Information Sharing on the Social Semantic Web Aman Shakya* and Hideaki Takeda National Institute of Informatics, Tokyo, Japan The Second NEA-JC Workshop.

Slides:

Advertisements

Similar presentations

1 ICS-FORTH EU-NSF Semantic Web Workshop 3-5 Oct Christophides Vassilis Database Technology for the Semantic Web Vassilis Christophides Dimitris Plexousakis.

Advertisements

CS570 Artificial Intelligence Semantic Web & Ontology 2

By Ahmet Can Babaoğlu Abdurrahman Beşinci.  Suppose you want to buy a Star wars DVD having such properties;  wide-screen ( not full-screen )  the extra.

Organizing research publications in Web 3 enviroment Anastasiou Lucas Vasilis Tzouvaras

Building and Analyzing Social Networks Web Data and Semantics in Social Network Applications Dr. Bhavani Thuraisingham February 15, 2013.

Web 2.0 The Read/Write Web. History Tim Berners-Lee: World Wide Web 1989 Dream of sharing information back and forth Mosaic Web browser in 1993 Writing.

The Web of data with meaning... By Michael Griffiths.

Easing Semantic Data Publishing and Processing Using Semantic MediaWiki and RDFa Jin Guang Zheng.

OntoBlog: Informal Knowledge Management by Semantic Blogging Aman Shakya 1, Vilas Wuwongse 2, Hideaki Takeda 1, Ikki Ohmukai 1 1 National Institute of.

Jennifer A. Dunne Santa Fe Institute Pacific Ecoinformatics & Computational Ecology Lab Rich William, Neo Martinez, et al. Challenges.

OntoBlog: Linking Ontology and Blogs Aman Shakya 1, Vilas Wuwongse 2, Hideaki Takeda 1, Ikki Ohmukai 1 1 National Institute of Informatics, Japan 2 Asian.

Ontologies, Web 2.0 and Beyond Tom Gruber TagCommons.org tomgruber.org.

At first the Web was just reading. 250,000 sites visited for 45 million users.

SocioBiblog : A Decentralized Platform for Sharing Bibliographic Information Aman Shakya 1, Hideaki Takeda 1, Vilas Wuwongse 2, Ikki Ohmukai 1 1 National.

Future Software Architectures Combining the Web 2.0 with the Semantic Web to realize future Web Communities Maarten Visser

CSCI 572 Project Presentation Mohsen Taheriyan Semantic Search on FOAF profiles.

Semantic Web and Web Mining: Networking with Industry and Academia İsmail Hakkı Toroslu IST EVENT 2006.

COMP 6703 eScience Project Semantic Web for Museums Student : Lei Junran Client/Technical Supervisor : Tom Worthington Academic Supervisor : Peter Strazdins.

OCT1 Principles From Chapter One of “Distributed Systems Concepts and Design”

ReQuest (Validating Semantic Searches) Norman Piedade de Noronha 16 th July, 2004.

Linked Data and Semantic Web Technologies for Aid Transparency Aman Shakya PhD (National Institute of Informatics, Japan) Asst. Professor (Institute of.

RDF: Building Block for the Semantic Web Jim Ellenberger UCCS CS5260 Spring 2011.

Semantic Web Presented by: Edward Cheng Wayne Choi Tony Deng Peter Kuc-Pittet Anita Yong.

Samad Paydar Web Technology Laboratory Computer Engineering Department Ferdowsi University of Mashhad 1389/11/20 An Introduction to the Semantic Web.

Semantic Web Technologies Lecture # 2 Faculty of Computer Science, IBA.

Ontologies: Making Computers Smarter to Deal with Data Kei Cheung, PhD Yale Center for Medical Informatics CBB752, February 9, 2015, Yale University.

Semantic Web Technologies ufiekg-20-2 | data, schemas & applications | lecture 21 original presentation by: Dr Rob Stephens

04.10.’04 updated ’06CmpE 583 Fall 2008Terminology- 1 CmpE 583- Web Semantics: Theory and Practice TERMINOLOGY Atilla ELÇİ Computer Engineering Department.

Creating and Sharing Structured Semantic Web Contents through the Social Web (Main Evaluation) Aman Shakya Advisor: Prof. Hideaki Takeda Sub-advisors:

Andrew Brasher Andrew Brasher, Patrick McAndrew Userlab, IET, Open University Human-Generated Learning.

The Semantic Web William M Baker

Report on Del 1.1: Social Semantic Web technologies and tools and their educational applications OP4L meeting Skopje, May 2011 Violeta Damjanovic,

Creating Collaborative Partnerships

Helping scientists collaborate BioCAD. ©2003 All Rights Reserved.

Reading Discussions Metcalfe’s Law paper What is metcalfe’s Law? Examples from the Web? How can we utilize it? How semantics contribute to social networks,

Future Learning Landscapes Yvan Peter – Université Lille 1 Serge Garlatti – Telecom Bretagne.

From Objects to Assets: The Fungibility of Knowledge Christopher W. Higgins, Esq.

Semantic Web - an introduction By Daniel Wu (danielwujr)

Unique Social Computing Applications Zaffar Ahmed.

10/24/09CK The Open Ontology Repository Initiative: Requirements and Research Challenges Ken Baclawski Todd Schneider.

It’s all semantics! The premises and promises of the semantic web. Tony Ross Centre for Digital Library Research, University of Strathclyde

Ontology Mapping in Pervasive Computing Environment C.Y. Kong, C.L. Wang, F.C.M. Lau The University of Hong Kong.

The future of the Web: Semantic Web 9/30/2004 Xiangming Mu.

OWL Representing Information Using the Web Ontology Language.

Introduction to the Semantic Web and Linked Data Module 1 - Unit 2 The Semantic Web and Linked Data Concepts 1-1 Library of Congress BIBFRAME Pilot Training.

Introduction to the Semantic Web and Linked Data

Trustworthy Semantic Webs Dr. Bhavani Thuraisingham The University of Texas at Dallas Lecture #4 Vision for Semantic Web.

User Profiling using Semantic Web Group members: Ashwin Somaiah Asha Stephen Charlie Sudharshan Reddy.

Scalable Hybrid Keyword Search on Distributed Database Jungkee Kim Florida State University Community Grids Laboratory, Indiana University Workshop on.

THE SEMANTIC WEB By Conrad Williams. Contents  What is the Semantic Web?  Technologies  XML  RDF  OWL  Implementations  Social Networking  Scholarly.

DANIELA KOLAROVA INSTITUTE OF INFORMATION TECHNOLOGIES, BAS Multimedia Semantics and the Semantic Web.

Semantic Web COMS 6135 Class Presentation Jian Pan Department of Computer Science Columbia University Web Enhanced Information Management.

The Semantic Web. What is the Semantic Web? The Semantic Web is an extension of the current Web in which information is given well-defined meaning, enabling.

Semantic Data Extraction for B2B Integration Syntactic-to-Semantic Middleware Bruno Silva 1, Jorge Cardoso 2 1 2

Social Information Processing March 26-28, 2008 AAAI Spring Symposium Stanford University

Semantic Web unleashes your data! The Semantic Web will transform the use of content. Semantic Web – is an extension of the current web. Semantic Web.

SOCIAL COMPUTING IN 2025 PRESENTED BY LATE TIMERS.

Wiki’s and Web 2.0 Tools Session 3. Wiki’s

CITA 330 Section 11 The Web and Its Future. Web 1.0 News, music and everything else is moved to digital Web sites become super applications Ease of.

Open and Linked Data. Who we are Story time ● To avoid future tragedies, Ronald Reagan announced that GPS would be made available for civilian uses.

Shared innovation Linking Distributed Data across the Web Dr Tom Heath Researcher, Platform Division Talis Information Ltd t

The Semantic Web & Content Managment Systems Ole Gulbrandsen, CTO Stand: E7049.

OMG Architecture Ecosystem SIG Enterprise Data World 2011.

 GEETHA P.  Originally coined by Tim O’Reilly Publishing Media  Second generation of services available on www.  Lets people collaborate and share.

The Semantic Web By: Maulik Parikh.

Semblog Project Personal Information Distribution with Social Network

Conceptualizing the research world

RDFa How and Why Ralph R. Swick World Wide Web Consortium

StYLiD: Structured Information Sharing with User-defined Concepts

ece 627 intelligent web: ontology and beyond

Presentation transcript:

Information Sharing on the Social Semantic Web Aman Shakya* and Hideaki Takeda National Institute of Informatics, Tokyo, Japan The Second NEA-JC Workshop on Current and Future Technologies, Oct. 12, 2008, Tokyo

Outline Social Web Semantic Web Social Semantic Web StYLiD Conclusion 2NEA-JC, 2008, Tokyo

Social Web Recent phenomenon on the Web ◦ A new generation of Web ◦ Most significant aspect of Web 2.0 Mass user participation User activity ◦ People Connect, Socialize and Interact User-generated Contents Easy to understand / use 3NEA-JC, 2008, Tokyo

4

Blogs 5

Wiki 6

Social Web applications Multimedia sharing sites Social Networking 7NEA-JC, 2008, Tokyo

Social Bookmarking 8NEA-JC, 2008, Tokyo

Tagging Folksonomy Tag Cloud 9NEA-JC, 2008, Tokyo

10NEA-JC, 2008, Tokyo

Social Web Today Web NEA-JC, 2008, Tokyo

Social Web Limitations Unstructured data ◦ Unclear Semantics ◦ Machines do not understand ◦ Information processing/retrieval difficult Lack of Interoperability ◦ Lot of data locked in closed “Data Silos” or “Walled data gardens” Lack of Standards 12NEA-JC, 2008, Tokyo

Walled Data Gardens 13NEA-JC, 2008, Tokyo

Semantic Web Sir Tim Berners-Lee (inventor of the Web) “.. an extension of the current web in which information is given well-defined meaning, better enabling computers and people to work in cooperation..” Scientific American (2001) 14NEA-JC, 2008, Tokyo

Semantic Web (explained) Web of Data Giant Global Graph (GGG) NEA-JC, 2008, Tokyo15 WWW – Web of Documents GGG - Web of Data

Semantic Web (explained) Data Modeling and Knowledge Representation ◦ Machine understandable Semantics Ontology “.. an explicit specification of a conceptualization” ◦ modeling of the objects, concepts, entities, relationships that exist in the area of interest NEA-JC, 2008, Tokyo16 Gruber (1993)

Ontology NEA-JC, 2008, Tokyo17

Semantic Web (explained) NEA-JC, 2008, Tokyo18 The Semantic Web Cake

Semantic Web (explained) Consensus Common formats Standard Vocabulary Interoperability Information exchange Information integration NEA-JC, 2008, Tokyo19

The Semantic Web Today NEA-JC, 2008, Tokyo20 OWL (web ontology language) Resource Description Format SPARQL query language Linked Data browsers Microformats RDFa MIT Gene ontology

Challenges for Semantic Web Ontology creation is difficult Global consensus is difficult Difficult to understand and use for ordinary people Lack of incentive / motivation ◦ Lack of enough Data and Applications NEA-JC, 2008, Tokyo21

Semantic Web “Chicken or Egg” NEA-JC, 2008, Tokyo22 Data first or Applications first

Social Semantic Web Social Web + Semantic Web ◦ Complement each other ◦ Semantic Web  Machine understandable structure  Interoperability standards ◦ Social Web  Easy-to-use platforms  Consensus thru Social interaction / collaboration Combining the two cultures (Web 3.0 ?) ◦ Semantic Wiki ◦ Semantic Blog ◦ Semantic Tagging ◦ Ontology from folksonomy….. etc NEA-JC, 2008, Tokyo23

StYLiD Structure Your own Linked Data Social Web platform Share a wide variety of Structured Data ◦ Define your own Concepts (with attributes) ◦ Easy for ordinary people Publish on the Semantic Web ◦ Exploit the structured data for useful applications NEA-JC, 2008, Tokyo24

NEA-JC, 2008, Tokyo Creating a new Concept Attribute labels Description “Project” concept 25

NEA-JC, 2008, Tokyo26 Enter Instance Data value Multiple Values

NEA-JC, 2008, Tokyo27 attributes values

Concept Consolidation NEA-JC, 2008, Tokyo28 Hotel - ver.1 (user1) Name Address Country Hotel - ver.2 (user1) Name Address Phone-number Hotel - ver.3 (user1) Name Location Rating Hotel - ver.1 (user2) Name Capacity Zip-code Hotel - ver.2 (user2) Name Zip-code Price Hotel - ver.1 (user3) Name Lat Long Hotel (user1) Hotel (user2) Hotel (user3) Hotel Virtual Concept

Conclusion Social Web and Semantic Web ◦ Developed independently ◦ Weakness of one Strength of another Social Semantic Web ◦ Combine the two cultures StYLiD ◦ Social platform to share Semantic Web data Effective integration not easy ◦ Disadvantages creep in with advantages Proper coordination between the two communities necessary NEA-JC, 2008, Tokyo29

Thank You! Happy Vijaya Dashami and Deepawali 2065 !! NEA-JC, 2008, Tokyo30