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From Memex to Google in 120 minutes

From Memex to Google in 120 minutes. Rivka Taub Amit Levin. “As We May think” By Vannevar Bush A Paper that talks about the Future. Vannevar- Bush: Biography. Vannevar-Bush (1890-1974). Vannevar- Bush: Biography. Vannevar-Bush (1890-1974). * Was Born in Massachusetts

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From Memex to Google in 120 minutes

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  1. From Memex to Google in 120 minutes Rivka Taub Amit Levin

  2. “As We May think” By Vannevar Bush A Paper that talks about the Future

  3. Vannevar- Bush: Biography Vannevar-Bush (1890-1974)

  4. Vannevar- Bush: Biography Vannevar-Bush (1890-1974) * Was Born in Massachusetts * Studied engineering in Tuft college * Earned his bachelor and master degree in 1913 * Earned his doctorate of engineering at 1917

  5. Vannevar- Bush: Biography Vannevar-Bush (1890-1974) * In 1919, Bush joined MIT’s electrical engineering department, and had stayed there for 25 years. * Completed the differential analyzer in 1931 * During the 1930s, worked on technology for document retrieval and information organization (used microfilm) * In 1938, designed and built the microfilm rapid selector, rumored to have been used for cryptanalysis during WWII

  6. Vannevar- Bush: Biography Vannevar-Bush (1890-1974) * Was the planner and chairman of a committee that brought together government, military, business and scientists (NDRC) * Supervised the Manhattan project which developed the first atomic bomb * In reply to President Roosevelt’s request for post-war direction, published the articles “As We May Think” (1945) and ”Science the Endless Frontier” (1945) * Served as the chairman of the MIT Corporation * Continued pushing for analog computers, as digital computers rose to prominence

  7. Bush’s Vision: By Science For Science Bush’s Vision Organizing the information: by science, for science

  8. By Science • For Science • Tech • Predictions The Record-Technological Predictions Dry Photography Storage Acquisition Head-mounted camera Improved microfilm Dictation Technology

  9. By Science • For Science • Tech • Predictions Technological Predictions-The Record Machines will manipulate and analyze data Retrieval Calculation And Automation Microfilm rapid selector Calculuation of “advanced math” and logical thought

  10. By Science • For Science • Tech • predictions • Microfilm • Rapid • Selector Microfilm Rapid Selector * Microfilm storage was popular during the 1920s and 1930s * The problem: Selecting documents * Option: Punched-cards. BUT they are too slow, and retrieve only the address of the document, not the document itself * Goal: A system that will combine documents and index

  11. By Science • For Science • Tech • predictions • Microfilm • Rapid • Selector Microfilm Rapid Selector

  12. By Science • For science • Tech • predictions • Microfilm • Rapid • Selector • The Memex The Memex “A memex is a device in which an individual stores all his books, records, and communications, and which is mechanized so that it may be consulted with exceeding speed and flexibility. It is an enlarged supplement to his memory” (As We May Think,1945)

  13. By Science • For science • Tech • predictions • Microfilm • Rapid • Selector • The Memex The Memex

  14. By Science • For science • Tech • predictions • Microfilm • Rapid • Selector • The Memex The Memex - Features * Storage on microfilm * Workstation for stored documents and for projection * An option of adding new images * An option of adding personal comments to a document * Retrieval by document and code

  15. By Science • For science • Tech • predictions • Microfilm • Rapid • Selector • The Memex So, What’s new? Associative annotation and selection: “trails” . Imitation of the human brain

  16. From Memex to Hypertext From Memex to Hypertext “The 1987 Hypertext conference: The influence of Bush’s essay “As We May Think” on the emerging field of hypertext was widely acknowledged” (“From Memex to Hypertext”,Nyce & Kahn, 1991) “To a large part we have MEMEXes on our desks today…a web browser with an editor gives quite a good substitute for a MEMEX.” (Berners-Lee, talk at Bush symposium MIT, 1995)

  17. From • Memex to • Hypertext • Previous • Ideas BUT… * Emanuel Goldberg’s statistical machine- a microfilm selector. A US patent was issued in 1931. * Paul Otlet, 1934: “The Trait de Documentation”. Described a workstation for scholars, enables to read, write, and select documents. Scholars can connect documents. Coined the term ‘link’.

  18. The Memex • Critic The Memex - Critic * Trails are artificial. Not an objective measure * Every user has his own Memex, no networking * Bush predicted the affect of the record in laboratory research, law, and business accounting and not on the “ordinary person”

  19. Internet and • WWW The Birth of the Internet and the WWW * 1969: The Advanced Research Projects Agency (ARPA)prepared a plan for the United States to maintain control over its missiles and bombers after a nuclear attack. Through this work the Internet was born. * Almost 20 years after the birth of the Internet, the World Wide Web was born to allow the public exchange of information on a global basis. It was built on the backbone of the Internet

  20. Internet and • WWW • Search • Engines A Brief History of Search Engines WWWW(1993):Indexed titles and URLs. Listed results in the order it found them Excite (1993):Used statistical analysis of word relationships to make searching more efficient. Yahoo (1994) :A collection of favorite websites, that became a searchable directory. It provided a description with each URL

  21. Internet and • WWW • Search • Engines A Brief History of Search Engines WebCrawler (1994): Indexed entire web pages. Was bought in 1997 by Excite Lycos (1994): Provided ranked relevance retrieval and prefix matching Alta Vista (1995): Had nearly unlimited bandwidth (for that time), allowed natural language queries, advanced searching techniques, and allowed users to add or delete their own URL within 24 hours.

  22. “The Anatomy of a Large- Scale Hypertextual Web Search Engine” By S. Brin and L. Page

  23. Internet and • WWW • Search • Engines • Google Google * Google was born in Stanford university * Was launched in 1998 * Main goal: High Quality Search Quality = Relevance

  24. Internet and • WWW • Search • Engines • Google • Obstacles Obstacles Web: * Scalability of the web and a growing number of queries * There is no control on what comes in the web- heterogeneous collection Search Engines: * Textual search provides many ‘junk results’ (A search engine that does not return itself to the top of 10 results) * Commercial SE, loss of relevance * Spam

  25. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search How Google Achieves Quality search It Makes use of the hypertextual information. In particular it utilizes: 1. The link structure of the web to calculate a quality ranking for each web page (PageRank) 2. Anchor text . Associated to the page in points to: Improves search results and causes for results that are not text-based 3. Other features such as proximity and visual presentation details (e.g. font size)

  26. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture Google’s Architecture Major functions: 1. Crawling 2. Indexing 3. Ranking 4. Searching

  27. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture

  28. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture Google’s Architecture URL Server - sends lists of URLs to crawlers Crawler - downloads web pages Store Server - compresses & stores web pages into the repository Indexer - reads the repository & uncompresses the documents - parses the documents - creates forward index - parses out the link

  29. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture Google’s Architecture URL Revolver - converts relative URLs from the anchors file, to absolute URLs and then to docIDs - generates a database of links - puts the anchor text into the f. index Sorter - generates the inverted index Searcher - answers queries

  30. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture Crawling The Web Crawling The Web

  31. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture Searching the Web 1. Parse the query. 2. Convert words into wordIDs. 3. Seek to the start of the doclist in the short barrel for every word. 4. Scan through the doclists until there is a document that matches all the search terms.

  32. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture Searching the Web 5. Compute the rank of that document for the query. 6. If we are in the short barrels and at the end of any doclist, seek to the start of the doclist in the full barrel for every word and go to step 4. 7. If we are not at the end of any doclist go to step 4. 8. Sort the documents that have matched by rank and return the top k.

  33. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture The Ranker * Uses hit lists, anchor text hits and PageRank * Types of hits: title, anchor, URL, plain text small font…

  34. Internet and • WWW • Search • Engines • Google • Obstacles • Quality search • Architecture The Ranker Vectors: * Type- weight vector, sorted by types for one word query * type-prox weight vector, for multiple words query * Count-weight vector * IR Score is a the dot product of the count weight and the types-weight vectors

  35. What we saw so far: Bush : Memex, Hypertext, Goldberg, Otlet Google: Goal, Obstacles, How to achieve quality, architecture

  36. TO BE CONTINUED...

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