Programming Mobile Objects With Java
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Programming Mobile Objects with Java
A complete guide to using today's hottest new object technology in your programs Programming Mobile Objects with Java Mobile objects let you build incredibly flexible programs that can remake any or all of their features and capabilities on the fly, according to changing end-user demands. Now, in this practical guide to programming mobile objects with Java, expert Jeff Nelson brings you up to speed on mobile object concepts and terminology. Working examples show you how to: * Build mobile objects with Java using CORBA, RMI, VisiBroker, and Voyager * Integrate mobile objects with DCOM * Create mobile components * Build mobile groupware * Upgrade software dynamically * Use state-of-the-art mobile object security techniques * Implement fault-tolerant, load-balancing distributed systems In addition, the author provides 13 Java Design Patterns to help with your migration to mobile object technology. The CD-ROM supplies you with: * Complete Java code for the 13 mobile object design patterns found in this book * Voyager, versions 1.0.1 and 2.0.0, from ObjectSpace, Inc. * Trial Editions of Inprise's VisiBroker for Java, version 3.2 and JBuilder 2 * iBus Java Software Bus, version 0.5 from SoftWired AG, Zurich * Together/J Whiteboard Edition, version 2.0 from Object International (www.togetherj.com) * mpEDIT, version 1.13 * Java Development Kit, version 1.1.7 and JavaBeans Development Kit, version 1.0 from Sun Microsystems, Inc.
Mobile Object Systems Towards the Programmable Internet
Author: Jan Vitek
language: en
Publisher: Springer Science & Business Media
Release Date: 1997-04-02
If the Internet is seen as a single, vast, programmable machine, what is the proper programming paradigm to facilitate development of the new applications it must offer? This state-of-the-art survey deals with this question. The situation we face is similar to that in the 1960s, when a new hardware/software architecture was introduced and it took some time for the programming-language and operating-system specialists to come up with the proper programming paradigms. Now we have the new and exciting paradigm of mobile computing, where computations are not bound to single locations but may move around at will to best use the available computer network resources. This paradigm will have a profound impact on the way distributed applications, in particular Internet applications, are designed and implemented.
Approximation Theory
Author: Ole Christensen
language: en
Publisher: Springer Science & Business Media
Release Date: 2004-03-18
This concisely written book gives an elementary introduction to a classical area of mathematics—approximation theory—in a way that naturally leads to the modern field of wavelets. The exposition, driven by ideas rather than technical details and proofs, demonstrates the dynamic nature of mathematics and the influence of classical disciplines on many areas of modern mathematics and applications. Key features and topics: * Description of wavelets in words rather than mathematical symbols * Elementary introduction to approximation using polynomials (Weierstrass’ and Taylor’s theorems) * Introduction to infinite series, with emphasis on approximation-theoretic aspects * Introduction to Fourier analysis * Numerous classical, illustrative examples and constructions * Discussion of the role of wavelets in digital signal processing and data compression, such as the FBI’s use of wavelets to store fingerprints * Minimal prerequisites: elementary calculus * Exercises that may be used in undergraduate and graduate courses on infinite series and Fourier series Approximation Theory: From Taylor Polynomials to Wavelets will be an excellent textbook or self-study reference for students and instructors in pure and applied mathematics, mathematical physics, and engineering. Readers will find motivation and background material pointing toward advanced literature and research topics in pure and applied harmonic analysis and related areas.