INDEX object

Five gene index Objective measurement of tumor grade and chemotherapy prediction in ER-i- tumors RT-PCR quantitative High or low FFPE acceptable Theros MCI (bioTheranostics, San Diego, CA)... [Pg.807]

The optimum performance index (objective function) requires that ... [Pg.492]

The most common used notation for theoretical scheduling is the so-called three-field notation introduced by Graham et al. (1979). The notation foresees three fields called a p y. The first field defines the scheduling environment a equal to F stands for flow shop, / for job shop, P for parallel machines, and O for open shop. A number can be inserted to indicate the number of machines. The second field specifies job characteristics indicating, for example, the preemption, ready times, and additional resources. The third field specifies the performance index (objective). Some examples can be the following l Sjk C,nax denotes a single-machine problem with sequence-dependent setup times and minimization of maximum completion time makespan)-, JmWCmax denotes a job-shop problem with m machines an[Pg.1094]

The basic condition of the Standard application - the availability of stable coupled probabilistic or the multiple probabilistic relations between then controlled quality indexes and magnetic characteristics of steel. All the probabilistic estimates, used in the Standard, are applied at confidence level not less than 0,95. General requirements to the means of control and procedure of its performance are also stipulated. Engineers of standard development endeavoured take into consideration the existed practice of technical control performance and test at the enterprises that is why the preparation of object control for the performance of nondestructive test can be done during the process of ordinary acceptance test. It is suggested that every enterprise is operated in correspondence with direct and non-destructive tests, obtained exactly at it, for detailed process chart and definite product type, however the tests have long since been performed after development of the Standard displayed that process gives way to unification. [Pg.25]

The PE data was obtained by repeating the scanning of the object, now measuring the received echo at Transducer 1. For every position, (x, y), an A-scan was obtained from which we extracted the back wall echo by means of a time gate. This back wall echo is denoted s(x, y). Note that s x, y) is a time signal that can be written s(f, x, y) where t is the time index. One example of such a back wall echo is shown in Figure 2. [Pg.889]

Figure Bl.18.6. Schematic representation of Zemike s phase contrast method. The object is assumed to be a relief grating in a transparent material of constant index of refraction. Phase and amplitude are varied by the Zemike diaphragm, such that an amplitude image is obtained whose contrast is, m principle, adjustable. $Figure Bl.18.6. Schematic representation of Zemike s phase contrast method. The object is assumed to be a relief grating in a transparent material of constant index of refraction. Phase and amplitude are varied by the Zemike diaphragm, such that an amplitude image is obtained whose contrast is, m principle, adjustable.$
The high index of refraction and dispersion properties of its oxide s have made germanium useful as a component of wide-angle camera lenses and microscope objectives. [Pg.94]

The PLM can be used in a reflection or a transmission mode. With either mode, light of various wavelengths from ultraviolet to infrared, polarized or unpolarized, is used to yield a wide variety of physical measurements. With just ordinary white light, a particle or any object detail down to about 0.5 p.m (500 nm) in diameter can be observed to detect shape, size, color, refractive index, melting point, and solubiUty in a group of solvents, all nondestmetively. Somewhat larger particles yield UV, visible, or IR absorption spectra. [Pg.333]

The schlieren microscope is able to detect refractive index variations to six decimal places. Any small difference in optical path (index difference, film thickness, etc) is very precisely detected by the schlieren microscope, especially in the Dodd modification. It is, in effect, a darkfield method. The specimen is illuminated with light in a portion of the illuminating cone and that direct light is masked in the conjugate back focal plane of the objective (Fig. 3). The only light to pass through this plane is refracted, reflected, or diffracted by the specimen. [Pg.334]

Optical Properties. When light falls on an object, it is either partially absorbed, reflected, or transmitted. The behavior of the object as it relates to each of these three possibiUties determines visual appearance. Optical properties of fibers give useful information about the fiber stmcture refractive indexes correlate well with fiber crystalline and molecular orientation and birefringence gives a measure of the degree of anisotropy of the fiber. [Pg.454]

Show how. by suitable selection of the index n, the power law may be used to describe the behaviour of both shear-thinning and shear-thickening non-Newtonian fluids over a limited range of shear rates. What are the main objections to the use of the power law Give some examples of different types of shear-thinning fluids. [Pg.832]

The variation of refractive index with height above the surface gives rise to an apparent shift in the positions of astronomical objects. The angle depends... [Pg.1]

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See also in sourсe #XX -- [ Pg.34 , Pg.112 ]

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Refractive index light object

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