Kingsley Idehen's Blog Data Space

Here are 5 powerful benefits you can immediately derive from the combination of Virtuoso and Amazon's AWS services (specifically the EC2 and EBS components):

1. Acquire your own personal or service specific data space in the Cloud. Think DBase, Paradox, FoxPRO, Access of yore, but with the power of Oracle, Informix, Microsoft SQL Server etc.. using a Conceptual, as opposed to solely Logical, model based DBMS (i.e., a Hybrid DBMS Engine for: SQL, RDF, XML, and Full Text)
2. Ability to share and control access to your resources using innovations like FOAF+SSL, OpenID, and OAuth, all from one place
3. Construction of personal or organization based FOAF profiles in a matter of minutes; by simply creating a basic DBMS (or ODS application layer) account; and then using this profile to create strong links (references) to all your Data silos (esp. those from the Web 2.0 realm)
4. Load data sets from the LOD cloud or Sponge existing Web resources (i.e., on the fly data transformation to RDF model based Linked Data) and then use the combination to build powerful lookup services that enrich the value of URLs (think: Web addressable reports holding query results) that you publish
5. Bind all of the above to a domain that you own (e.g. a .Name domain) so that you have an attribution-friendly "authority" component for resource URLs and Entity URIs published from your Personal Linked Data Space on the Web (or private HTTP network).

In a nutshell, the AWS Cloud infrastructure simplifies the process of generating Federated presence on the Internet and/or World Wide Web. Remember, centralized networking models always end up creating data silos, in some context, ultimately! :-)

Here is a tabulated "compare and contrast" of Web usage patterns 1.0, 2.0, and 3.0.

Naturally, I am not expecting everyone to agree with me. I am simply making my contribution to what will remain facinating discourse for a long time to come :-)

Related

• Web 3.0 The Best Official Definition Imaginable -- Nova Spivack's

Here is a tabulated "compare and contrast" of Web usage patterns 1.0, 2.0, and 3.0.

Naturally, I am not expecting everyone to agree with me. I am simply making my contribution to what will remain facinating discourse for a long time to come :-)

Related

• Web 3.0 The Best Official Definition Imaginable -- Nova Spivack's

Another post done in response to lost comments. This time, the comments relate to Robin Bloor's article titled: What is Web 3.0 and Why Should I Care?

Robin:

Web 3.0 is fundamentally about the World Wid Web becoming a structured database equipped with a formal data model (RDF which is a moniker for Entity-Attribute-Value with Classes & Relationships based Graph Model), query language, and a protocol for handling divrerse data representational requirements via negotiation

Web 3.0 is about a Web that facilitates serendipitous discovery of relevant things; thereby making serendipitous discovery quotient (SDQ), rather than search engine optimization (SEO), the critical success factor that drives how resources get published on the Web.

Personally, I believe we are on the cusp of a major industry inflection re. how we interact with data hosted in computing spaces. In a nutshell, the conceptual model interaction based on real-world entities such as people, places, and other things (including abstract subject matter) will usurp traditional logical model interaction based on rows and columns of typed and/or untyped literal values exemplified by relational data access and management systems.

Labels such as "Web 3.0", "Linked Data", and "Semantic Web", are simply about the aforementioned model transition playing out on the World Wide Web and across private Linked Data Webs such as Intranets & Extranets, as exemplified emergence of the "Master Data Management" label/buzzword.

What's the critical infrastructure supporting Web 3.0?

As was the case with Web Services re. Web 2.0, there is a critical piece of infrastructure driving the evolution in question, and in this case it comes down to the evolution of Hyperlinking.

We now have a new and complimentary variant of Hyperlinking commonly referred to as "Hyperdata" that now sits alongside "Hypertext". Hyperdata when used in conjunction with HTTP based URIs as Data Source Names (or Identifiers), delivers a potent and granular data access mechanism scoped down to the datum (object or record) level; which is much different from the document (record or entity container) level linkage that Hypertext accords.

In addition, the incorporation of HTTP into this new and enhanced granular Data Source Naming mechanism also addresses past challenges relating to separation of data, data representation, and data transmission protocols -- remember XDR woes familiar to all sockets level programmers -- courtesy of in-built content negotiation. Hence, via a simple HTTP GET --against a Data Source Name exposed by a Hyperdata link -- I can negotiate (from client or server sides) the exact representation of the description (entity-attribute-value graph) of an Entity / Data Object / Resource, dispatched by a data server.

For example, this is how a description of entity "Me" ends up being available in (X)HTML or RDF document representations (as you will observe when you click on that link to my Personal URI).

The foundation of what I describe above comes from:

1. Entity-Attribute-Value & Class Relationship Data Model (originating from LISP era with detours via the Object Database era. into the Triples approach in RDF)
2. Use of HTTP based Identifiers in the Entity ID construction process
3. SPARQL query language for the Data Model.

Some live examples from DBpedia:

• http://dbpedia.org/resource/Linked_Data
• http://dbpedia.org/resource/Hyperdata
• http://dbpedia.org/resource/Entity-attribute-value_model
• http://dbpedia.org/resource/Benjamin_Franklin

Related

• The End of RDBMS Primacy is Nigh
• Linking Open Data Community

What is it?

A pre-installed edition of Virtuoso for Amazon's EC2 Cloud platform.

What does it offer?

1. Low cost entry point to a game-changing Web 3.0+ (and beyond) platform that combines SQL, RDF, XML, and Web Services functionality
2. Flexible variable cost model (courtesy of EC2 DevPay) tightly bound to revenue generated by your services
3. Delivers federated and/or centralized model flexibility for you SaaS based solutions
4. Simple entry point for developing and deploying sophisticated database driven applications (SQL or RDF Linked Data Web oriented)
5. Complete framework for exploiting OpenID, OAuth (including Role enhancements) that simplifies exploitation of these vital Identity and Data Access technologies
6. Easily implement RDF Linked Data based Mail, Blogging, Wikis, Bookmarks, Calendaring, Discussion Forums, Tagging, Social-Networking as Data Space (data containers) features of your application or service offering
7. Instant alleviation of challenges (e.g. service costs and agility) associated with Data Portability and Open Data Access across Web 2.0 data silos
8. LDAP integration for Intranet / Extranet style applications.

From the DBMS engine perspective it provides you with one or more pre-configured instances of Virtuoso that enable immediate exploitation of the following services:

1. RDF Database (a Quad Store with SPARQL & SPARUL Language & Protocol support)
2. SQL Database (with ODBC, JDBC, OLE-DB, ADO.NET, and XMLA driver access)
3. XML Database (XML Schema, XQuery/Xpath, XSLT, Full Text Indexing)
4. Full Text Indexing.

From a Middleware perspective it provides:

1. RDF Views (Wrappers / Semantic Covers) over SQL, XML, and other data sources accessible via SOAP or REST style Web Services
2. Sponger Service for converting non RDF information resources into RDF Linked Data "on the fly" via a large collection of pre-installed RDFizer Cartridges.

From the Web Server Platform perspective it provides an alternative to LAMP stack components such as MySQL and Apace by offering

1. HTTP Web Server
2. WebDAV Server
3. Web Application Server (includes PHP runtime hosting)
4. SOAP or REST style Web Services Deployment
5. RDF Linked Data Deployment
6. SPARQL (SPARQL Query Language) and SPARUL (SPARQL Update Language) endpoints
7. Virtuoso Hosted PHP packages for MediaWiki, Drupal, Wordpress, and phpBB3 (just install the relevant Virtuoso Distro. Package).

From the general System Administrator's perspective it provides:

1. Online Backups (Backup Set dispatched to S3 buckets, FTP, or HTTP/WebDAV server locations)
2. Synchronized Incremental Backups to Backup Set locations
3. Backup Restore from Backup Set location (without exiting to EC2 shell).

Higher level user oriented offerings include:

1. OpenLink Data Explorer front-end for exploring the burgeoning Linked Data Web
2. Ajax based SPARQL Query Builder (iSPARQL) that enables SPARQL Query construction by Example
3. Ajax based SQL Query Builder (QBE) that enables SQL Query construction by Example.

For Web 2.0 / 3.0 users, developers, and entrepreneurs it offers it includes Distributed Collaboration Tools & Social Media realm functionality courtesy of ODS that includes:

1. Point of presence on the Linked Data Web that meshes your Identity and your Data via URIs
2. System generated Social Network Profile & Contact Data via FOAF?
3. System generated SIOC (Semantically Interconnected Online Community) Data Space (that includes a Social Graph) exposing all your Web data in RDF Linked Data form
4. System generated OpenID and automatic integration with FOAF
5. Transparent Data Integration across Facebook, Digg, LinkedIn, FriendFeed, Twitter, and any other Web 2.0 data space equipped with RSS / Atom support and/or REST style Web Services
6. In-built support for SyncML which enables data synchronization with Mobile Phones.

How Do I Get Going with It?

• Standard Installation Guide
• Personal or Service Specific DBpedia Installation Guide

Typically, Orri's post are targeted at the hard core RDF and SQL DBMS audiences, but in this particular post, he shoots straight at the business community revealing "Opportunity Cost" containment as the invisible driver behind the business aspects of any market inflection.

Remember, the Web isn't ubiquitous because its users mastered the mechanics and virtues of HTML and/or HTTP. Web ubiquity is a function of the opportunity cost of not being on the Web, courtesy of the network effects of hyperlinked documents -- i.e., the instant gratification of traversing documents on the Web via a single click action. In similar fashion, the Linked Data Web's ubiquity will simply come down to the opportunity cost of not being "inside the Web", courtesy of the network effects of hyperlinked entities (documents, people, music, books, and other "Things").

Here are some excerpts from Orri's post:

Every time there is a major shift in technology, this shift needs to be motivated by addressing a new class of problem. This means doing something that could not be done before. The last time this happened was when the relational database became the dominant IT technology. At that time, the questions involved putting the enterprise in the database and building a cluster of line of business applications around the database. The argument for the RDBMS was that you did not have to constrain the set of queries that might later be made, when designing the database. In other words, it was making things more ad hoc. This was opposed then on grounds of being less efficient than the hierarchical and network databases which the relational eventually replaced. Today, the point of the Data Web is that you do not have to constrain what your data can join or integrate with, when you design your database. The counter-argument is that this is slow and geeky and not scalable. See the similarity? A difference is that we are not specifically aiming at replacing the RDBMS. In fact, if you know exactly what you will query and have a well defined workload, a relational representation optimized for the workload will give you about 10x the performance of the equivalent RDF warehouse. OLTP remains a relational-only domain. However, when we are talking about doing queries and analytics against the Web, or even against more than a handful of relational systems, the things which make RDBMS good become problematic.

If we think about Web 1.0 as a period where the distinguishing noun was: "Author", and Web 2.0 the noun: "Journalist", we should be able to see that what comes next is the noun: "Analyst". This new generation analyst would be equipped with de-referencable Web Identity courtesy of their Person Entity URI. The analyst's URI would also be the critical component of Web based low cost attribution ecosystem; one that ultimately turns the URI into the analyst's brand emblem / imprint.

Related

Paul Downey - Vanity of Demanding Attribution

In response to ReadWriteWeb's post titled: Who will own your Data in Web 3.0 World?. My simple answer: You!

You will control your data in the Web 3.0 realm. If somehow this remains somewhat incomprehensible and nebulous (as is typical in this emerging realm) then simply think about this as: The Magic of You!

Remember, "You" was the Times person of the year as an acknowledgement of the Web 2.0 phenomenon, and maybe this time next year it would simply be the "Magic of Being You" that's the person of the year :-)

Web 3.0 brings databasing to the Web (as a feature). The single most important action item at this stage is the act of creating a record for yourself, in this new distributed database held together by an HTTP based Network (e.g., the World Wide Web).

Related:

1. Get yourself a Web Database ID in 5 minutes or less
2. 2006 Callout from TimBL: Get Yourself a URI
3. Just watch the Numerati Video

In response to the "Semantic Web Technology" application classification scheme espoused by ReadWriteWeb (RWW), emphasized in the post titled: Where are all the RDF-based Semantic Web Apps?, here is my attempt to clarify and reintroduce what OpenLink Software offers (today) in relation to Semantic Web technology.

From the RWW Top-Down category, which I interpret as: technologies that produce RDF from non RDF data sources. Our product portfolio is comprised of the following; Virtuoso Universal Server, OpenLink Data Spaces, OpenLink Ajax Toolkit, and OpenLink Data Explorer (which includes ubiquity commands).

Virtuoso Universal Server functionality summary:

1. Generation of RDF Linked Data Views of SQL, XML, and Web Services in general
2. Deployment of RDF Linked Data
3. "On the Fly" generation of RDF Linked Data from Document Web information resources (i.e. distillation of entities from their containers e.g. Web pages) via Cartridges / Drivers
4. SPARQL query language support
5. SPARQL extensions that bring SPARQL closer to SQL e.g Aggregates, Update, Insert, Delete Named Graph support (i.e. use of logical names to partition RDF data within Virtuoso's multi-model dbms engine)
6. Inference Engine (currently in use re. DBpedia via Yago and UMBEL)
7. Host and exposes data from Drupal, Wordpress, MediaWiki, phpBB3 as RDF Linked Data via in-built support for PHP runtime
8. Available as an EC2 AMI
9. etc..

OpenLink Data Spaces functionality summary:

1. Simple mechanism for Linked Data Web enabling yourself by giving you an HTTP based User ID (a de-referencable URI) that is linked to a FOAF based Profile page and OpenID
2. Binds all your data sources (blogs, wikis, bookmarks, photos, calendar items etc. ) to your URI so can "Find" things by only remembering your URI
3. Makes your profile page and personal URI the focal point of Linked Data Web presence
4. Delivers Data Portability (using data access by value or data access by reference) across data silos (e.g. Web 2.0 style social networks)
5. Allows you make annotations about anything in your own Data Space(s) on the Web without exposure to RDF markup
6. A Briefcase feature that provides a WebDAV driven RDF Linked Data variant of functionality seen in Mac OS X Spotlight and WinFS with the addition of SPARQL compliance
7. Automatically generates RDFa in its (X)HTML pages
8. Blog, Wiki, WebDAV File Server, Shared Bookmarks, Calendar, and other applications that look and feel like Web 2.0 counterparts but emitt RDF Linked Data amongst a plethora of data exchange formats
9. Available as an EC2 AMI
10. etc..

OpenLink Ajax Toolkit functionality summary:

1. Provides binding to SQL, RDF, XML, and Web Services via Ajax Database Connectivity Layer (you only need an ODBC, JDBC, OLE-DB, ADO.NET, XMLA Driver, or Web Service on the backend for dynamic data access from Javascript)
2. All controls are Ajax Database Connectivity bound (widgets get their data from Ajax Database Connectivity data sources)
3. Bundled with Virtuoso and ODS installations.
4. etc.

OpenLink Data Explorer functionality summary

1. Distills entities associated with information resource style containers (e.g. Web Pages or files) as RDF Linked Data
2. Exposes the RDF based Linked Data graph associated with information resources (see the Linked Data behind Web pages)
3. Ubiquity commands for invoking the above
4. Available as a Hosted Service or Firefox Extension
5. Bundled with Virtuoso and ODS installations
6. etc.

Note:

Of course you could have simply looked up OpenLink Software's FOAF based Profile page (*note the Linked Data Explorer tab*), or simply passed the FOAF profile page URL to a Linked Data aware client application such as: OpenLink Data Explorer, Zitgist Data Viewer, Marbles, and Tabulator, and obtained information. Remember, OpenLink Software is an Entity of Type: foaf:Organization, on the burgeoning Linked Data Web :-)

Related

• Linked Data Planet Keynote (RDFa based remix edition)
• On The Cusp: A Global Review of the Semantic Web Industry.

The sweet spot of Web 3.0 (or any other Web.vNext moniker) is all about providing Web Users with a structured and interlinked data substrate that facilitates serendipitous discovery of relevant "Things" i.e., a Linked Data Web -- a Web of Linkable Entities that goes beyond documents and other information resource (data containers) types.

Understanding potential Linked Data Web business models, relative to other Web based market segments, is best pursued via a BCG Matrix diagram, such as the one I've constructed below:

Notes:

Link Density

• Web 1.0's collection of "Web Sites" have relatively low link density relative to Web 2.0's user-activity driven generation of semi-structured linked data spaces (e.g., Blogs, Wikis, Shared Bookmarks, RSS/Atom Feeds, Photo Galleries, Discussion Forums etc..)
• Semantic Technologies (i.e. "Semantics Inside style solutions") which are primarily about "Semantic Meaning" culled from Web 1.0 Pages also have limited linked density relative to Web 2.0
• The Linked Data Web, courtesy of the open-ended linking capacity of URIs, matches and ultimately exceeds Web 2.0 link density.

Relevance

• Web 1.0 and 2.0 are low relevance realms driven by hyperlinks to information resources ((X)HTML, RSS, Atom, OPML, XML, Images, Audio files etc.) associated with Literal Labels and Tagging schemes devoid of explicit property based resource description thereby making the pursuit of relevance mercurial at best
• Semantic Technologies offer more relevance than Web 1.0 and 2.0 based on the increased context that semantic analysis of Web pages accords
• The Linked Data Web, courtesy of URIs that expose self-describing data entities, match the relevance levels attained by Semantic Technologies.

Serendipity Quotient (SDQ)

• Web 1.0 has next to no serendipity, the closest thing is Google's "I'm Feeling Lucky" button
• Web 2.0 possess higher potential for serendipitous discovery than Web 1.0, but such potential is neutralized by inherent subjectivity due to its human-interaction-focused literal foundation (e.g., tags, voting schemes, wiki editors etc.)
• Semantic Technologies produce islands-of-relevance with little scope for serendipitous discovery due to URI invisibility, since the prime focus is delivering more context to Web search relative to traditional Web 1.0 search engines.
• The Linked Data Web's use of URIs as the naming and resolution mechanism for exposing structured and interlinked resources provides the highest potential for serendipitous discovery of relevant "Things"

To conclude, the Linked Data Web's market opportunities are all about the evolution of the Web into a powerful substrate that offers a unique intersection of "Link Density" and "Relevance", exploitable across horizontal and vertical market segments to solutions providers. Put differently, SDQ is how you take "The Ad" out of "Advertising" when matching Web users to relevant things :-)

Unfortunately our fixation with "Labels" and the artificial link that exist between "Labels" and so-called "first mover advantage" continue to impede our progress to clarity about matters such as a fully functional Web of interlinked data.

A while back I watched Kevin Kelly's 5,000 days presentation at TED. During the presentation, I kept on scratching my head, wondering why phrases like "Linked Data", "Semantic Web", "Web of Data", "Data Web" where so unnaturally disconnected from his session narrative.

Yesterday I watched IMINDI's TechCrunch 50 presentation, and once again I saw the aforementioned pattern repeat itself. This time around, the poor founders of this "Linked Data Web" oriented company (which is what they are in reality) took a totally undeserved pasting from a bunch of panelist incapable of seeing beyond today (Web 2.0) and yesterday (initial Web bootstrap).

Anyway, thanks to the Web, this post will make a small contribution towards re-connecting the missing phrases to these "Linked Data Web" presentations.