Post on 06-Apr-2018
transcript
Course on Digital Libraries
Vittore Casarosa– casarosa@isti cnr itcasarosa@isti.cnr.it– tel. 050-315 3115
cell 348 397 2168– cell. 348-397 2168 Receiving students on Mondays Final assessment
– 70% final oral examination– 30% project
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Outline of the course
Introduction to Digital Libraries (15%) Description of Information (30%) Access to Information (30%)( ) User Services (10%) Additional topics (15%)p ( )
Building of a (small) digital library
Reference material:– Ian Witten, David Bainbridge, David Nichols, How to build a Digital
Library Morgan Kaufmann 2010 ISBN 978 0 12 374857 7Library, Morgan Kaufmann, 2010, ISBN 978-0-12-374857-7(Second edition)
– The Web
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Where we come from
The role of libraries– selection– acquisition– description– access– preservation
Early technodreams– Vannevar Bush (1890-1974)– JCR (Joseph Carl Robnett) Licklider (1915-1990)
E l ti f t h l Evolution of technology WWW: the World Wide Web
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The role of libraries
Centuries and centuries of history Mediators between information and users Selection
– Definition of collections Acquisition
Physical objects– Physical objects Description
– CatalogsCatalogs Access
– Shelves Preservation
– Controlled enviroment
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Libraries: some figures
Volumes (in millions)Institution 1910 1995 2002Library of Congress 1,8 23 26Harvard Univ. 0,8 12,9 14,9
201133
Yale Univ. 0,55 9,5 10,9U Illinois (Urbana) 0,1 8,5 9,9U California (Berkeley) 0,24 8,1 9,4
British Library 2 15 18Cambridge Univ. 0,5 3,5 7
25
Journals
Oxford Univ. 0,8 4,8 6Bibl. Nat. De France 3 11 12
Journals– From 10.000 in 1950 to 150.000 in 2002
Alexandria principle beginning to fade
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p p g g
Part 1 -5
Where we come from
The role of libraries– selection– acquisition– description– access– preservation
Early technodreams– Vannevar Bush (1890-1974)– JCR (Joseph Carl Robnett) Licklider (1915-1990)
E l ti f t h l Evolution of technology WWW: the World Wide Web
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Vannevar Bush(As we may think - 1945)(As we may think - 1945)
Head of US science during WW2g Use of “knowledge” and team work to advance
ScienceScience The Memex: mechanized private archive and
library (microfilms)library (microfilms) “trails” of information
– associative links No “free text” search
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JCR Licklider(Libraries of the future - 1965)(Libraries of the future 1965)
Head of US Dept. of Defense, Information Processing T h l iTechnologies
The book foresees the research and development needed to build a Digital Libraryto build a Digital Library– Time-sharing just beginning– “Big” memories around 32Kg– Networking “to be invented”
Rather accurate overall view of what a DL could look like i 1995in 1995 – Under-estimation of computing power
Over estimation of progress in– Over-estimation of progress in • Artificial intelligence• Natural language processing
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Where we come from
The role of libraries– selection– acquisition– description– access– preservation
Early technodreams– Vannevar Bush (1890-1974)– JCR (Joseph Carl Robnett) Licklider (1915-1990)
E l ti f t h l Evolution of technology WWW: the World Wide Web
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History of computers
Charles Babbageg1791-1871Professor of Mathematics, Cambridge UniversityCambridge University,1827-1839
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Babbage’s engines
Difference Engine 1823 Difference Engine 1823
Analytic Engine 1833Th f f d di i l– The forerunner of modern digital computer
ApplicationApplication– Mathematical Tables – Astronomy– Nautical Tables – Navy
Technology– mechanical - gears, Jacquard’s loom, simple
calculatorscalculators
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Punched cards
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Harvard Mark I
Built in 1944 in IBM Endicott laboratories– Howard Aiken – Professor of Physics at Harvard– Essentially mechanical but had some electro-magnetically
controlled relays and gearscontrolled relays and gears– Weighed 5 tons and had 750,000 components– A synchronizing clock that beat every 0.015 seconds (66KHz)y g y ( )
Performance:Performance:0.3 seconds for addition6 seconds for multiplication1 minute for a sine calculation1 minute for a sine calculation
Broke down once a week!
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ENIAC - Electronic Numerical Integrator and ComputerIntegrator and Computer
Eckert and Mauchly designed and built ENIAC (1943-45) at the U i i f P l iUniversity of Pennsylvania
The first, completely electronic, operational, general-purpose analytical calculator!y– 30 tons, 72 square meters, 200KW
Performance– Read in 120 cards per minute– Addition took 200 s, Division 6 ms
1000 ti f t th M k I
WW-2 Effort
– 1000 times faster than Mark I Not very reliable!
Application: Ballistic calc lationsApplication: Ballistic calculations
angle = f (location, tail wind, cross wind, air density, temperature, weight of shell,
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air density, temperature, weight of shell,propellant charge, ... )
Part 1 -14
Second World War effort
Colossus Mark 1 and Mark 2 were
d i WW2 (iused in WW2 (in London) to decipher secret German messages
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Dominant Problem: Reliability
Mean time between failures (MTBF)
MIT’s Whirlwind with an MTBF of 20 min. was MIT s Whirlwind with an MTBF of 20 min. was perhaps the most reliable machine !
Re on fo n eli bilitReasons for unreliability:
1. Vacuum Tubes
2. Storage mediumacoustic delay linesacoustic delay linesmercury delay linesWilliams tubesSelections
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EDVAC - Electronic Discrete Variable Automatic ComputerVariable Automatic Computer
ENIAC’s programming system was external– Sequences of instructions were executed independently of the
results of the calculationHuman intervention required to take instructions “out of order”– Human intervention required to take instructions out of order
Eckert, Mauchly, John von Neumann and others designed EDVAC (1944) to solve this problem– Solution was the stored program computer
“program can be manipulated as data”p g p First Draft of a report on EDVAC was published in 1945, but just had
von Neumann’s signature
In 1973 the court of Minneapolis attributed the honor of inventing the computer to John Atanasoff
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Von Neumann architecture
Control Unit
CPUCPUCentral
Processing
RAMRandom Access
Unit Memory
I/OInput and Output Devices
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Evolution of technology
Computer technologyCPU d i d hi– CPU and integrated chips
– Random Access Memories• RAM – from KB to GB
– External memories• Tapes, hard disks, floppy disks• Memory sticksMemory sticks• CDs• DVDs• from MB to GB to TB to PB to EB• from MB to GB to TB to PB to EB
Communication technology (networks)– (Telephone) line speed– Point to point (leased lines)– Local Area Networks– Inter-networking (TCP/IP)
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Inter networking (TCP/IP)
Part 1 -19
Size of digital information
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Evolution of technology
Computer technologyCPU d i d hi– CPU and integrated chips
– Random Access Memories• RAM – from KB to GB
– External memories• Tapes, hard disks, floppy disks• Memory sticksMemory sticks• CDs• DVDs• from MB to GB to TB to PB to EB• from MB to GB to TB to PB to EB
Communication technology (networks)– (Telephone) line speed– Point to point (leased lines)– Local Area Networks– Inter-networking (TCP/IP)
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Inter networking (TCP/IP)
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Early computer communication
From mainframe toFrom mainframe to mainframe through telephone lines (point to point connection)
Telephone lines:slowexpensiveexpensiveregulated
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Networking
In the sixties, first studies on “networking” In the sixties, first studies on networking– Networking means communication between node A
and node B through one or more intermediateand node B through one or more intermediate nodes
In the seventies fragmentation of the market with In the seventies, fragmentation of the market with the arrival of “minicomputers” provided further motivation for research on networkingmotivation for research on networking
At the same time (in the seventies), the arrival of the LANs (Local Area Networks) provided the finalthe LANs (Local Area Networks) provided the final impulse for the development of networking
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LAN - Local Area Networks
Token ringToken ringPrivate networks Token ringToken ringUp to several kilometersSpeed up to 100 Mb/sec
LAN switchLAN switchEthernetEthernetEther Switch
LAN switchEther Switch
Ether Switch
LAN switchEthernetEthernet
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Research on networking
Starting in the late sixties, many research projects on g , y p jnetworking, both from universities and industry– Arpanet, Cyclades, SNA, DECnet
In the late seventies ISO (International Standard Organization), under pressure of a group of computer manufacturer, started the work for the proposal of a “new” communication standard, called OSI: Open System InterconnectionInterconnection
The OSI model, though no longer in use today, has established a number of networking concepts and is stillestablished a number of networking concepts and is still used as a “reference model”
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The OSI Model
Protocol:formats and rules for exchanging messages between “partners” (e.g. computers)p )
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The seven layers
Layer 7: The application layer...This is the layer at which communication partners are identified, quality of service is identified, user authentication and privacy are considered, and any constraints on data syntax are identified. (This layeridentified, user authentication and privacy are considered, and any constraints on data syntax are identified. (This layer is not the application itself, although some applications may perform application layer functions.)
Layer 6: The presentation layer...This is a layer, usually part of an operating system, that converts incoming and outgoing data from one presentation format to another (for example, from a text stream into a popup window with the newly arrived text). Sometimes called the syntax layer.
Layer 5: The session layer...This layer sets up, coordinates, and terminates conversations, exchanges, and dialogs between the applications at each end. It deals with session and connection coordination.
Layer 4: The transport layer...This layer manages the end-to-end control (for example, determining whether all packets have arrived) and error-checking. It ensures complete data transfer.
Layer 3: The network layer...This layer handles the routing of the data (sending it in the right direction to the right destination on outgoing transmissions and receiving incoming transmissions at the packet level). The network layer does routing and forwarding.
Layer 2: The data link layer This layer provides synchronization for the physical level and does bit stuffing for strings Layer 2: The data-link layer...This layer provides synchronization for the physical level and does bit-stuffing for strings of 1's in excess of 5. It furnishes transmission protocol knowledge and management.
Layer 1: The physical layer...This layer conveys the bit stream through the network at the electrical and mechanical level. It provides the hardware means of sending and receiving data on a carrier.level. It provides the hardware means of sending and receiving data on a carrier.
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Layered Protocols
A typical message as it appears on the network.yp g pp
2-2
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OSI – Open System InterconnectionInterconnection
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Mnemonics for OSI layers
Please Physical
Do Data Link
All Application
People Presentation Do Data Link
Not Network
Th T t
People Presentation
Seem Session
T T t Throw Transport
Sausage Session
To Transport
Need Network
Pizza Presentation
Away Application
Data Data Link
Processing Physical
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OSI and Internet
The OSI effort provided a sound and durable foundation for pnetworking, but never became a “market leader”– Slow development
• Initial opposition from IBM• “Designed by a Committee”
E i d l• Expensive development
– Heavy and slow in operationI th i d th I t t d fi i b f In the same period the Internet was defining a number of “light weight” protocols
Most of the market preferred them to OSI Most of the market preferred them to OSI
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Internet evolution
ReserachReserachNetwork
NSFNSF
Internet
CommunicationExperimental
NetworkInfrastructure
Private and DARPA
Arpanet
ate a dpublic sectors
The Web
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Arpanet The Web
Internet timeline
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Inter-networking
Internet is basically a (huge) collection of LANs( g )
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Internet and Intranets
The growth of Internet was also due to thewas also due to the adoption of the Internet protocols by private
InternetInternetcompanies
Firewall
Intranet
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The Internet layers
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OSI and TCP/IP
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Internet packets
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Internet protocols
CSMA/CD, 802.x, ARP, RARP, etc.IP (IP 4 d IP 6) IP (IPv4 and IPv6)
TCP, UDP DNS, TLS/SSL, FTP, Gopher, HTTP, IMAP,
POP3, SMTP, SNMP, SSH, Telnet, Echo
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Internetworking
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Routing in Internet
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Internet routing
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IPv4 addressing
Each node in the Internet is identified by (one or more) IP dd d h IP 4 dd h 32 bi (4 b )address, and each IPv4 address has 32 bits (4 bytes)
An IP address is (was) made of two parts:the network address and the node address within thethe network address and the node address within the network
The boundary between the parts is variable, and isy p ,identified by the “network mask”
The 1s in the mask identify the net portion and the 0s the h t tihost portion
0n31network host
11111111111111110000000000000000
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maskPart 1 -43
IP addresses
An IP address is usually indicated with four numbers(from 0 to 255) corresponding to the 4 bytes of the address
IP address: 131.114.1.30mask: 255.255.255.0
network address 131.114.1host address 30
Three classes of network addresses(255.0.0.0, 255.255.0.0, 255.255.255.0)
No more IPv4 addresses available today– Network Address Translation (NAT) commonly used
IP 6 (128 bit ) l l l i IP 4 IPv6 (128 bits) slowly replacing IPv4FUB 2012-2013 Vittore Casarosa – Digital Libraries Part 1 -44
Evolution of computer market
Military applications in early 40s Military applications in early 40s Scientific/research applications in late 40s Commercial applications appear in early 50s Commercial applications appear in early 50s Monopoly of IBM starts with 650, 701, 702 Monopoly of IBM continues with 7070, 7090, starting the p y , , g
“mainframe era” and the “invention” of the byte with the 360 series (in the early 60s) A i l f th “ i i t ” i th 70 Arrival of the “minicomputers” in the 70s
Arrival of the PC in the 80s Arrival of the Internet Arrival of the Internet Arrival of the Web
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The World Wide Web
Combination of computer technology and communication p gytechnology
It all started with the “hyperlink” Then came the “browser” (Mosaic) Then came the first wave
Th th “d t d t ” Then came the “dot come, dot gone” Then came the second wave Finally came the “information explosion” Finally came the information explosion
– An estimate of 500 to 1000 million hosts– An estimate of 30 to 50 billion pages on lineAn estimate of 30 to 50 billion pages on line
And now comes Web 2.0 (with Web 3.0 just around the corner)
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The editors
Text processing applications started already in the early days of the computers (sixties)
A “text processor” (or editor) has two main functions: i th t t (d l t l i t t )– processing the text (delete, replace, insert, etc.)
– specifying the format (bold, center, new line, etc.) The first editors were using a “mark up” language (i e The first editors were using a mark up language (i.e.
commands intermixed with the text) to provide formatting instructions (only limited interactivity available through ( y y gtypewriter-like terminals)
The “second generation” editors were using the WYSIWYG di Wh t Y S I Wh t Y G t ( h b ttparadigm: What You See Is What You Get (much better
interactivity available with display and mouse)
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The hyperlink
The idea of the “hyperlink” was (experimentally) proposed in the i i f f “ di ”sixties, as a feature of a “smart editor”– selecting a portion of the text, it was possible to open a second
document, in addition to the one being edited (very awkward to , g ( yuse on a typewriter-like terminal)
With the arrival of display screens and the mouse (eighties) the hyperlink came back in “3D documents”hyperlink came back in 3D documents– clicking on a portion of the text it was possible to open a second
document, which was maintained as a second (virtual) screen behind the first one
With the arrival of the (fast) internet, it became the “web hyperlink”clicking on a portion of the text it was possible to open a second– clicking on a portion of the text it was possible to open a second document, coming from a different computer
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The browser
With the arrival of the (web) hyperlink, the problem wasthen how to properly display a (web) page that had beengenerated on a different computer, possibly with a diff t ( i ) ditdifferent (wysiwyg) editor
The solution was the definition of HTML (Hyper Text Markup Language) i e a standard mark up languageMarkup Language), i.e. a standard mark up language, and the implementation of smart editors (the browser) capable of correctly displaying pages formatted withp y p y g p gHTML, regardless of where they were coming from
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The World Wide Web
Combination of computer technology and communication p gytechnology
It all started with the “hyperlink” Then came the “browser” (Mosaic) Then came the first wave
Th th “d t d t ” Then came the “dot come, dot gone” Then came the second wave Finally came the “information explosion” Finally came the information explosion
– An estimate of 500 to 1000 million hosts– An estimate of 30 to 50 billion pages on lineAn estimate of 30 to 50 billion pages on line
And now comes Web 2.0 (with Web 3.0 just around the corner)
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Number of hosts
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Internet usage (1/3)
WORLD INTERNET USAGE AND POPULATION STATISTICSDecember 31 2011December 31, 2011
World Regions Population( 2011 Est.)
Internet Users
Dec. 31,
Internet Users
L t t D t
Penetration(%
P l ti
Growth2000-2011
Users %of Table( 2011 Est.) Dec. 31,
2000 Latest Data Population)
2011 of Table
Africa 1,037,524,058 4,514,400 139,875,242 13.5 % 2,988.4 % 6.2 %
Asia 3,879,740,877 114,304,000 1,016,799,076 26.2 % 789.6 % 44.8 %
Europe 816,426,346 105,096,093 500,723,686 61.3 % 376.4 % 22.1 %
Middle East 216,258,843 3,284,800 77,020,995 35.6 % 2,244.8 % 3.4 %
North America 347,394,870 108,096,800 273,067,546 78.6 % 152.6 % 12.0 %
Latin America / Carib. 597,283,165 18,068,919 235,819,740 39.5 % 1,205.1 % 10.4 %
Oceania / Australia 35,426,995 7,620,480 23,927,457 67.5 % 214.0 % 1.1 %
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WORLD TOTAL 6,930,055,154 360,985,492 2,267,233,742 32.7 % 528.1 % 100.0 %
Internet usage (2/3)
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Internet usage (3/3)
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Where we come from
The role of libraries– selection– acquisition– description– access– preservation
Early technodreams– Vannevar Bush (1890-1974)– JCR (Joseph Carl Robnett) Licklider (1915-1990)
E l ti f t h l Evolution of technology WWW: the World Wide Web
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Where do we want to go ?
Digital Libraries do exist todayg y– Are they a transformation of “traditional libraries”?– Are they an evolution of data bases ?y– Are they (a subset of) the Web ?– Are they useful ?y
DLs are at the intersection of a number of different disciplines/technologiesdisciplines/technologies
A “theory” of Digital Libraries not yet developed Two perspectives Two perspectives
– The Digital Library Curriculum ProjectThe DELOS Reference Model– The DELOS Reference Model
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Digital Library Curriculum Project
1 - Overview 2 - Digital Objects 3 - Collection Developmentp 4 - Info/Knowledge organization 5 - Architectures (agents, mediators)( g , ) 6 - User Behavior/Interactions 7 - Services 8 - Preservation 9 - Management and Evaluation9 Management and Evaluation 10 - DL education and research
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Topics underlying DLs (1)
1 - Overview– 1-a (10-c): Conceptual frameworks theories definitions– 1-a (10-c): Conceptual frameworks, theories, definitions– 1-b: History of digital libraries and library automation
2 - Digital Objects– 2-a: Text resources– 2-b: Multimedia– 2-c (8-c): File formats, transformation, migration
3 - Collection Development3 C ll i d l / l i li i– 3-a: Collection development/selection policies
– 3-b: Digitization– 3-c: Harvesting– 3-d: Document and e-publishing/presentation markup3 d: Document and e publishing/presentation markup
4 - Info/Knowledge organization– 4-a: Information architecture (e.g., hypertext, hypermedia)– 4-b: Metadata, cataloging, metadata markup, metadata harvesting– 4-c: Ontologies, classification, categorization– 4-d: Subject description, vocabulary control, thesauri, terminologies– 4-e: Object description and organization for a specific domain
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Topics underlying DLs (2)
5 - Architectures (agents, mediators)5 A hit t i / d l– 5-a: Architecture overviews/models
– 5-b: Application software– 5-c: Identifiers, handles, DOI, PURL
5 d: Protocols– 5-d: Protocols– 5-e: Interoperability– 5-f: Security
6 - User Behavior/Interactions 6 - User Behavior/Interactions– 6-a: Info needs, relevance– 6-b: Search strategy, info seeking, behavior, user modeling– 6-c: Sharing, networking, interchange (e.g., social)6 c: Sharing, networking, interchange (e.g., social)– 6-d: Interaction design, info summarization and visualization, usability assessment
7 - Services– 7-a: Search engines, IR, indexing methods7 a: Search engines, IR, indexing methods– 7-b: Reference services– 7-c: Recommender systems– 7-d: Routing, community filteringg y g– 7-e: Web publishing (e.g., wiki, rss, Moodle, etc.)
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Topics underlying DLs (3)
8 - Preservation8 A h t hi i d it d l t– 8-a: Approaches to archiving and repository development
– 8-b: Sustainability– 8-c (2-c): File formats, transformation, migration
9 Management and Evaluation 9 - Management and Evaluation– 9-a: Project management– 9-b: DL case studies– 9-c: DL evaluation user studies– 9-c: DL evaluation, user studies– 9-d: Bibliometrics, Webometrics– 9-e: Legal issues (e.g., copyright)– 9-f: Cost/economic issues9 f: Cost/economic issues– 9-g: Social issues
10 - DL education and research– 10-a: Future of DLs10 a: Future of DLs– 10-b: Education for digital librarians– 10-c (1-a): Conceptual framework, theories, definitions– 10-d: DL research initiatives
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