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1. Double-click the desired photo in Windows Photo Gallery.
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Existing circuit-switched networks certainly offered the required exibility, as users could dial up the various host computers on which the desired database resided. Through a low-speed modem, which was quite expensive at the time, data could be passed over the analog network, although error performance was less than desirable. But the cost of the connection was signi cant because the calls were billed based on the entire duration of the connection, even though the circuit remained idle much of the time. Dedicated circuits could address the imbalance between cost and usage, because costs are not usage sensitive and dedicated circuits can be shared among multiple users through a concentrator. But dedicated circuits were expensive, especially in long-haul applications, and involved long implementation delays. Further, users tended not to be concentrated in locations where they could make effective use of dedicated circuits on a shared basis. Finally, large numbers of dedicated circuits were required to establish connectivity between clusters of users and the various hosts. Packet switching solved many of those problems in the context of the limitations of the networks existing at the time. Packet-switched networks do a very costeffective job of supporting low-speed, asynchronous, conversational, and bursty communications between computer systems in full-duplex mode. The low-speed, bursty nature of interactive asynchronous terminal-to-host applications enables large numbers of users to engage in simultaneous data sessions across a highly shared network. Rather than establishing connections across physical circuits to transmit data, the various network devices organize user data into packets and interleave them with packets generated by other users in a manner much like TDM muxes interleave bytes, although on a much less rigid basis. As packet-switched network usage can be billed to the user on the basis of the number of packets transmitted during a session, rather than billing for the duration of a call, packet networks are very cost effective for low-volume, interactive data communications. Further, packet-switched networks can perform the process of error detection and correction at each packet switch, or node, thereby considerably improving the integrity of the data from end to end. Understanding the concept and nature of packet switching requires the examination of a number of dimensions and characteristics of such networks. The following is an exploration of the X.25 protocol suite, including the packet layer, access procedure, and frame format. There is considerable detail on switching and transmission, error control, connectionless service, latency, permanent virtual circuits versus switched virtual circuits, and protocol conversion.
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The successive differences of the cubes can be written like this, to show a different pattern. Instead of simply writing 27 - 8 = 19 and 64 - 27 = 37, we leave them as they are and write the calculation in full as (64 - 27) (27 - 8) = 64 - 2 x 27 + 8: cubes 1st diffs 2nd diffs 3rd diffs
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When I use drawing templates, one of my favorite techniques to get to a multi-view drawing quickly is to put one Predefined view on the template along with appropriate views projected from the Predefined view. A Predefined view establishes an orientation and location on the drawing sheet. You can add multiple Predefined views and align them with one another on the drawing sheet so that a drawing is automatically populated by the model, but this is not recommended because if you decide to change the orientation of the drawing, you have to change each Predefined view independently. If you set up a single Predefined view and make the rest of the views with projected views, changing the orientation of the Predefined view causes all of the projected views to update associatively. You cannot directly change the orientation of a projected view. Predefined views and views projected from Predefined views appear blank until they are populated with model geometry. The predefined part of a Predefined view is the orientation and placement of the view. Figure 20.21 shows a template using Predefined and projected views. You can access Predefined views on the Drawings toolbar; although it is not there by default, you can place it on the toolbar through the Tools Customize Commands interface. You can also access Predefined views through Insert Drawing Views Predefined. Projected views are also accessed from the Drawings toolbar. Once a Predefined view has been placed, you can select an orientation for it from the PropertyManager. Figure 20.22 shows the Drawing View PropertyManager. The orientation for a view is set in the top Orientation panel. In addition to orthogonal views, you can also create isometric and other custom views as Predefined views.
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where IBG is the background count of a blank sample, CSTD is the nominal concentration of a standard sample, and ISTD is the uorescent X-ray intensity of the standard sample. At the initial stage of TXRF development for semiconductor application, increasing ISTD by intensifying the primary X-ray was a common effort to improve LLD. At
While some analysts project that IM will soon eclipse e-mail as the primary mode of business communications, most nd those projections unrealistic. IM requires all parties to be online, and it is often intrusive. IM just does not have the depth of support to replace e-mail, but it clearly will have a strong position for many years in a suite of messaging technologies.
1. Becker, R.S., Golovchenko, J.A. and Patel, J.R., Phys. Rev. Lett. 50, 153 (1983). 2. Tsuji, K., Sasaki, A. and Hirokawa, K., Jpn. J. Appl. Phys. 33, 6316 (1994). 3. Urbach, H.P. and de Bokx, P.K., Phys. Rev. B 53, 3752 (1996). 4. Born, M. and Wolf, E., Principles of Optics, Pergamon, Oxford (1991). 5. de Boer, D.K.G., Phys. Rev. B 44, 498 (1991). 6. Tsuji, K. and Hirokawa, K., J. Appl. Phys. 75, 7189 (1994). 7. Tsuji, K., Delalieux, F., Wagatsuma, K. and Sato, S., XRay Spectrom. submitted. 8. de Bokx, P.K. and Urbach, H.P., Rev. Sci. Instrum. 66, 15 (1995). 9. Tsuji, K., Murakami, Y., Wagatsuma, K. and Love, G., XRay Spectrom. 30, 123 (2001). 10. Sasaki, Y. and Hirokawa, K., Appl. Phys. A 50, 397 (1990). 11. Tsuji, K., Sato, S. and Hirokawa, K., J. Appl. Phys. 76, 7860 (1994). 12. Noma, T., Iida, A. and Sakurai, K., Phys. Rev. B 48, 17524 (1993). 13. Noma, T. and Iida, A., J. Synchrotron Rad. 5, 902 (1998). 14. Sasaki, Y.C., Sezuki, Y. and Ishibashi, T., Science 263, 62 (1994). 15. Sasaki, Y.C., Sezuki, Y., Tomioka, Y., Ishibashi, T., Satoh, I. and Hirokawa, K., Phys. Rev. B 50, 15516 (1994). 16. de Bokx, P.K., Kok, Chr., Bailleul, A., Wiener, G. and Urbach, H.P., Spectrochim. Acta B 52, 829 (1997). 17. Wiener, G., Kidd, S.J., Mutsaers, C.A.H., Wolters, R.A.M. and de Bokx, P.K., Appl. Surf. Sci. 125, 129 (1998). 18. Claes, M., de Bokx, P., Willard, N., Veny, P. and Van Grieken, R., Spectrochim. Acta B 52, 1063 (1997). 19. Spolnik, Z.M., Claes, M., Van Grieken, R., de Bokx, P.K. and Urbach, H.P., Spectrochim. Acta B 54, 1525 (1999). 20. Spolnik, Z.M., Claes, M. and Van Grieken, R., Anal. Chim. Acta 401, 293 (1999). 21. Kuczumow, A., Claes, M., Schmeling, M., Van Grieken, R. and de Gendt, S., J. Anal. At. Spectrom. 15, 415 (2000). 22. Claes, M., Van Dyck, K., Deelstra, H. and Van Grieken, R., Spectrochim. Acta B 54, 1517 (1999). 23. Ho y ska, B., Olko, M., Ostachowicz, B., Ostachowicz, J., n Wegrzynek, D., Claes, M., Van Grieken, R., de Bokx, P., Kump, P. and Necemer, M., Fres. J. Anal. Chem. 362, 294 (1998).
Acquiring ontologies and linking them with large amounts of data. For reasons of scalability this process must be automated based on information extraction and natural language processing technology. For reasons of quality this process also requires the human in the loop to build and manipulate ontologies using ontology editors. Storing and maintaining ontologies and their instances. We developed an
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noticeable blueshift with increasing excitation intensity. The PL3 band at 1.37 eV was assigned to transitions between metal ions.66,75 Finally, the PL4 band at 1.32 eV was assigned to a VS Cui transition. When the lm was Sannealed, this band was suppressed; S incorporates into the structure reducing the VS concentration.75
The range 902 928 MHz is in the original ISM band. At these relatively low frequencies, signals are fairly immune to attenuation caused by dense physical matter such as windows, walls, oors, and ceilings. Those familiar with early cordless phones, analog cellular phones, and pagers, all of which run in this range or in ranges in proximity, are familiar with the advantages of operating in the 900-MHz range. The frequency ranges 2.4 2.5 GHz and 5.8 5.9 GHz also largely are in the ISM band, which they share with some cordless and cellular phones and other devices. WLANs running in the lower band of 2.4 2.5 GHz certainly are more susceptible to attenuation than those at 902 928 MHz, but much less so than those in the higher 5.8 5.9 GHz. The spectrum 5.15 5.35 GHz and 5.75 5.85 GHz was made available in the United States by the FCC in January 1997. These bands, which are part of the Unlicensed National Information Infrastructure (U-NII) spectrum, are relatively free of interference and offer the potential for transmission at much higher speeds than those available at the lower frequency ranges [45].
web.config is an application file that allows you to set application-wide settings from one convenient file. This file is created for you when you create an application. If you wanted to change any of the application settings in classic ASP, it was done in the IIS Microsoft Management Console (MMC). The administrator had to stop and start your application for the settings to take place. With ASP.NET, you just need to open the web.config file in any text editor, change the settings, and resave the file. ASP.NET can then detect when there are new configuration settings for your application, and it doesn't need to stop and start the application. Instead, ASP.NET lets current users finish with the application under the old settings, and any new users are directed to the application with the new settings applied. Note The web.config file is an XML file, which makes it quite readable and understandable. Feel free to open it up and change the settings. The web.config file is created when you start an application. After doing so, you are presented with the code shown in Listing 41-1. Listing 41-1: web.config
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