Berners-Lee, T., R. Cailliau, J.-F. Groff, B. Pollermann (1992) "World Wide Web: An Information Infrastructure for High Energy Physics", in Proceedings of the Workshop on Software Engineering, Artificial Intelligence and Expert Systems for High Energy and Nuclear Physics.  Home/Search   Document Not in Database   Summary   Related Articles   Check

.... from the DESMET project [Kitchenham, 1996] We are carrying out a quantitative evaluation [Kitchenham, 1996] in order to identify if applications developed using Microcosm are more easily maintainable and their information more easily reusable than the ones developed in a standard World Wide Web [Berners Lee, 1992] environment. Quantitative evaluations are based on identifying the benefits you expect a new method or tool to deliver in measurable terms and collecting data to determine whether the expected benefits are actually delivered [Kitchenham, 1996] 3 We are also carrying out a qualitative ....

Berners-Lee, T., R. Cailliau, J.-F. Groff, B. Pollermann (1992) "World Wide Web: An Information Infrastructure for High Energy Physics", in Proceedings of the Workshop on Software Engineering, Artificial Intelligence and Expert Systems for High Energy and Nuclear Physics.

....shall provide a short evaluation of the Web from the point of view of information providers. It was the intention of the designers of the World Wide Web (or WWW or W3) to provide access to the information resources of the Internet through easy to use software which operated in a consistent manner [BlEtAl92]. As the basis for information retrieval, the designers settled on the hypertext paradigm a paradigm which supported the use of simple point and click interfaces. What is the Web The World Wide Web is an Internet wide distributed hypertext system which operates on a client server basis. In ....

Tim Berners-Lee, Robert Cailliau, J.F. Groff & B. Pollermann. "World-Wide Web: An Information Infrastructure for High-Energy Physics", In Software Engineering, Artificial Intelligence and Expert Systems for High Energy and Nuclear Physics, January, 1992

....the user traverses the Gopher information space by selecting interesting directories, such as Libraries and Library of Congress Records , or executing full text searches on indices like Search Library of Congress Records from 12 91 to Present . The World Wide Web The World Wide Web, or WWW [3, 2] merges the techniques of information discovery and hypertext. WWW organizes data into a distributed hypertext, where nodes are either full text objects, directory objects called cover pages, or indices. WWW also supports full text searches over documents stored at a particular WWW server. The WWW ....

T. Berners-Lee, R. Cailliau, J-F. Groff, and B. Pollermann. World-Wide Web: An information infrastructure for high-energy physics. Proceedings of the Workshop on Software Engineering, Artificial Intelligence and Expert Systems for High Energy and Nuclear Physics, January 1992.

....1 This has been chosen as large enough for an initial implementation, other sizes are possible 4.1.1 The Location Server The location server provides the mechanism for mapping arbitrary addresses within the WADS domain into data locations. For example, if we are using a World Wide Web[4] client we have a human representation (a hyperlink) of the existence of an object. This link (a Uniform Resource Identifier) resolves to an address within the WADS which in turn resolves to a list of physical locations. Addresses within the WADS are simple 256 bit addresses. These are resolved ....

....to search distributed information databases. These provide a mapping between human understandable descriptions and location information. The protocols themselves provide no support for retrieval, this is only provided within the framework of the provided user interfaces and is specific to them. WWW[4] attempts to solve the discovery problem by use of hypertext techniques. Partial retrieval and presentation is provided but only within the framework of the user interfaces in their role as information display systems. Prospero[12] provides a general discovery mechanism based on user defined and ....

T. Berners-Lee, R. Cailliau, J.-F. Groff, N. Pellow, and B. Pollermann, "WorldWideWeb: An Information Infrastructure for High Energy Physics," in 2nd International Workshop for Software Engineering, Artificial Inteligence and Expert Systems for High Energy Physics, (L'Agelonde, France), January 1992.

....Synchrony [21, 20] for next class: Text Chapter 9 (Name Services) 4 Naming Resource Discovery Class 8 (Feb. 6) Faber: Classic naming [23, 24, 25] Class 9 (Feb. 11) Faber: Naming extensions [26, 27, 28] Homework 1 due, homework 2 given out. Class 10 (Feb. 13) Faber: Internet naming [29, 30]. 5 Security Class 11 (Feb. 18) Heidemann: Security overview [31, 32, 33] Text Chapter 16 (Security) Homework 1 returned. Class 12 (Feb. 20) Heidemann: Key distribution, confinement, logic [34, 35, 36] 6 File Systems Class 13 (Feb. 25) Faber: RAID and HSM [37, 39] Text Chapter 7 (File ....

T. Berners-Lee, R. Cailliau, J-F. Groff, and B. Pollermann. World-Wide Web: An information infrastructure for high-energy physics. In D. PerretGallix, editor, Proceedings of the Workshop on Software Engineering, Artificial Intelligence and Expert Systems for High Energy and Nuclear Physics. World Scientific, Singapore, January 1992.

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