Generated entailment and validation results and serialisations

definitions/docs/docs.jsonld

@@ -12083,7 +12083,7 @@
       "URI": "http://www.opengis.net/doc/DP/vocab-ssn",
       "identifier": "16-079",
       "URL": "https://www.w3.org/TR/vocab-ssn/",
-      "type": "doctype:dp",
+      "type": "doctype:d-dp",
       "creator": "Armin Haller, Krzysztof Janowicz, Simon Cox, Danh Le Phuoc, Kerry Taylor, Maxime Lefran\u00e7ois",
       "contributor": null,
       "description": "The Semantic Sensor Network (SSN) ontology is an ontology for describing sensors and their observations, the involved procedures, the studied features of interest, the samples used to do so, and the observed properties, as well as actuators. SSN follows a horizontal and vertical modularization architecture by including a lightweight but self-contained core ontology called SOSA (Sensor, Observation, Sample, and Actuator) for its elementary classes and properties. With their different scope and different degrees of axiomatization, SSN and SOSA are able to support a wide range of applications and use cases, including satellite imagery, large-scale scientific monitoring, industrial and household infrastructures, social sensing, citizen science, observation-driven ontology engineering, and the Web of Things. Both ontologies are described below, and examples of their usage are given.\r\n\r\nThe namespace for SSN terms is http://www.w3.org/ns/ssn/. \r\nThe namespace for SOSA terms is http://www.w3.org/ns/sosa/.\r\n\r\nThe suggested prefix for the SSN namespace is ssn.\r\nThe suggested prefix for the SOSA namespace is sosa.\r\n\r\nThe SSN ontology is available at http://www.w3.org/ns/ssn/. \r\nThe SOSA ontology is available at http://www.w3.org/ns/sosa/.",
@@ -12100,7 +12100,7 @@
       "hasFormat": null,
       "extent": null,
       "@type": "skos:Concept",
-      "broader": "doctype:dp",
+      "broader": "doctype:d-dp",
       "inScheme": "http://www.opengis.net/def/docs",
       "notation": "16-079"
     },
@@ -15554,36 +15554,6 @@
       "inScheme": "http://www.opengis.net/def/docs",
       "notation": "12-026"
     },
-    {
-      "title": "OGC Sensor Web Enablement: Overview and High Level Architecture",
-      "alternative": [
-        "OGC Sensor Web Enablement: Overview and High Level Architecture",
-        "07-165r1"
-      ],
-      "URI": "",
-      "identifier": "07-165r1",
-      "URL": "https://docs.ogc.org/wp/07-165r1/",
-      "type": "doctype:techpaper",
-      "creator": "Mike Botts, George Percivall, Carl Reed, John Davidson",
-      "contributor": null,
-      "description": "A sensor network is a computer accessible network of many, spatially distributed devices using sensors to monitor conditions at different locations, such as temperature, sound, vibration, pressure, motion or pollutants[1]. A Sensor Web refers to web accessible sensor networks and archived sensor data that can be discovered and accessed using standard protocols and application program interfaces (APIs).",
-      "publisher": "Open Geospatial Consortium",
-      "language": "English",
-      "license": null,
-      "source": null,
-      "rights": "",
-      "isPartOf": null,
-      "date": "2013-04-02",
-      "dateAccepted": null,
-      "dateSubmitted": null,
-      "format": null,
-      "hasFormat": null,
-      "extent": null,
-      "@type": "skos:Concept",
-      "broader": "doctype:techpaper",
-      "inScheme": "http://www.opengis.net/def/docs",
-      "notation": "07-165r1"
-    },
     {
       "title": "The Open Geospatial Consortium and EarthCube",
       "alternative": [
@@ -15614,66 +15584,6 @@
       "inScheme": "http://www.opengis.net/def/docs",
       "notation": "11-159"
     },
-    {
-      "title": "OGC Smart Cities Spatial Information Framework",
-      "alternative": [
-        "OGC Smart Cities Spatial Information Framework",
-        "14-115"
-      ],
-      "URI": "",
-      "identifier": "14-115",
-      "URL": "https://portal.ogc.org/files/?artifact_id=61188",
-      "type": "doctype:techpaper",
-      "creator": "George Percivall",
-      "contributor": null,
-      "description": "This White Paper supports development of a Smart Cities Spatial Information Framework\r\nbased on these themes:\r\nK Smart Cities are high-density generators of innovation and information.\r\nK Location information is a major enabler of Smart City technology benefits.\r\nK Benefits of smart technology must be judged by benefits to residents.\r\nK Reuse and repurpose is vital to urban resilience\r\nK Open standards are needed for interoperability, efficiency, application innovation\r\nand cost effectiveness.\r\nDiscussion of these themes and this white paper will occur at the OGC Smart Cities\r\nLocation Powers Summit in Tokyo on December 2, 2014,\r\n1 the co-located OGC Technical\r\nCommittee meeting, and in many other forums in the future. As described in this paper,\r\nthere are many standards initiatives that focus on Smart Cities. Most Smart Cities use\r\ncases in some way involve indoor and/or outdoor location, and thus communication about\r\nlocation is an issue that cuts across the work programs most of the standards\r\norganizations that are involved with Smart Cities.\r\nThis white paper builds on the OGC - Directions Magazine webinar: \u201cMaking Location\r\nWork for Smart Cities \u2013 the Case for Location Standards\u201d2.",
-      "publisher": "Open Geospatial Consortium",
-      "language": "English",
-      "license": null,
-      "source": null,
-      "rights": "",
-      "isPartOf": null,
-      "date": "2015-01-21",
-      "dateAccepted": null,
-      "dateSubmitted": null,
-      "format": null,
-      "hasFormat": null,
-      "extent": null,
-      "@type": "skos:Concept",
-      "broader": "doctype:techpaper",
-      "inScheme": "http://www.opengis.net/def/docs",
-      "notation": "14-115"
-    },
-    {
-      "title": "OGC Information Technology Standards for Sustainable Development",
-      "alternative": [
-        "OGC Information Technology Standards for Sustainable Development",
-        "14-095"
-      ],
-      "URI": "",
-      "identifier": "14-095",
-      "URL": "https://portal.ogc.org/files/?artifact_id=60920",
-      "type": "doctype:techpaper",
-      "creator": "Lance McKee",
-      "contributor": null,
-      "description": "Sustainable development, meeting the needs of the present without compromising the\r\nability of future generations to meet their own needs,1\r\n will be accomplished by\r\nbalancing social, economic and environmental objectives. In this paper the authors\r\nexplain that rigorous standards for communicating environmental data are absolutely\r\nessential to enable social and economic progress in the Age of the Environment2 \u2013 the\r\nAnthropocene Epoch3 \u2013 in which humanity's expanding footprint has become the main\r\ncause of change in the planet's geology, water bodies, atmosphere and biosphere. The\r\nauthors argue for a concerted and ongoing global effort to 1) define data communication\r\nand system interoperability requirements for environmental science, business and policy,\r\nand then 2) develop and implement consensus-derived, free and open environmental\r\nInformation Technology (IT) standards that meet those requirements and that co-evolve\r\nwith the larger IT standards framework and advances in IT.",
-      "publisher": "Open Geospatial Consortium",
-      "language": "English",
-      "license": null,
-      "source": null,
-      "rights": "",
-      "isPartOf": null,
-      "date": "2015-01-23",
-      "dateAccepted": null,
-      "dateSubmitted": null,
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-      "@type": "skos:Concept",
-      "broader": "doctype:techpaper",
-      "inScheme": "http://www.opengis.net/def/docs",
-      "notation": "14-095"
-    },
     {
       "title": "OGC Compliance Overview - Guide for Software Acquisition",
       "alternative": [

definitions/docs/docs.ttl

@@ -4117,22 +4117,18 @@ This document is not an OGC standard.  This document describes how existing spec
 
 <http://www.opengis.net/def/docs/07-165r1> a skos:Concept ;
     dct:created "2013-04-02"^^<xsd:date> ;
-    dct:creator "Carl Reed, Mike Botts, George Percivall, John Davidson",
-        "Mike Botts, George Percivall, Carl Reed, John Davidson" ;
+    dct:creator "Carl Reed, Mike Botts, George Percivall, John Davidson" ;
     na:doctype doctype:techpaper ;
     rdfs:seeAlso <https://docs.ogc.org/wp/07-165r1/> ;
     skos:altLabel "07-165r1"@en,
-        "OGC Sensor Web Enablement: Overview and High Level Architecture"@en,
         "Sensor Web Enablement: Overview And High Level Architecture"@en ;
     skos:broader doctype:techpaper ;
-    skos:definition "A sensor network is a computer accessible network of many, spatially distributed devices using sensors to monitor conditions at different locations, such as temperature, sound, vibration, pressure, motion or pollutants[1]. A Sensor Web refers to web accessible sensor networks and archived sensor data that can be discovered and accessed using standard protocols and application program interfaces (APIs).",
-        """This OGC White Paper provides a high-level overview of and architecture for the Open Geospatial\r
+    skos:definition """This OGC White Paper provides a high-level overview of and architecture for the Open Geospatial\r
 Consortium (OGC) standards activities that focus on sensors, sensor networks, and a concept called the\r
 “Sensor Web”. This OGC focus area is known as Sensor Web Enablement (SWE).""" ;
     skos:inScheme <http://www.opengis.net/def/docs> ;
     skos:notation "07-165r1"^^na:doc_no ;
-    skos:prefLabel "OGC Sensor Web Enablement: Overview and High Level Architecture"@en,
-        "OGC® Sensor Web Enablement: Overview And High Level Architecture"@en .
+    skos:prefLabel "OGC® Sensor Web Enablement: Overview And High Level Architecture"@en .
 
 <http://www.opengis.net/def/docs/07-166r2> a skos:Concept ;
     dct:created "2008-08-04"^^<xsd:date> ;
@@ -9499,30 +9495,14 @@ Elements of this effort have included:\r
     skos:prefLabel "OGC® Aircraft Access to SWIM (AAtS) Harmonization Project Summary Report"@en .
 
 <http://www.opengis.net/def/docs/14-095> a skos:Concept ;
-    dct:created "2015-01-22"^^<xsd:date>,
-        "2015-01-23"^^<xsd:date> ;
+    dct:created "2015-01-22"^^<xsd:date> ;
     dct:creator "Lance McKee" ;
     na:doctype doctype:techpaper ;
-    rdfs:seeAlso <https://portal.ogc.org/files/60920>,
-        <https://portal.ogc.org/files/?artifact_id=60920> ;
+    rdfs:seeAlso <https://portal.ogc.org/files/60920> ;
     skos:altLabel "14-095"@en,
-        "Information Technology Standards for Sustainable Development"@en,
-        "OGC Information Technology Standards for Sustainable Development"@en ;
+        "Information Technology Standards for Sustainable Development"@en ;
     skos:broader doctype:techpaper ;
-    skos:definition """Sustainable development, meeting the needs of the present without compromising the\r
-ability of future generations to meet their own needs,1\r
- will be accomplished by\r
-balancing social, economic and environmental objectives. In this paper the authors\r
-explain that rigorous standards for communicating environmental data are absolutely\r
-essential to enable social and economic progress in the Age of the Environment2 – the\r
-Anthropocene Epoch3 – in which humanity's expanding footprint has become the main\r
-cause of change in the planet's geology, water bodies, atmosphere and biosphere. The\r
-authors argue for a concerted and ongoing global effort to 1) define data communication\r
-and system interoperability requirements for environmental science, business and policy,\r
-and then 2) develop and implement consensus-derived, free and open environmental\r
-Information Technology (IT) standards that meet those requirements and that co-evolve\r
-with the larger IT standards framework and advances in IT.""",
-        "Sustainable development, meeting the needs of the present without compromising the ability of future generations to meet their own needs,  will be accomplished by balancing social, economic and environmental objectives.  In this paper the authors explain that rigorous standards for communicating environmental data are absolutely essential to enable social and economic progress in the Age of the Environment  – the Anthropocene Epoch  – in which humanity's expanding footprint has become the main cause of change in the planet's geology, water bodies, atmosphere and biosphere. The authors argue for a concerted and ongoing global effort to 1) define data communication and system interoperability requirements for environmental science, business and policy, and then 2) develop and implement consensus-derived, free and open environmental Information Technology (IT) standards that meet those requirements and that co-evolve with the larger IT standards framework and advances in IT." ;
+    skos:definition "Sustainable development, meeting the needs of the present without compromising the ability of future generations to meet their own needs,  will be accomplished by balancing social, economic and environmental objectives.  In this paper the authors explain that rigorous standards for communicating environmental data are absolutely essential to enable social and economic progress in the Age of the Environment  – the Anthropocene Epoch  – in which humanity's expanding footprint has become the main cause of change in the planet's geology, water bodies, atmosphere and biosphere. The authors argue for a concerted and ongoing global effort to 1) define data communication and system interoperability requirements for environmental science, business and policy, and then 2) develop and implement consensus-derived, free and open environmental Information Technology (IT) standards that meet those requirements and that co-evolve with the larger IT standards framework and advances in IT." ;
     skos:inScheme <http://www.opengis.net/def/docs> ;
     skos:notation "14-095"^^na:doc_no ;
     skos:prefLabel "OGC Information Technology Standards for Sustainable Development"@en .
@@ -9607,10 +9587,8 @@ This report describes the software requirements, design, deployments and challen
     dct:created "2015-01-21"^^<xsd:date> ;
     dct:creator "George Percivall" ;
     na:doctype doctype:techpaper ;
-    rdfs:seeAlso <https://portal.ogc.org/files/61188>,
-        <https://portal.ogc.org/files/?artifact_id=61188> ;
+    rdfs:seeAlso <https://portal.ogc.org/files/61188> ;
     skos:altLabel "14-115"@en,
-        "OGC Smart Cities Spatial Information Framework"@en,
         "Smart Cities Spatial Information Framework"@en ;
     skos:broader doctype:techpaper ;
     skos:definition """This White Paper supports development of a Smart Cities Spatial Information Framework\r
@@ -9629,24 +9607,6 @@ cases in some way involve indoor and/or outdoor location, and thus communication
 location is an issue that cuts across the work programs most of the standards\r
 organizations that are involved with Smart Cities.\r
 This white paper builds on the OGC - Directions Magazine webinar: “Making Location\r
-Work for Smart Cities – the Case for Location Standards”2.""",
-        """This White Paper supports development of a Smart Cities Spatial Information Framework\r
-based on these themes:\r
-K Smart Cities are high-density generators of innovation and information.\r
-K Location information is a major enabler of Smart City technology benefits.\r
-K Benefits of smart technology must be judged by benefits to residents.\r
-K Reuse and repurpose is vital to urban resilience\r
-K Open standards are needed for interoperability, efficiency, application innovation\r
-and cost effectiveness.\r
-Discussion of these themes and this white paper will occur at the OGC Smart Cities\r
-Location Powers Summit in Tokyo on December 2, 2014,\r
-1 the co-located OGC Technical\r
-Committee meeting, and in many other forums in the future. As described in this paper,\r
-there are many standards initiatives that focus on Smart Cities. Most Smart Cities use\r
-cases in some way involve indoor and/or outdoor location, and thus communication about\r
-location is an issue that cuts across the work programs most of the standards\r
-organizations that are involved with Smart Cities.\r
-This white paper builds on the OGC - Directions Magazine webinar: “Making Location\r
 Work for Smart Cities – the Case for Location Standards”2.""" ;
     skos:inScheme <http://www.opengis.net/def/docs> ;
     skos:notation "14-115"^^na:doc_no ;
@@ -11956,13 +11916,13 @@ The topic of implementing vector tiles using a tile encoding / storage format is
     dct:created "2017-09-23"^^<xsd:date>,
         "2019-07-10"^^<xsd:date> ;
     dct:creator "Armin Haller, Krzysztof Janowicz, Simon Cox, Danh Le Phuoc, Kerry Taylor, Maxime Lefrançois" ;
-    na:doctype doctype:dp,
+    na:doctype doctype:d-dp,
         doctype:is ;
     rdfs:seeAlso <https://www.w3.org/TR/2017/REC-vocab-ssn-20171019/>,
         <https://www.w3.org/TR/vocab-ssn/> ;
     skos:altLabel "16-079"@en,
         "Semantic Sensor Network Ontology"@en ;
-    skos:broader doctype:dp,
+    skos:broader doctype:d-dp,
         doctype:is ;
     skos:definition "The Semantic Sensor Network (SSN) ontology is an ontology for describing sensors and their observations, the involved procedures, the studied features of interest, the samples used to do so, and the observed properties, as well as actuators. SSN follows a horizontal and vertical modularization architecture by including a lightweight but self-contained core ontology called SOSA (Sensor, Observation, Sample, and Actuator) for its elementary classes and properties. With their different scope and different degrees of axiomatization, SSN and SOSA are able to support a wide range of applications and use cases, including satellite imagery, large-scale scientific monitoring, industrial and household infrastructures, social sensing, citizen science, observation-driven ontology engineering, and the Web of Things. Both ontologies are described below, and examples of their usage are given.",
         """The Semantic Sensor Network (SSN) ontology is an ontology for describing sensors and their observations, the involved procedures, the studied features of interest, the samples used to do so, and the observed properties, as well as actuators. SSN follows a horizontal and vertical modularization architecture by including a lightweight but self-contained core ontology called SOSA (Sensor, Observation, Sample, and Actuator) for its elementary classes and properties. With their different scope and different degrees of axiomatization, SSN and SOSA are able to support a wide range of applications and use cases, including satellite imagery, large-scale scientific monitoring, industrial and household infrastructures, social sensing, citizen science, observation-driven ontology engineering, and the Web of Things. Both ontologies are described below, and examples of their usage are given.\r
@@ -18145,16 +18105,16 @@ This concept of UDT, although often mentioned in the media, is still fairly new
     skos:prefLabel "OGC Documents" .
 
 [] a prov:Activity ;
-    prov:endedAtTime "2024-09-04T10:33:57.538767"^^xsd:dateTime ;
-    prov:startedAtTime "2024-09-04T10:33:56.507044"^^xsd:dateTime ;
+    prov:endedAtTime "2024-09-06T10:34:00.820421"^^xsd:dateTime ;
+    prov:startedAtTime "2024-09-06T10:33:59.733607"^^xsd:dateTime ;
     prov:used [ a prov:Entity ;
             dct:format "application/json" ;
-            dct:hasVersion "git:d6b32725e228a0244b0c50083d0de1bd682d4d44" ;
+            dct:hasVersion "git:07ba0edc469f3874ee7b1171b3a880ad653455ac" ;
             rdfs:seeAlso <file:///home/runner/work/NamingAuthority/NamingAuthority/definitions/docs/docs.json> ] ;
     prov:wasAssociatedWith [ a prov:Agent,
                 schema:SoftwareApplication ;
             rdfs:label "OGC-NA tools" ;
             dct:hasVersion "0.3.51" ;
             rdfs:seeAlso <https://github.com/opengeospatial/ogc-na-tools> ] ;
-    prov:wasInformedBy [ dct:identifier "764b61d1-e212-481f-8d94-9293de328957" ] .
+    prov:wasInformedBy [ dct:identifier "1c5275ec-31dc-4c63-9011-769b873525d9" ] .