--- a/primer/fpwd/Primer.html Thu Dec 22 07:38:03 2011 +0000
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+</style><link href="http://www.w3.org/StyleSheets/TR/W3C-WD" rel="stylesheet" type="text/css" charset="utf-8" /></head>
+ <body style="display: inherit; "><div class="head"><p><a href="http://www.w3.org/"><img width="72" height="48" src="http://www.w3.org/Icons/w3c_home" alt="W3C" /></a></p><h1 class="title" id="title">Prov Model Primer</h1><h2 id="w3c-working-draft-22-december-2011"><acronym title="World Wide Web Consortium">W3C</acronym> Working Draft 22 December 2011</h2><dl><dt>This version:</dt><dd><a href="http://www.w3.org/TR/2011/WD-Prov-Primer-20111222/">http://www.w3.org/TR/2011/WD-Prov-Primer-20111222/</a></dd><dt>Latest published version:</dt><dd><a href="http://www.w3.org/TR/Prov-Primer/">http://www.w3.org/TR/Prov-Primer/</a></dd><dt>Latest editor's draft:</dt><dd><a href="http://dvcs.w3.org/hg/prov/raw-file/default/primer/Primer.html">http://dvcs.w3.org/hg/prov/raw-file/default/primer/Primer.html</a></dd><dt>Editors:</dt><dd><a href="http://www.isi.edu/~gil/">Yolanda Gil</a>, Information Sciences Institute, University of Southern California, US</dd>
+<dd><a href="http://www.inf.kcl.ac.uk/~simonm">Simon Miles</a>, King's College London, UK</dd>
+<dt>Authors:</dt><dd><span><a href="http://semanticweb.org/wiki/Khalid_Belhajjame">Khalid Belhajjame</a></span>, University of Manchester</dd>
+<dd><span>Helena Deus</span>, Digital Enterprise Research Institute (DERI), NUI Galway</dd>
+<dd><span><a href="http://www.oeg-upm.net/index.php/en/phdstudents/28-dgarijo">Daniel Garijo</a></span>, Universidad Politécnica de Madrid</dd>
+<dd><span>Graham Klyne</span>, University of Oxford</dd>
+<dd><span><a href="http://www.cs.ncl.ac.uk/people/Paolo.Missier">Paolo Missier</a></span>, Newcastle University</dd>
+<dd><span><a href="http://soiland-reyes.com/stian/">Stian Soiland-Reyes</a></span>, University of Manchester</dd>
+<dd><span><a href="http://tw.rpi.edu/web/person/StephanZednik">Stephan Zednik</a></span>, Rensselaer Polytechnic Institute</dd>
+</dl><p class="copyright"><a href="http://www.w3.org/Consortium/Legal/ipr-notice#Copyright">Copyright</a> © 2011 <a href="http://www.w3.org/"><acronym title="World Wide Web Consortium">W3C</acronym></a><sup>®</sup> (<a href="http://www.csail.mit.edu/"><acronym title="Massachusetts Institute of Technology">MIT</acronym></a>, <a href="http://www.ercim.eu/"><acronym title="European Research Consortium for Informatics and Mathematics">ERCIM</acronym></a>, <a href="http://www.keio.ac.jp/">Keio</a>), All Rights Reserved. <acronym title="World Wide Web Consortium">W3C</acronym> <a href="http://www.w3.org/Consortium/Legal/ipr-notice#Legal_Disclaimer">liability</a>, <a href="http://www.w3.org/Consortium/Legal/ipr-notice#W3C_Trademarks">trademark</a> and <a href="http://www.w3.org/Consortium/Legal/copyright-documents">document use</a> rules apply.</p><hr /></div>
+ <div id="abstract" class="introductory section"><h2>Abstract</h2>
<p>
+ This document provides an intuitive introduction and guide to the
+ PROV data model for provenance [<cite><a class="bibref" rel="biblioentry" href="#bib-PROV-DM">PROV-DM</a></cite>]. PROV-DM is a core data model for
+ provenance for building representations of the entities, people and
+ processes involved in producing a piece of data or thing in the world.
+ This primer explains the fundamental PROV-DM concepts in non-normative
+ terms, and provides worked examples applying the PROV-O OWL2
+ ontology [<cite><a class="bibref" rel="biblioentry" href="#bib-PROV-O">PROV-O</a></cite>]. The primer is intended as a starting point for those wishing
+ to create or make use of PROV-DM data.
+ </p>
+
+
+<!-- p>
This is a document for internal discussion, which will ultimately
- evolve in the first Public Working Draft of the Primer.</p>
- </section>
+ evolve in the first Public Working Draft of the Primer.</p -->
- <section>
- <h2>Introduction</h2>
+ </div><div id="sotd" class="introductory section"><h2>Status of This Document</h2><p><em>This section describes the status of this document at the time of its publication. Other documents may supersede this document. A list of current <acronym title="World Wide Web Consortium">W3C</acronym> publications and the latest revision of this technical report can be found in the <a href="http://www.w3.org/TR/"><acronym title="World Wide Web Consortium">W3C</acronym> technical reports index</a> at http://www.w3.org/TR/.</em></p>
+ This document is part of a set of specifications aiming to define the
+ various aspects that are necessary to achieve the vision of
+ interoperable interchange of provenance information in heterogeneous
+ environments such as the Web. This document is a non-normative,
+ intuitive introduction and guide to the [<cite><a class="bibref" rel="biblioentry" href="#bib-PROV-DM">PROV-DM</a></cite>] data model for
+ provenance. It includes simple worked examples applying the [<cite><a class="bibref" rel="biblioentry" href="#bib-PROV-O">PROV-O</a></cite>]
+ OWL2 ontology.
+ <p>This document was published by the <a href="http://www.w3.org/2011/prov/">Provenance Working Group</a> as a First Public Working Draft. If you wish to make comments regarding this document, please send them to <a href="mailto:public-prov-wg@w3.org">public-prov-wg@w3.org</a> (<a href="mailto:public-prov-wg-request@w3.org?subject=subscribe">subscribe</a>, <a href="http://lists.w3.org/Archives/Public/public-prov-wg/">archives</a>). All feedback is welcome.</p><p>Publication as a Working Draft does not imply endorsement by the <acronym title="World Wide Web Consortium">W3C</acronym> Membership. This is a draft document and may be updated, replaced or obsoleted by other documents at any time. It is inappropriate to cite this document as other than work in progress.</p><p>This document was produced by a group operating under the <a href="http://www.w3.org/Consortium/Patent-Policy-20040205/">5 February 2004 <acronym title="World Wide Web Consortium">W3C</acronym> Patent Policy</a>. The group does not expect this document to become a <acronym title="World Wide Web Consortium">W3C</acronym> Recommendation. <acronym title="World Wide Web Consortium">W3C</acronym> maintains a <a href="http://www.w3.org/2004/01/pp-impl/46974/status" rel="disclosure">public list of any patent disclosures</a> made in connection with the deliverables of the group; that page also includes instructions for disclosing a patent. An individual who has actual knowledge of a patent which the individual believes contains <a href="http://www.w3.org/Consortium/Patent-Policy-20040205/#def-essential">Essential Claim(s)</a> must disclose the information in accordance with <a href="http://www.w3.org/Consortium/Patent-Policy-20040205/#sec-Disclosure">section 6 of the <acronym title="World Wide Web Consortium">W3C</acronym> Patent Policy</a>.</p></div><div id="toc" class="section"><h2 class="introductory">Table of Contents</h2><ul class="toc"><li class="tocline"><a href="#introduction" class="tocxref"><span class="secno">1. </span>Introduction</a></li><li class="tocline"><a href="#intuitive-overview-of-prov-dm" class="tocxref"><span class="secno">2. </span>Intuitive overview of PROV-DM</a><ul class="toc"><li class="tocline"><a href="#entities" class="tocxref"><span class="secno">2.1 </span>Entities</a></li><li class="tocline"><a href="#activities" class="tocxref"><span class="secno">2.2 </span>Activities</a></li><li class="tocline"><a href="#use-and-generation" class="tocxref"><span class="secno">2.3 </span>Use and Generation</a></li><li class="tocline"><a href="#agents" class="tocxref"><span class="secno">2.4 </span>Agents</a></li><li class="tocline"><a href="#roles" class="tocxref"><span class="secno">2.5 </span>Roles</a></li><li class="tocline"><a href="#revisions-and-derivation" class="tocxref"><span class="secno">2.6 </span>Revisions and Derivation</a></li></ul></li><li class="tocline"><a href="#examples-of-use-of-the-prov-o-ontology" class="tocxref"><span class="secno">3. </span>Examples of Use of the PROV-O Ontology</a><ul class="toc"><li class="tocline"><a href="#entities-1" class="tocxref"><span class="secno">3.1 </span>Entities</a></li><li class="tocline"><a href="#activities-1" class="tocxref"><span class="secno">3.2 </span>Activities</a></li><li class="tocline"><a href="#use-and-generation-1" class="tocxref"><span class="secno">3.3 </span>Use and Generation</a></li><li class="tocline"><a href="#agents-1" class="tocxref"><span class="secno">3.4 </span>Agents</a></li><li class="tocline"><a href="#roles-1" class="tocxref"><span class="secno">3.5 </span>Roles</a></li><li class="tocline"><a href="#revision-and-derivation" class="tocxref"><span class="secno">3.6 </span>Revision and Derivation</a></li></ul></li><li class="tocline"><a href="#frequently-asked-questions" class="tocxref"><span class="secno">4. </span>Frequently asked questions</a></li><li class="tocline"><a href="#abstract-syntax-notation-for-examples" class="tocxref"><span class="secno">A. </span>Abstract Syntax Notation for Examples</a><ul class="toc"><li class="tocline"><a href="#entities-2" class="tocxref"><span class="secno">A.1 </span>Entities</a></li><li class="tocline"><a href="#activities-2" class="tocxref"><span class="secno">A.2 </span>Activities</a></li><li class="tocline"><a href="#use-and-generation-2" class="tocxref"><span class="secno">A.3 </span>Use and Generation</a></li><li class="tocline"><a href="#agents-2" class="tocxref"><span class="secno">A.4 </span>Agents</a></li><li class="tocline"><a href="#roles-2" class="tocxref"><span class="secno">A.5 </span>Roles</a></li><li class="tocline"><a href="#revision-and-derivation-1" class="tocxref"><span class="secno">A.6 </span>Revision and Derivation</a></li></ul></li><li class="tocline"><a href="#acknowledgements" class="tocxref"><span class="secno">B. </span>Acknowledgements</a></li><li class="tocline"><a href="#references" class="tocxref"><span class="secno">C. </span>References</a><ul class="toc"><li class="tocline"><a href="#normative-references" class="tocxref"><span class="secno">C.1 </span>Normative references</a></li><li class="tocline"><a href="#informative-references" class="tocxref"><span class="secno">C.2 </span>Informative references</a></li></ul></li></ul></div>
+
+
+
+ <div id="introduction" class="section">
+
+<!-- OddPage -->
+<h2><span class="secno">1. </span>Introduction</h2>
<p>
This primer document provides an accessible introduction to the PROV Data Model
- (PROV-DM) standard for representing provenance on the Web, and its representation
- in the PROV Ontology (PROV-O). Provenance describes
+ ([<cite><a class="bibref" rel="biblioentry" href="#bib-PROV-DM">PROV-DM</a></cite>]) standard for representing provenance on the Web, and its representation
+ in the PROV Ontology ([<cite><a class="bibref" rel="biblioentry" href="#bib-PROV-O">PROV-O</a></cite>]). Provenance describes
the origins of things, so PROV-DM data consists of assertions about the past.
</p>
@@ -112,32 +547,33 @@
</ul>
<p>
- The provenance of digital objects represents their origins. The PROV-DM is a
- proposed standard to represent provenance records, which reflect the entities
+ The <i>provenance</i> of digital objects represents their origins. The PROV-DM is a
+ proposed standard to represent provenance records, which contain <i>assertions</i> about the entities
and activities involved in producing and delivering or otherwise influencing a
given object. By knowing the provenance of an object, we can make determinations
about how to use it. Provenance records can be used for many purposes, such as
understanding how data was collected so it can be meaningfully used, determining
ownership and rights over an object, making judgments about information to
- determine whether to trust it, verifying that the activity used to obtain a
+ determine whether to trust it, verifying that the process and steps used to obtain a
result complies with given requirements, and reproducing how something it was generated.
</p>
<p>
As a standard for provenance, PROV-DM accommodates all those different uses
- of provenance. However, different people may have different perspectives on provenance,
- and as a result different types of information might be captured in a provenance record.
+ of provenance. Different people may have different perspectives on provenance,
+ and as a result different types of information might be captured in provenance records.
One perspective might focus on <i>agent-centered provenance</i>, that is, what entities
were involved in generating or manipulating the information in question. For example,
in the provenance of a picture in a news article we might capture the photographer who
took it, the person that edited it, and the newspaper that published it. A second perspective
might focus on <i>object-centered provenance</i>, by tracing the origins of portions of a
document to other documents. An example is having a web page that was assembled from content
- from a news article, quotes of interviews with experts, and a graph that plots data from a
+ from a news article, quotes of interviews with experts, and a chart that plots data from a
government agency. A third perspective one might take is on <i>process-centered provenance</i>,
capturing the actions and steps taken to generate the information in question. For example, a
- graph may have been generated by invoking a service to retrieve data from a database, and then
- extracting certain statistics from the data using some statistics package.
+ chart may have been generated by invoking a service to retrieve data from a database, then
+ extracting certain statistics from the data using some statistics package, and finally
+ processing these results with a graphing tool.
</p>
<p>
@@ -147,40 +583,68 @@
</p>
<p>
- A comprehensive overview of requirements, use cases, prior research, and proposed
+ For general background on provenance, a
+ comprehensive overview of requirements, use cases, prior research, and proposed
vocabularies for provenance are available from the
- <a href="http://www.w3.org/2005/Incubator/prov/XGR-prov/">Final Report of the W3C Provenance Incubator Group</a>.
- The document contains three general scenarios
+ <a href="http://www.w3.org/2005/Incubator/prov/XGR-prov/">Final Report of the <acronym title="World Wide Web Consortium">W3C</acronym> Provenance Incubator Group</a>.
+ That document contains three general scenarios
that may help identify the provenance aspects of your planned applications and
help plan the design of your provenance system.
</p>
<p>
+ The next section gives an introductory overview of PROV-DM using simple examples.
+ The following section shows how the formal ontology PROV-O can be used to represent the PROV-DM assertions
+ as RDF triples. The document also contains frequently asked questions, and an appendix giving example
+ snippets of the PROV-DM Abstract Syntax Notation (ASN).
For a detailed description of PROV-DM, please refer to the
- <a href="http://dvcs.w3.org/hg/prov/raw-file/default/model/ProvenanceModel.html">PROV Data Model and Abstract Syntax Notation Document</a>.
+ <a href="http://dvcs.w3.org/hg/prov/raw-file/default/model/ProvenanceModel.html">PROV Data Model and Abstract Syntax Notation document</a>.
+ For a detailed description of PROV-O, refer to the
+ <a href="http://dvcs.w3.org/hg/prov/raw-file/default/ontology/ProvenanceFormalModel.html">PROV Ontology Model and Formal Semantics document</a>.
</p>
- </section>
+ </div>
- <section>
- <h2>Intuitive overview of PROV-DM</h2>
+ <div id="intuitive-overview-of-prov-dm" class="section">
+
+<!-- OddPage -->
+<h2><span class="secno">2. </span>Intuitive overview of PROV-DM</h2>
- <p><i>This section provides an intuitive explanation of the concepts in PROV-DM.
- As with the rest of this document, it should be treated as a starting point for
- understanding the model, and not normative in itself. The model specification
- provides the precise definitions and constraints to be followed in using PROV-DM.</i></p>
+ <p>This section provides an intuitive explanation of the concepts in PROV-DM.
+ As with the rest of this document, it should be treated as a starting point for
+ understanding the model, and not normative in itself. The PROV-DM model specification
+ provides precise definitions and constraints to be used.</p>
+ <div class="note">
+ Please note that, as they
+ are being developed in parallel, there will be points at which this document
+ does not yet exactly match the current data model or ontology.
+ </div>
- <section>
- <h3>Entities</h3>
+ <p>
+ The following ER diagram provides a high level overview of the <strong>structure of PROV-DM records</strong>.
+ The diagram is the same that appears in the
+ <a href="http://dvcs.w3.org/hg/prov/raw-file/default/model/ProvenanceModel.html">PROV Data Model and Abstract Syntax Notation document</a>,
+ but note that this primer document only describes some of the terms shown in the diagram.
+ </p>
+
+ <div style="text-align: center;">
+ <img src="overview.png" alt="PROV-DM overview" />
+ </div>
+
+ <div id="entities" class="section">
+ <h3><span class="secno">2.1 </span>Entities</h3>
<p>
- In PROV-DM, the things that you may ask the provenance of are called <i>entities</i>.
- An entity’s provenance may refer to many other entities. For example, a document D is
- an entity whose provenance refers to other entities such as a graph inserted into D,
- the dataset that was used to create that graph, or the author of the document.
+ In PROV-DM, the things that one may ask the provenance of are called <i>entities</i>.
+ Examples of such entities are a web page, a chart, and a spellchecker.
</p>
<p>
- Entities are described and identified by their attributes, may be more
- or less specific, and may be described from different perspectives. For example,
- document D, the second version of document D, and document D as stored on my file system,
+ An entity’s provenance may refer to many other entities. For example, a document D is
+ an entity whose provenance refers to other entities such as a chart inserted into D,
+ the dataset that was used to create that chart, or the author of the document.
+ </p>
+ <p>
+ Entities may be described from different perspectives that may be more or less specific. For example,
+ document D as stored in my file system, the second version of document D after someone edited it,
+ and D as an evolving document,
are three distinct entities for which we may describe the provenance. They
may all be perspectives on the same thing in the world (document D may exist only
in its second version and on my file system), but are <i>characterized</i> in
@@ -188,222 +652,133 @@
so on).
</p>
<p>
- The characterization of an entity means that the provenance assertions
- about the entity are only about the thing when it has those attributes.
- For example, the second version of document D is characterized by being the
- second version, and so assertions about who reviewed that entity apply only
- to the document as it is in its second version. When the document becomes
- the third version, a new entity exists (the third version of D) and the
- provenance assertions about who reviewed the second version do not apply.
+ The characterization of an entity means that the provenance assertions
+ about the entity are only about the thing when it has those attributes.
+ For example, the second version of document D is characterized by being the
+ second version, and so assertions about who reviewed that entity apply only
+ to the document as it is in its second version. When the document becomes
+ the third version, a new entity exists (the third version of D) and the
+ provenance assertions about who reviewed the second version do not apply.
</p>
- </section>
+ </div>
- <section>
- <h3>Activities</h3>
+ <div id="activities" class="section">
+ <h3><span class="secno">2.2 </span>Activities</h3>
<p>
- While entities are static aspects in the world (things), <i>activities</i> are
- dynamic aspects (actions, processes, etc.)
- An activity is something that has either occurred or is still
- taking place. Most importantly, activities are how entities come into
- existence, often making use of previously existing entities to achieve this.
+ Activities are how entities come into
+ existence and how their attributes change to become new entities,
+ often making use of previously existing entities to achieve this.
For example, if the second version of document D was generated
by a translation from the first version of the document in another language,
then this translation is an activity.
+ An activity may have either already occurred or be still
+ taking place when a new entity is generated.
+ While entities are static aspects in the world (things), <i>activities</i> are
+ dynamic aspects (actions, processes, etc.)
</p>
- </section>
+ </div>
- <section>
- <h3>Use and Generation</h3>
+ <div id="use-and-generation" class="section">
+ <h3><span class="secno">2.3 </span>Use and Generation</h3>
<p>
- Every entity is created by an activity, which is called the <i>generation</i> of the entity.
+ Activities <i>generate</i> new entities.
For example, writing a document brings the document into existence, while
revising the document brings a new version into existence.
+ </p>
+ <p>
Activities also make <i>use</i> of entities. For example, revising a document
to fix spelling mistakes uses the original version of the document as well
- as a list of corrections. In PROV-DM, assertions can be made to state that
+ as a list of corrections.
+ </p>
+ <p>
+ Assertions can be made in a provenance record to state that
particular activities used or generated particular entities.
</p>
- </section>
+ </div>
- <section>
- <h3>Agents</h3>
+ <div id="agents" class="section">
+ <h3><span class="secno">2.4 </span>Agents</h3>
<p>
An agent is a type of entity that takes an active role in an activity such
that it can be assigned some degree of responsibility for the activity taking
place. An agent can be a person, a piece of software, or an inanimate object.
- In PROV-DM, agents are a kind of entity, and it is therefore possible to
- associate provenance with agents. Consider a graph displaying some statistics
+ Several agents can be associated with an activity.
+ Consider a chart displaying some statistics
regarding crime rates over time in a linear regression. To represent the
- provenance of a that graph, we could state that the person who created the
- graph was an agent involved in its creation, and that the software used to
- create the graph was also an agent involved in that activity. We
- can also represent the provenance of that software and the agents involved in
- that, such as the vendor of that software.
+ provenance of a that chart, we could state that the person who created the
+ chart was an agent involved in its creation, and that the software used to
+ create the chart was also an agent involved in that activity.
+ </p>
+ <p>
+ Since agents are a kind of entity, it is therefore possible to
+ associate provenance records with the agents themselves.
+ In the running example, we
+ can also represent the provenance of the software used to create the chart, and specify the agents involved in
+ producing that software, such as the vendor.
</p>
- </section>
+ </div>
- <!--section>
- <h3>Accounts</h3>
-
- <p>An intuitive overview of how to think about accounts in PROV-DM.</p>
- </section -->
-
- <section>
- <h3>Roles</h3>
+ <div id="roles" class="section">
+ <h3><span class="secno">2.5 </span>Roles</h3>
<p>
- A role is a description of the function or part an entity
- played in an activity. In PROV-DM data, roles are qualifying, application-specific,
- information about the relationship between an entity and an activity, whether
- that is how an activity used an entity, generated an entity, or was controlled by an agent.
- For example, an agent may play the role of "editor" in an activity that uses
- one entity in the role of "document to be edited" and another in the role of "edits
- to be made", to generate a further entity in the role of "edited document".
+ A <i>role</i> is a description of the function or the part that an entity
+ played in an activity. Roles specify
+ the relationship between an entity and an activity, whether
+ how an activity used an entity or generated an entity. Roles also specify how agents are
+ involved in an activity, qualifying their participation in the activity or
+ specifying what agents controlled it.
+ For example, an agent may play the role of "editor" in an activity that uses
+ one entity in the role of "document to be edited" and another in the role of
+ "addition to be made to the document", to generate a further entity in the role of "edited document".
+ Roles are application specific.
</p>
- <!--p>Roles are intended as an extension point in the model; it is expected users will define and use custom role taxonomies. Role interpretation is application specific.</p -->
- </section>
+
+<!-- p>Roles are intended as an extension point in the model; it is expected users will define and use custom role taxonomies. Role interpretation is application specific.</p -->
- <section>
- <h3>Revisions</h3>
+ </div>
+
+ <div id="revisions-and-derivation" class="section">
+ <h3><span class="secno">2.6 </span>Revisions and Derivation</h3>
<p>
- A single resource, such as a document, may go through multiple revisions
- (also called versions and other comparable terms) over time. Between revisions,
- several changes may have taken place to the resource, each possibly controlled
- by different agents. The result of each revision is, in PROV-DM terms, an entity,
+ A given entity, such as a document, may go through multiple <i>revisions</i>
+ (also called versions and other comparable terms) over time. Between revisions,
+ one or more attributes of the entity may change.
+ The result of each revision is a new entity,
and PROV-DM allows one to relate those entities by making an assertion that
one is a revision of another.
</p>
- </section>
-
- <section>
- <h3>Complementarity</h3>
- <p>
- As described above, entities can be described from different perspectives,
- by being characterized by different attributes. For example, "document D",
- "the second version of document D" and "document D as stored on my filesystem"
- are different entities
- because they are characterized in different ways. However, for some period of time
- they may all refer to the same thing in the world, e.g. for a while the copy of
- D on my filesystem <i>was</i> the second version.
- </p>
- <p>
- In PROV-DM, we say there is <i>complementarity</i> between one entity and another
- if, in some period of time, they have the same or compatible characterization.
- So, both "the second version of document D" and "document D as stored on my filesystem"
- are complements of "document D", because they are both characterized by being
- document D, but with specific additional attributes.
- If, at some point in time, a version of D stored on my filesystem is the second one, then
- "document D as stored on my filesystem" and "the second version of document D" are
- complements of each other.
- </p>
-
- <!-- p>
- Several asserted entities could be characterizing the same thing, in
- particular when entities are asserted by different <em>accounts</em> or over
- different time periods. If two such entities have <em>overlapping
- lifespans</em>, and the first entity have some <em>attributes</em> that
- have not been asserted (and not necessarily always true) for the second entity,
- then the first entity is said to be <em>complementing</em> the second
- entity, that is the first entity helps form a more detailed
- description of the second entity, at least for the duration of the
- overlapping lifespan.
- </p>
- <p>
- In addition, if <code>:A prov:wasComplementOf :B</code>, then of all the
- attributes of the entity <code>:A</code> which can be <em>mapped</em> to
- <em>compatible</em> attributes of <code>:B</code> MUST be <em>matching</em>
- for the continuous duration of the overlap of <code>:A</code> and
- <code>:B</code>'s lifespans.
- It is out of scope for PROV to specify or assert the nature of
- the <em>compatibility mapping</em> and <em>matching</em>, the exact
- interpretation of these is left to the asserter of
- <code>wasComplementOf</code>
- </p>
- <p>
- If <code>:B</code> also have some attributes which
- are not asserted (or not always true) about <code>:A</code>,
- then this MAY be asserted using the
- inverse relation <code>:B prov:wasComplementOf :A</code>. If two entities
- both complement each other in this manner, both MUST have some
- attributes the other does not have, although those attributes MAY
- not have been asserted in the provenance. Note that the
- <em>lack</em> of such an inverse assertion does not neccessarily
- mean that <code>:B</code> did not have any additional attributes
- for <code>:A</code> in the timespan, only that this has not
- been asserted.
- </p>
- <p>
- In the simplest case, both entites are described using the same
- attributes, in which case <em>matching</em> means the values SHOULD
- literally be the same (matching by identity). On the other hand an
- attribute like <code>ex1:speed_in_mph</code> can be <em>mapped</em> to
- a compatible <code>ex2:speed_in_kmh</code> attribute. Not all
- attributes might be mappable in both directions, for instance
- <code>ex1:city</code> to <code>ex2:country</code>, but not vice
- versa.
- </p>
- <p>
- Note that it is out of scope for PROV to assert or explain any
- mapping of compatible attributes. This is merely a conclusion
- that can be drawn from the assertion that the two entities both
- described the same thing in the overlapping time spans. Also note
- that asserting a complementary relationship does not detail how the
- two entity timespans overlap, this could be anything from
- complete one-to-one match (where all attributes are always true for
- both entities) to merely touching overlaps.
- </p -->
- </section>
-
- <section>
- <h3>Derivation</h3>
-
<p>
When one entity's existence, content, characteristics and so on are
at least partly due to another entity, then we say that the former is
- derived from the latter. For example, one document may contain
- material copied from another, a child is derived from his/her
- ancestors, and a page displayed in a browser is derived from the same
- page on the web server from which it was downloaded, as well as from
- the designer's original sketches of what the page would look like.
+ <i>derived</i> from the latter. For example, one document may contain
+ material copied from another,
+ and a chart is derived from the data that is used to create it.
</p>
<p>
- There are different kinds of derivation expressible in PROV-DM.
- Consider the case of the page in the browser above. It is derived from
- the designer's sketch in the strictest sense, i.e. if the sketch had
- been different so would the page. On the other hand, there are
- entities that are part of the page's history but which did not inform
- the content of that page, i.e. the page would have been the same even
- if the earlier entity changed. For example, on creating the original
- draft of the page, the designer may have included a banner image
- saying "DRAFT - FOR REVIEW ONLY". This banner was not part of the
- sketch, nor part of the published page downloaded to the browser, but
- was part of the page's history, and while not affecting the browsed
- page's content may have been a factor in its existence. Finally, in
- some cases, we may be able to say not only that one entity was derived
- from another, but also how it was derived, i.e. by what activity.
- For example, the page in the browser is derived from the
- page on the web server because a download activity sent the bytes of
- the latter across an HTTP connection to the browser client.
+ There are different kinds of derivation expressible in PROV-DM. For
+ example, the data may be normalized before creating the chart.
+ In PROV-DM terms, we say that the chart <i>was derived from</i>
+ the normalized data and <i>was eventually derived from</i> the original data.
</p>
- <p>
- In PROV-DM terms, we say that the page in the browser <i>was eventually
- derived from</i> the sketch, <i>depended on</i> the banner image, and <i>was derived
- from</i> the page on the web server due to the download activity.
- </p>
- </section>
- </section>
+ </div>
- <section>
- <h2>Worked Examples</h2>
+
+ </div>
+
+ <div id="examples-of-use-of-the-prov-o-ontology" class="section">
+
+<!-- OddPage -->
+<h2><span class="secno">3. </span>Examples of Use of the PROV-O Ontology</h2>
<p>In the following sections, we show how PROV-DM can be used to model
provenance in specific examples.</p>
- <p>We include examples of how the formal ontology
+ <p>We include examples of how the formal ontology PROV-O
can be used to represent the PROV-DM assertions as RDF triples.
These are shown using the Turtle notation. In
the latter depictions, the namespace prefix <b>prov</b> denotes
@@ -411,86 +786,80 @@
denote terms specific to the example.</p>
<p>We also provide a representation of the examples in the Abstract
- Syntax Model used in the conceptual model document. The full ASM data is
+ Syntax Model ASM used in the conceptual model document. The full ASM data
+ for the examples in this section is
included in the appendix.</p>
- <section>
- <h3>Entities</h3>
+ <div id="entities-1" class="section">
+ <h3><span class="secno">3.1 </span>Entities</h3>
<p>
- An online newspaper publishes an article making using of data (GovData) provided through a government portal, in England.
- The article includes a chart based on GovData, with data values aggregated by
- regions of the country.
+ An online newspaper publishes an article with a chart about crime statistics making using of data (GovData) provided through a government portal.
+ The article includes a chart based on the data, with data values aggregated by
+ geographical regions.
</p>
<p>
- A blogger, Betty, looking at the chart, spots what she thinks to be an error.
- Betty retrieves the provenance of the chart, to determine from where the facts presented derive.
+ A blogger, Betty, looking at the article, spots what she thinks to be an error in the chart.
+ Betty retrieves the provenance record of the article, how it was created.
</p>
- <p>The Prov data includes the assertions:</p>
- <pre class="turtle example">
- ex1:dataSet1 a prov:Entity .
- ex1:regionList1 a prov:Entity .
- ex1:aggregate1 a prov:Entity .
- ex1:chart1 a prov:Entity .
- </pre>
+ <p>Betty would find the following assertions about entities in the provenance record:</p>
+ <pre class="turtle example">ex1:newspaper1 a prov:Entity .
+ex1:article1 a prov:Entity .
+ex1:regionList1 a prov:Entity .
+ex1:aggregate1 a prov:Entity .
+ex1:chart1 a prov:Entity .</pre>
<p>
- These statements, in order, assert that the original data set is an entity (<code>ex1:dataSet1</code>),
- the list of regions
- (<code>ex1:regionList1</code>) is an entity, the data aggregated by region is an entity (<code>ex1:aggregate1</code>),
- and the chart (<code>ex1:chart1</code>) is an entity.
+ These statements, in order, assert that there is a newspaper (<code>ex1:newspaper1</code>) and an article (<code>ex1:article1</code>),
+ that the original data set is an entity (<code>ex1:dataSet1</code>),
+ there is a list of regions
+ (<code>ex1:regionList1</code>) that is an entity, that the data aggregated by region is an entity (<code>ex1:aggregate1</code>),
+ and that the chart (<code>ex1:chart1</code>) is an entity.
</p>
- </section>
+ </div>
- <section>
- <h3>Activities</h3>
+ <div id="activities-1" class="section">
+ <h3><span class="secno">3.2 </span>Activities</h3>
<p>
- Further, the Prov data asserts that there was
+ Further, the provenance record asserts that there was
an activity (<code>ex1:compiled</code>) denoting the compilation of the
chart from the data set.
</p>
- <pre class="turtle example">
- ex1:compiled a prov:Activity .
- </pre>
+ <pre class="turtle example">ex1:compiled a prov:Activity .</pre>
<p>
- The provenance also includes reference to the steps involved in compilation,
- aggregating the data by region and generating the chart graphic.
+ The provenance record also includes reference to the more specific steps involved in this compilation,
+ which are first aggregating the data by region and then generating the chart graphic.
</p>
- <pre class="turtle example">
- ex1:aggregated a prov:Activity .
- ex1:illustrated a prov:Activity .
- </pre>
- </section>
+ <pre class="turtle example">ex1:aggregated a prov:Activity .
+ex1:illustrated a prov:Activity .</pre>
+ </div>
- <section>
- <h3>Use and Generation</h3>
+ <div id="use-and-generation-1" class="section">
+ <h3><span class="secno">3.3 </span>Use and Generation</h3>
<p>
- Finally, the Prov data asserts the key events that connected the above
+ Finally, the provenance record asserts the key relations among the above
entities and activities, i.e. the use of an entity by an activity,
or the generation of an entity by an activity.
</p>
<p>
- For example, the data below states that the aggregation activity
- (<code>ex1:aggregated</code>) used the data set, that it used the list of
+ For example, the assertions below state that the aggregation activity
+ (<code>ex1:aggregated</code>) used the original data set, that it used the list of
regions, and that the aggregated data was generated by this activity.
</p>
- <pre class="turtle example">
- ex1:aggregated prov:used ex1:dataSet1 ;
- prov:used ex1:regionList1 .
- ex1:aggregate1 prov:wasGeneratedBy ex1:aggregated .
- </pre>
+ <pre class="turtle example">ex1:aggregated prov:used ex1:dataSet1 ;
+ prov:used ex1:regionList1 .
+ex1:aggregate1 prov:wasGeneratedBy ex1:aggregated .</pre>
<p>
Similarly, the chart graphic creation activity (<code>ex1:illustrated</code>)
used the aggregated data, and the chart was generated by this activity.
</p>
- <pre class="turtle example">
- ex1:illustrated prov:used ex1:aggregate1 .
- ex1:chart1 prov:wasGeneratedBy ex1:illustrated .
- </pre>
+ <pre class="turtle example">ex1:illustrated prov:used ex1:aggregate1 .
+ex1:chart1 prov:wasGeneratedBy ex1:illustrated .</pre>
- <!-- p>
+
+<!-- p>
For example, the provenance declares the event (of type <code>prov:Usage</code>)
where the aggregation activity used the GovData data set, and the event
(of type <code>prov:Generation</code>) where the same activity generated
@@ -521,52 +890,40 @@
ex1:illustrated prov:qualifiedGeneration ex1:chart1Generation .
ex1:aggregate1Usage prov:entity ex1:aggregate1 .
ex1:chart1Generation prov:entity ex1:chart1 .
- </pre -->
+ </pre>
<p>
From this information Betty can see that
the mistake could have been in the original data set or else was introduced
in the compilation activity, and sets out to discover which.
</p>
+ </p -->
- </section>
- <section>
- <h3>Agents</h3>
+ </div>
+
+ <div id="agents-1" class="section">
+ <h3><span class="secno">3.4 </span>Agents</h3>
<p>
- Digging deeper, Betty wants to know who compiled the chart. Betty sees
- that both the aggregation and chart creation activities were controlled
- by the Derek.
+ Digging deeper, Betty wants to know who compiled the chart.
+ Betty sees that Derek was involved in both the aggregation and
+ chart creation activities:
</p>
- <pre class="turtle example">
- ex1:aggregated prov:wasControlledBy ex1:derek .
- ex1:illustrated prov:wasControlledBy ex1:derek .
- </pre>
+ <pre class="turtle example">ex1:aggregated prov:wasControlledBy ex1:derek .
+ex1:illustrated prov:wasControlledBy ex1:derek .</pre>
<p>
The record for Derek provides the
following information, of which the first line is a PROV-O statement that
- Derek is a (PROV-DM) agent.
+ Derek is an agent, followed by statements about general properties of Derek.
</p>
- <pre class="turtle example">
- ex1:derek a prov:Agent ;
- a foaf:Person ;
- foaf:givenName "Derek"^^xsd:string ;
- foaf:mbox <mailto:dererk@example.org> .
- </pre>
- </section>
+ <pre class="turtle example">ex1:derek a prov:Agent ;
+ a foaf:Person ;
+ foaf:givenName "Derek"^^xsd:string ;
+ foaf:mbox <mailto:dererk@example.org> .</pre>
+ </div>
- <!-- section>
- <h3>Accounts</h3>
-
- <p><i>Suggested example:</i> The analyst provides his own record of how he compiled GovData to create
- the chart, which provides more detail than in the newspaper's provenance data.
- Specifically, the analysts account separates compilation into two stages: aggregating
- data by region and then producing the graphic. Therefore, there are two separate
- accounts of the same events.</p>
- </section -->
-
- <section>
- <h3>Roles</h3>
+ <div id="roles-1" class="section">
+ <h3><span class="secno">3.5 </span>Roles</h3>
<p>
For Betty to understand where the error lies, she needs to have more detailed
@@ -579,296 +936,116 @@
should be aggregated.
</p>
<p>
- The above information is described as roles in the provenance data. The aggregation
+ The above information is described as roles in the provenance records. The aggregation
activity involved entities in four roles: the data to be aggregated (<code>ex1:dataToAggregate</code>),
the regions to aggregate by (<code>ex1:regionsToAggregateBy</code>), the
resulting aggregated data (<code>ex1:aggregatedData</code>), and the
analyst doing the aggregation (<code>ex1:analyst</code>).
</p>
- <pre class="turtle example">
- ex1:dataToAggregate a prov:Role .
- ex1:regionsToAggregateBy a prov:Role .
- ex1:aggregatedData a prov:Role .
- ex1:analyst a prov:Role .
- </pre>
+ <pre class="turtle example">ex1:dataToAggregate a prov:Role .
+ex1:regionsToAggregateBy a prov:Role .
+ex1:aggregatedData a prov:Role .
+ex1:analyst a prov:Role .</pre>
<p>
In addition to the simple facts that the aggregation activity used, generated or
was controlled by entities/agents as described in the sections above, the
- provenance data contains more details of <i>how</i> these entities and agents
- were involved, i.e. the roles they played. For example, the data below states
+ provenance record contains more details of <i>how</i> these entities and agents
+ were involved, i.e. the roles they played. For example, the assertions below state
that the aggregation activity (<code>ex1:aggregated</code>) included the usage
- of the GovData data set (<code>ex1:dataSet1</code>) in the role of the data
+ of the government data set (<code>ex1:dataSet1</code>) in the role of the data
to be aggregated (<code>ex1:dataToAggregate</code>).
</p>
- <pre class="turtle example">
- ex1:aggregated prov:hadQualifiedUsage [ a prov:Usage ;
- prov:hadQualifiedEntity ex1:dataSet1 ;
- prov:hadRole ex1:dataToAggregate ] .
- </pre>
+ <pre class="turtle example">ex1:aggregated prov:hadQualifiedUsage [ a prov:Usage ;
+ prov:hadQualifiedEntity ex1:dataSet1 ;
+ prov:hadRole ex1:dataToAggregate ] .</pre>
<p>
This can then be distinguished from the same activity's usage of the list of
regions because the roles played are different.
</p>
- <pre class="turtle example">
- ex1:aggregated prov:hadQualifiedUsage [ a prov:Usage ;
- prov:hadQualifiedEntity ex1:regionList1 ;
- prov:hadRole ex1:regionsToAggregateBy ] .
- </pre>
+ <pre class="turtle example">ex1:aggregated prov:hadQualifiedUsage [ a prov:Usage ;
+ prov:hadQualifiedEntity ex1:regionList1 ;
+ prov:hadRole ex1:regionsToAggregateBy ] .</pre>
<p>
Similarly, the provenance includes assertions that the same activity was
controlled in a particular way (<code>ex1:analyst</code>) by Derek, and that
the entity <code>ex1:aggregate1</code> took the role of the aggregated
data in what the activity generated.
</p>
- <pre class="turtle example">
- ex1:aggregated
- prov:hadQualifiedControl [ a prov:Control ;
- prov:hadQualifiedEntity ex1:derek ;
- prov:hadRole ex1:analyst
- ] ;
- prov:hadQualifiedGeneration [ a prov:Generation ;
- prov:hadQualifiedEntity ex1:aggregate1 ;
- prov:hadRole ex1:aggregatedData
- ] .
- </pre>
- </section>
+ <pre class="turtle example">ex1:aggregated
+ prov:hadQualifiedControl [ a prov:Control ;
+ prov:hadQualifiedEntity ex1:derek ;
+ prov:hadRole ex1:analyst
+ ] ;
+ prov:hadQualifiedGeneration [ a prov:Generation ;
+ prov:hadQualifiedEntity ex1:aggregate1 ;
+ prov:hadRole ex1:aggregatedData
+ ] .</pre>
+ </div>
- <section>
- <h3>Revision</h3>
+ <div id="revision-and-derivation" class="section">
+ <h3><span class="secno">3.6 </span>Revision and Derivation</h3>
<p>
After looking at the detail of the compilation activity, there appears
- to be nothing wrong, so Betty concludes the error is in GovData. She contacts
+ to be nothing wrong, so Betty concludes the error is in the government dataset.
+ She looks at the characterization of the dataset <code>ex1:dataSet1</code>,
+ and sees that it is missing data from one of the zipcodes in the area. She contacts
the government, and a new version of GovData is created, declared to be the
- next revision of the data by Edith. The provenance data now includes a statement
- that the new data set, <code>ex1:dataSet2</code> is a new revision of the
+ next revision of the data by Edith. The provenance record of this new dataset,
+ <code>ex1:dataSet2</code>, states that it is a revision of the
old data set, <code>ex1:dataSet1</code>.
</p>
- <pre class="turtle example">
- ex1:dataSet2 prov:wasRevisionOf ex1:dataSet1 .
- </pre>
- </section>
-
- <section>
- <h3>Complementarity</h3>
-
- <p>Betty lets Derek know that a new revision of the data set exists,
- and he looks at the provenance of the new data to understand what he needs to
- re-analyze. </p>
- <p>In addition to specifying that
- <code>ex1:dataSet2</code> is a new revision of
- <code>ex1:dataSet1</code>, the provenance from DataGov also
- asserts that both of these entities were a <em>complement of</em>
- another entity <code>ex1:dataSet</code>.
- </p>
- <pre class="turtle example">
- ex1:dataSet1 prov:wasComplementOf ex1:dataSet .
- ex1:dataSet2 prov:wasComplementOf ex1:dataSet .
- </pre>
- <!--
- <pre class="asn example">
- wasComplementOf(ex1:dataSet1, ex1:dataSet)
- wasComplementOf(ex1:dataSet2, ex1:dataSet)
- </pre>
- -->
- <p>
- This assertion means that <code>ex1:dataSet1</code> at some point shared
- its characterizing attributes with <code>ex1:dataSet</code>, and the same for
- <code>ex2:dataSet2</code>. Thus the <em>entity</em>
- <code>ex1:dataSet1</code> did at some point represent the same
- thing as characterized by the entity <code>ex1:dataSet</code>. The same is
- true for <code>ex1:dataSet2</code>, though not necessarily at the
- same point in time.
- </p>
- <!-- p>
- The term <em>was complement of</em> here means that the
- <code>ex1:dataSet1</code>
- provide additional details that adds to the details of
- <code>ex1:dataSet</code> (complementing it), and that both of these
- entities represented the same thing.
- Characterizing attributes of <code>ex1:dataSet</code> are from this
- asserted to have been <em>compatible</em> with the properties of
- <code>ex1:dataSet1</code> and <code>ex1:dataSet2</code>.
- <em>Compatible</em> here means that some kind of mapping can be
- established between the attributes, they don't neccessarily have to
- match directly.
- </p -->
- <p>
- Derek then looks at the characterization of the generalized data set
- (<code>ex1:dataSet</code>) to find the attributes shared with the first
- and second versions of the data set. The assertions below give the generalized
- data set's attributes: it is of type <code>ex1:DataSet</code>, it covers
- three named regions, it was created by <code>ex1:DataGov</code>, and
- has a given title.
- </p>
- <pre class="example turtle">
- ex1:dataSet a ex1:DataSet ;
- ex1:regions ( ex1:North, ex1:NorthWest, ex1:East ) ;
- dc:creator ex1:DataGov ;
- dc:title "Regional incidence dataset 2011" .
- </pre>
- <p>
- As <code>ex1:dataSet1</code> and <code>ex1:dataSet2</code> complement
- <code>ex1:dataSet</code>,
- Derek can deduce from the above attributes that both the former had
- these same attributes at some point, i.e.
- the creator <code>ex1:DataGov</code> and so on. Derek compares the above
- assertions to the
- attributes of <code>ex1:dataSet1</code>.
- </p>
- <pre class="example turtle">
- ex1:dataSet1 a ex1:DataSet ;
- ex1:postCodes ( "N1", "N2", "NW1", "E1", "E2" ) ;
- ex1:totalIncidents 141 ;
- dc:creator ex1:DataGov ;
- dc:title "Regional incidence dataset 2011" .
- </pre>
+ <pre class="turtle example">ex1:dataSet2 prov:wasRevisionOf ex1:dataSet1 .</pre>
<p>
- Shared characterizing attributes are not necessarily represented in
- the serialized assertions of different entities. For example, the creator
- and title are exactly the same for <code>ex1:dataSet</code> and <code>ex1:dataSet1</code>,
- but the regions covered by the data set are described in a different way:
- "regions" for <code>ex1:dataSet</code> and "postCodes" for <code>ex1:dataSet1</code>.
- Whether these are equivalent is a domain-specific judgment.
- We can also see that, while <code>ex1:dataSet1</code> complements <code>ex1:dataSet</code>,
- the inverse is not true. <code>ex1:dataSet1</code> is more specific, because
- it has a "totalIncidents" attribute specific to that version of the data set.
- </p>
- <!-- p>
- Derek sees that the creator and title are directly mappable and
- equal between these entities. He also knows (from his region
- aggregation method) that the <code>ex1:postCodes</code> <code>N1</code> and
- <code>N2</code> are in the
- region <code>ex1:North</code>, and so on, and can confirm that although
- this regional characterisation of the data is not expressed
- using the same attributes in the two entities, they are <em>compatible</em>.
- </p>
- <p>Derek notes that <code>ex1:totalIncidents</code> is not stated
- for <code>ex1:dataSet</code>, and not mappable to any of the
- other existing attributes. Thus this could be one of the
- complementing attributes that makes <code>ex1:dataSet1</code>
- more specific than <code>ex1:dataSet</code>.
-
- Derek can from the assertion <code>ex1:dataSet1
- prov:wasComplementOf ex1:dataSet</code>
- see that <code>ex1:dataSet</code>
- did have 141 incidents when its characterization interval
- overlapped that of <code>ex1:dataSet1</code>, but not neccessarily
- throughout its lifetime. Note that in this example the provenance
- assertions are not providing any direct description of the
- characterization interval of the entities.
- </p>
- <p>
- Due to the open world assumption (more
- information might be added later) he can not conclude
- from this alone that <code>ex1:dataSet</code> at any point did
- <strong>not</strong> have 141 incidents. He therefore does not know
- for sure that <code>ex1:totalIncidents</code> is a complementing
- attribute which <code>ex1:dataSet</code> does not have in its
- characterisation.
- </p>
- <p>
- Derek finally compares the newer revision
- <code>ex1:dataSet2</code> with
- <code>ex1:dataSet</code>:
- </p>
- <pre class="example turtle">
- ex1:dataSet2 a ex1:DataSet ;
- ex1:postCodes ( "N1", "N2", "NW1", "NW2", "E1", "E2" ) ;
- ex1:totalIncidents 158 ;
- dc:creator ex1:DataGov ;
- dc:title "Regional incidence dataset 2011" .
- </pre>
- <p>
- In this revision, the new postcode <kbd>NW2</kbd> appears, this is still
- <em>compatible</em> with the region <code>ex1:NorthWest</code>
- of <code>ex1:dataSet</code>
- On the other hand, the attribute <code>prov:totalIncidents</code> have gone up to 158.
- </p>
- <p>
- From the <code>prov:wasComplementOf</code> assertion Derek knows that
- <code>ex1:dataSet2</code> also provides additional attributes for
- <code>ex1:dataSet</code>, but because the total incidents can't
- both be 141 and 158, the attribute <code>ex1:totalIncidents</code>
- is a complementing attribute, and changes over the
- characterisation interval (lifespan) of <code>ex1:dataSet</code>,
- and is thus not one of its characterising attributes. He also now
- knows that <code>ex1:dataSet</code> is a common characterisation
- of the dataset that spans (parts of) both revisions. It has
- however not been asserted explicitly that the
- <code>ex1:dataSet</code> is a somewhat more general
- characterisation, just that it allows mutability on the
- <code>prov:totalIncidents</code> attribute and overlapped (parts
- of) the timespans of the two revisions.
- </p>
- <p>
- From this Derek concludes that he can still use the regions North,
- North West and East in the diagram layout, but as the
- <code>ex1:totalIncidents</code> differ, something in the
- raw data has changed. He can't from this provenance assertion
- alone tell if that is merely from the addition of the post code
- NW2, or if data for the other post codes have changed as well.
- Derek decides to redo the aggregation by region using
- <code>ex1:dataSet2</code> and regenerate the
- graphics using the same layout.
- </p -->
- </section>
-
- <section>
- <h3>Derivation</h3>
-
- <p>
- Derek creates a new chart based on the revised data,
+ Derek notices that there is a new dataset available and creates a new chart based on the revised data,
using the same compilation activity as before. Betty checks the article again at a
later point, and wants to know if it is based on the old or new GovData.
- She sees three new assertions about derivation in the provenance data, plus
+ She sees two new assertions about derivation in the provenance data, plus
an assertion about how the new chart was generated.
</p>
- <pre class="example turtle">
- ex1:chart2 prov:dependedOn ex1:dataSet2 .
- ex1:chart2 prov:wasEventuallyDerivedFrom ex1:dataSet2 .
- ex1:chart2 prov:wasDerivedFrom ex1:dataSet2 .
- ex1:chart2 prov:wasGeneratedBy ex1:compiled2 .
- </pre>
+ <pre class="example turtle">ex1:chart2 prov:wasEventuallyDerivedFrom ex1:dataSet2 .
+ex1:chart2 prov:wasDerivedFrom ex1:dataSet2 .
+ex1:chart2 prov:wasGeneratedBy ex1:compiled2 .</pre>
<p>
- She interprets these assertions as follows. The first says that the new chart included,
- somewhere in the history of its creation, the revised data set.
- The second says further that the new chart is as it because of the revised
+ She interprets these assertions as follows. The first says that the new chart
+ is as it because of the revised
data set, i.e. there is an explicit influence of the data on the chart.
Finally, the third and fourth assertions together say further that it was
the activity <code>ex1:compiled2</code> that derived the new chart
from the revised data set.
</p>
- </section>
- </section>
+ </div>
+ </div>
- <section>
- <h2>Frequently asked questions</h2>
- </section>
+ <div id="frequently-asked-questions" class="section">
+
+<!-- OddPage -->
+<h2><span class="secno">4. </span>Frequently asked questions</h2>
+ </div>
- <section class="appendix">
- <h2>Abstract Syntax Notation for Examples</h2>
+ <div class="appendix section" id="abstract-syntax-notation-for-examples">
+
+<!-- OddPage -->
+<h2><span class="secno">A. </span>Abstract Syntax Notation for Examples</h2>
<p>
Below we give translations of the working example snippets into the PROV-DM
abstract syntax notation (ASN).
</p>
- <section>
- <h3>Entities</h3>
- <pre class="example asn">
- entity(ex1:dataSet1).
- entity(ex1:regionList1).
- entity(ex1:aggregate1).
- entity(ex1:chart1).
- </pre>
- </section>
+ <div id="entities-2" class="section">
+ <h3><span class="secno">A.1 </span>Entities</h3>
+ <pre class="example asn">entity(ex1:dataSet1).
+entity(ex1:regionList1).
+entity(ex1:aggregate1).
+entity(ex1:chart1).</pre>
+ </div>
+
+ <div id="activities-2" class="section">
+ <h3><span class="secno">A.2 </span>Activities</h3>
+ <pre class="example asn">activity(ex1:compiled).
+activity(ex1:aggregated).
+activity(ex1:illustrated).</pre>
- <section>
- <h3>Activities</h3>
- <pre class="example asn">
- activity(ex1:compiled,compilation_step).
- activity(ex1:aggregated).
- activity(ex1:illustrated).
- </pre>
+<!--
<p>
In the first assertion above, 'compilation_step' is an optional reference to the 'recipe' that describes
what the 'compiled' activity did. The interpretation of its name,
@@ -877,88 +1054,70 @@
<p>
In the second assertion, optional 'recipe' has been omitted.
</p>
- <!--PM comment: here readers will be confused by the processExecutiion / activity disconnect!
- also this does not show start/end times, optional attributes. At least one example would be useful-->
- </section>
-
- <section>
- <h3>Use and Generation</h3>
- <pre class="example asn">
- used(ex1:aggregated, ex1:dataSet1).
- used(ex1:aggregated, ex1:regionList1).
- wasGeneratedBy(ex1:aggregate1, ex1:aggregated).
+ -->
- used(ex1:illustrated, ex1:aggregate1).
- wasGeneratedBy(ex1:chart1, ex1:illustrated).
- </pre>
- </section>
+
+<!-- PM comment: here readers will be confused by the processExecutiion / activity disconnect!
+ also this does not show start/end times, optional attributes. At least one example would be useful -->
- <section>
- <h3>Agents</h3>
- <pre class="example asn">
- entity(ex1:derek, [ type="foaf:Person", foaf:givenName = "Derek",
- foaf:mbox= "<mailto:derek@example.org>"]).
- agent(ex1:derek).
+ </div>
- wasControlledBy(ex1:aggregated, ex1:derek).
- wasControlledBy(ex1:illustrated, ex1:derek).
- </pre>
- </section>
+ <div id="use-and-generation-2" class="section">
+ <h3><span class="secno">A.3 </span>Use and Generation</h3>
+ <pre class="example asn">used(ex1:aggregated, ex1:dataSet1).
+used(ex1:aggregated, ex1:regionList1).
+wasGeneratedBy(ex1:aggregate1, ex1:aggregated).
- <section>
- <h3>Roles</h3>
+used(ex1:illustrated, ex1:aggregate1).
+wasGeneratedBy(ex1:chart1, ex1:illustrated).</pre>
+ </div>
+
+ <div id="agents-2" class="section">
+ <h3><span class="secno">A.4 </span>Agents</h3>
+ <pre class="example asn">entity(ex1:derek, [ type="foaf:Person", foaf:givenName = "Derek",
+ foaf:mbox= "<mailto:derek@example.org>"]).
+agent(ex1:derek).
+
+wasControlledBy(ex1:aggregated, ex1:derek).
+wasControlledBy(ex1:illustrated, ex1:derek).</pre>
+ </div>
+
+ <div id="roles-2" class="section">
+ <h3><span class="secno">A.5 </span>Roles</h3>
<p>
Roles are not declared directly in PROV-DM, rather they are attributes of
relations. Thus, the entire Turtle example in sec. 3.5 is rendered as follows:
</p>
- <pre class="example asn">
- used(ex1:aggregated, ex1:dataSet1, [ prov:role = "dataToAggregate"]).
- used(ex1:aggregated, ex1:regionList1, [ prov:role = "regionsToAggregteBy"]).
- </pre>
+ <pre class="example asn">used(ex1:aggregated, ex1:dataSet1, [ prov:role = "dataToAggregate"]).
+used(ex1:aggregated, ex1:regionList1, [ prov:role = "regionsToAggregteBy"]).</pre>
<p>
- In the first assertion above, note that this adds a "role" attribute to the first 'used' assertion of Ex. 3.
- Similarly in the second assertion, we have added a "role" attribute to the second 'used' assertion of Ex. 3.
+ In the first assertion above, note that this adds a "role" attribute to the first 'used' assertion of Ex. 3.
+ Similarly in the second assertion, we have added a "role" attribute to the second 'used' assertion of Ex. 3.
</p>
- </section>
-
- <section>
- <h3>Revision</h3>
- <pre class="example asn">
- wasRevisionOf(ex1:dataSet2, ex1:dataSet1).
- </pre>
- </section>
+ </div>
- <section>
- <h3>Complementarity</h3>
- <pre class="example asn">
- entity(ex1:dataSet, [ type="ex1:DataSet", ex1:regions ="(ex1:North, ex1:NorthWest, ex1:East)",
- dc:creator="ex1:DataGov", dc:title="Regional incidence dataset 2011" ]).
-
- wasComplementOf(dataSet1, dataSet).
- wasComplementOf(dataSet2, dataSet).
+ <div id="revision-and-derivation-1" class="section">
+ <h3><span class="secno">A.6 </span>Revision and Derivation</h3>
+ <pre class="example asn">wasRevisionOf(ex1:dataSet2, ex1:dataSet1).</pre>
- entity(ex1:dataSet1, [ type="ex1:DataSet", ex1:postCodes="( 'N1', 'N2', 'NW1', 'E1', 'E2' ) ",
- ex1:totalIncidents = "141", dc:creator = " ex1:DataGov",
- dc:title = "Regional incidence dataset 2011" ]).
- </pre>
- </section>
+ <pre class="example asn">wasEventuallyDerivedFrom(ex1:chart2, ex1:dataSet2).
+wasDerivedFrom(ex1:chart2, ex1:dataSet2).
+wasGeneratedBy(ex1:chart2, ex1:compiled2).</pre>
+ </div>
+ </div>
- <section>
- <h3>Derivation</h3>
- <pre class="example asn">
- dependedOn(ex1:chart2, ex1:dataSet2).
- wasEventuallyDerivedFrom(ex1:chart2, ex1:dataSet2).
- wasDerivedFrom(ex1:chart2, ex1:dataSet2).
- wasGeneratedBy(ex1:chart2, ex1:compiled2).
- </pre>
- </section>
- </section>
-
- <section class="appendix">
- <h2>Acknowledgements</h2>
+ <div class="appendix section" id="acknowledgements">
+
+<!-- OddPage -->
+<h2><span class="secno">B. </span>Acknowledgements</h2>
<p>
WG membership to be listed here.
</p>
- </section>
+ </div>
- </body></html>
+
+<div id="references" class="appendix section">
+<!-- OddPage -->
+<h2><span class="secno">C. </span>References</h2><div id="normative-references" class="section"><h3><span class="secno">C.1 </span>Normative references</h3><p>No normative references.</p></div><div id="informative-references" class="section"><h3><span class="secno">C.2 </span>Informative references</h3><dl class="bibliography"><dt id="bib-PROV-DM">[PROV-DM]</dt><dd>Luc Moreau, Paolo Missier<a href="http://www.w3.org/TR/2011/WD-prov-dm-20111215/"><cite>The PROV Data Model and Abstract Syntax Notation</cite></a>. 15 December 2011. W3C Working Draft. (Work in progress.) URL: <a href="http://www.w3.org/TR/2011/WD-prov-dm-20111215/">http://www.w3.org/TR/2011/WD-prov-dm-20111215/</a>
+</dd><dt id="bib-PROV-O">[PROV-O]</dt><dd>Satya Sahoo, Deborah McGuinness<a href="http://www.w3.org/TR/2011/WD-prov-o-20111213/"><cite>The PROV Ontology: Model and Formal Semantics</cite></a>. 13 December 2011. W3C Working Draft. (Work in progress.) URL: <a href="http://www.w3.org/TR/2011/WD-prov-o-20111213/">http://www.w3.org/TR/2011/WD-prov-o-20111213</a>
+</dd></dl></div></div></body></html>
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