Shape sensing

Nieuwenhuis, J.H., Lee, S.S., Bastemeijer, J., Vellekoop, M.J., Particle-shape sensing-elements for integrated flow cytometer. Micro Total Analysis Systems, Proceedings 5th iTAS Symposium, Monterey, CA, Oct. 21-25. Kluwer Academic Publishers, Dordrecht, the Netherlands, 2001, 357-358. 

A microfabricated spiral shape sensing element used in microtitration... 

Figure 4 Real proximity sensor with cone-shaped sensing field.

Finally, future developments in CAD of prosthetic sockets are also likely to be influenced by alternative shape-sensing methodology and finite-element model development that will enable timely evaluation of residual limb geometry and/or material properties. 

A pair of shape-sensing pants were also developed by Martin et al. [16] for context-awareness in particular the current activity of the user. Before building the hardware prototype, the garments were simulated using recorded motion data and modeling the physical behavior of two types of sensors. 

P(x, t) dx has the familiar bell shape of a normal distribution function [Eq. (1.39)], the width of which is measured by the standard deviation o. In Eq. (9.83), t takes the place of o. It makes sense that the distribution of matter depends in this way on time, with the width increasing with t. 

Olfactory receptors have been a subject of great interest (9). Much that has been postulated was done by analogy to the sense of sight in which there are a limited number of receptor types and, as a consequence, only three primary colors. Thus attempts have been made to recognize primary odors that can combine to produce all of the odors that can be perceived. Evidence for this includes rough correlations of odors with chemical stmctural types and the existence in some individuals having specific anosmias. Cross-adaptation studies, in which exposure to one odorant temporarily reduces the perception of a chemically related one, also fit into this hypothetical framework. Implicit in this theory is the idea that there is a small number of well-defined odor receptors, so that eventually the shape and charge distribution of a specific receptor can be learned and the kinds of molecular stmctures for a specified odor can be deduced. 

SiHcon carbide s relatively low neutron cross section and good resistance to radiation damage make it useful in some of its new forms in nuclear reactors (qv). SiHcon carbide temperature-sensing devices and stmctural shapes fabricated from the new dense types are expected to have increased stabiHty. SiHcon carbide coatings (qv) may be appHed to nuclear fuel elements, especially those of pebble-bed reactors, or siHcon carbide may be incorporated as a matrix in these elements (153,154). 

The powerful influence of mechanical factors on these phenomena produces distinctive physical features on affected metal surfaces, as well as determining the locations where the damage occurs. Hence, metal wastage influenced by mechanical factors can be sensitive to geometric shapes and topographical features (surface contours). It is, in this sense, location specific. 

As is true for macroscopic adhesion and mechanical testing experiments, nanoscale measurements do not a priori sense the intrinsic properties of surfaces or adhesive junctions. Instead, the measurements reflect a combination of interfacial chemistry (surface energy, covalent bonding), mechanics (elastic modulus, Poisson s ratio), and contact geometry (probe shape, radius). Furthermore, the probe/sample interaction may not only consist of elastic deformations, but may also include energy dissipation at the surface and/or in the bulk of the sample (or even within the measurement apparatus). Study of rate-dependent adhesion and mechanical properties is possible with both nanoindentation and... 

Fe, Co or Ni is also crucial in the catalytic decomposition of hydrocarbon. In order to efficiently obtain CNT and to control its shape, it is necessary and indispensable to have enough information on chemical interaction between carbon and these metals. It is quite easy for the catalytic synthesis method to scale up the CNT production (see Chap. 12). In this sense, this method is considered to have the best possibility for mass produetion. It is important to further improve the process of catalytie synthesis and, in order to do so, clarifieation of the mechanism of CNT growth is necessary to control the synthesis. CNT can be synthesized by the chemical reaction at relatively low... 

In some of these models (see Sec. Ill) the surfactants are still treated as flexible chains [24]. This allows one to study the role of the chain length and chain conformations. For example, the chain degrees of freedom are responsible for the internal phase transitions in monolayers and bilayers, in particular the hquid/gel transition. The chain length and chain architecture determine the efficiency of an amphiphile and thus influence the phase behavior. Moreover, they affect the shapes and size distributions of micelles. Chain models are usually fairly universal, in the sense that they can be used to study many different phenomena. 

Colloidal suspensions are systems of small mesoscopic solid particles suspended in an atomic liquid [1,2]. We will use the term colloid a little loosely, in the sense of colloidal particle. The particles may be irregularly or regularly shaped (Fig. 1). Among the regular shapes are tiny spherical balls, but also cylindrical rods or flat platelets. As the particles are solid, fluctuations of their form do not occur as they do in micellar systems. Not all particles in a suspension will, in general, have the same form. This is an intrinsic effect of the mesoscopic physics. Of course in an atomic system, say silicon, all atoms are precisely similar. One is often interested in the con-... 

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