times that a particular group is repeated it can be 6, 8, or 10. The coenzyme Q molecules are also called ubiquinones, because they are so ubiquitous in the body. Antioxidants are molecules that are easily oxidized and so react readily with radicals before the radicals can react with other compounds in the body. A variety of intricate mechanisms... [Pg.220]

Gel structures are ubiquitous in foods and responsible for many of their physical properties. The space-filling network of polymers or aggregates provides solidlike properties in the presence of an enormous amormt of water. They are a form of solid water at ambient temperature and in fact they are used to immobilize free water in dietetic products. Gels have been extensively used as model systems to study strue-ture-property relationships due to their simple biphasic nature and the faet that the kinetics of structural changes can be continuously followed by oseiUatory rheometry. [Pg.241]

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See also in sourсe #XX -- [ Pg.203 , Pg.204 ]



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Ubiquitous

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