Evaluation of IOF Core 202401 release
This page contains the results of various tests conducted on IOF Core including evaluations of consequences of axioms and rules in IOF Core, validations through competency questions, checking of data models, and benchmarking of the performance of various tools for IOF Core.
Table of contents
Allen’s Relations
IOF Core includes 7 interval relations, proposed by Allen (meets, before, overlaps, starts, finishes, occursDuring, and occursSimultaneouslyWith) and their inverses (except occursSimulataneouslyWith) applicable between ‘bfo:temporal interval' and ‘bfo:process’ instances. Along with these relations, a set of SWRL rules for inferring these relations among ‘bfo:temporal interval' and ‘bfo:process’ instances based on 'bfo:precedes’ relations among ‘bfo:temporal instances' and a set of property chains for the compositions of various Allen’s relations are also available separately from IOF Core.
Test Case # Allen-1 (Functional testing using competency questions)
Purpose | Functional testing of Allen’s relations using competency questions |
---|---|
Scope | Temporal relations among various processes and their influence on the participants of these processes. |
Conducted by | @Arkopaul Sarkar |
IOF Core version | IOF Core spring release candidate available at https://github.com/iofoundry/ontology/tree/core_allen_interval_algebra |
Date of testing | Aug 15, 2023 |
User story | In a factory producing metal parts, various machining processes, such as turning and milling, lapping, grinding along with laser marking, quality check and packing takes place. Workers are assigned to corresponding machine to carry out these operations for work orders on various metal parts. The company wants to monitor the assignment of workers along with machine allocations. |
Data | Production data on 10 work orders. Important columns are:
Note: The data is a part of and customised from the original data retrieved from http://fluxicon.com/disco/ presented by Dafna Levy (dafnal@nool.co.il) |
Test criteria | The following competency questions should be available for query and the answers to the query should match the corresponding answers.
|
Pre-process steps | The data is loaded to GraphDB (https://www.ontotext.com/products/graphdb ) modeled using IOF Core (spring release candidate) and SWRL rules (see Pre-process steps of Test Case # Allen-2). |
System configuration | Intel(R) Core(TM) i7-9750H CPU @ 2.60GHz 2.59 GHz with 32.0 GB RAM |
Methodology | Each CQs are tested with the following SPARQL queries as mentioned in the following table using https://www.ontotext.com/products/graphdb workbench on the KG below.
|
Result | All tests are passed as shown in the following table. |
CQ Identifier | SPARQL Query | Result |
---|---|---|
core-s1-1 |
| Passed |
core-s1-2 |
| Passed |
core-s1-3 |
| Passed |
core-s1-4 |
| Passed |
core-s1-5 |
| Passed |
core-s1-6 |
| Passed |
core-s1-7 |
| |
core-s1-8 |
| |
core-s1-9 |
| |
core-s1-10 |
|
Test Case # Allen-2 (Inferences by SWRL rules and inverse axioms)
Purpose | Testing the consequence of SWRL rules for asserting Allen’s relations |
---|---|
Scope | Temporal relations among time instances, intervals, and processes. |
Conducted by | @Arkopaul Sarkar |
IOF Core version | IOF Core spring release candidate available at https://github.com/iofoundry/ontology/tree/core_allen_interval_algebra |
Date of testing | Aug 18, 2023 |
User story | In a factory producing metal parts, various machining processes, such as turning and milling, lapping, grinding along with laser marking, quality check and packing takes place. Workers are assigned to corresponding machine to carry out these operations for work orders on various metal parts. The company wants to monitor the assignment of workers along with machine allocations. |
Data | Production data on 10 work orders. Important columns are:
Note: The data is a part of and customised from the original data retrieved from http://fluxicon.com/disco/ presented by Dafna Levy (dafnal@nool.co.il) |
Test criteria |
|
Pre-process steps |
KG generated by step 3: e |
System configuration | Intel(R) Core(TM) i7-9750H CPU @ 2.60GHz 2.59 GHz with 32.0 GB RAM |
Methodology |
|
Result | All tests are passed (see in the table below) |
# | Targer | Explanation | Result |
---|---|---|---|
1 | Rule S8 | ||
2 | Rule S9 |
| |
3 | Rule S10 | ||
4 | Rule S11 | P41 LaserMarking | |
5 | Rule S12 | ||
6 | Rule S14 |
| |
7 | Rule S15 |
|
Gain of Role and Loss of Role
“Gain of Role” (GOR) and “Loss of Role” (LOR) are two new process types included in the IOF to provide the ability to model when a bearer starts bearing the role and when it loses the role as well as the duration for which the bearer bears the role.
Test Case # role-1 (Functional testing using competency questions)
Purpose | Functional testing of GOR and LOR using competency questions |
---|---|
Scope | Classification of GOR and LOR and query based on temporal durations of Roles borne by different bearers and other contemporary events |
Conducted by | @Arkopaul Sarkar |
IOF Core version | IOF Core spring release candidate available at https://github.com/iofoundry/ontology/tree/core_allen_interval_algebra |
Date of testing | Aug 18, 2023 |
User story | Three operators are employed at a control room that remains operational for 24 hours. Operators work in three shifts of around 8 hours each having around 10 minutes for change-over between shifts. The following entries were recorded in the logbook on 28th May 2016. As per policy, the shift starts for an operator as soon as she arrives in the control room and ends when she leaves the room. |
Data | [2016-05-28T00:03:00Z] Operator 1 arrived for change-over. [2016-05-28T00:10:00Z] Operator 3 left the control. [2016-05-28T03:24:00Z] Incident 1 is observed. [2016-05-28T03:26:00Z] Incident 1 is stopped. [2016-05-28T07:58:00Z] Operator 2 arrived for change-over. [2016-05-28T08:07:00Z] Operator 1 left the control. [2016-05-28T16:01:00Z] Operator 3 arrived for change-over. [2016-05-28T16:05:00Z] Incident 2 is observed. [2016-05-28T16:08:00Z] Operator 2 left the control. [2016-05-28T23:43:00Z] Incident 3 is observed. |
Test criteria | The following competency questions should be available for query and the answers to the query should match the corresponding answers.
|
Pre-process steps |
|
System configuration | Intel(R) Core(TM) i7-9750H CPU @ 2.60GHz 2.59 GHz with 32.0 GB RAM |
Methodology | Each CQs are tested with SPARQL queries given in the following table using https://www.ontotext.com/products/graphdb workbench on the KG below.
|
Result | All tests are passed as shown in the following table. |
CQ Identifier | SPARQL Query | Result |
---|---|---|
core-s1-1 |
| |
core-s1-2 |
| |
core-s1-3 |
| |
core-s1-4 |
| |
core-s1-5 |
| |
core-s1-6 | test-core-s1-4 (change filter by incident3) |
Mapping with OWL-Time
IOF-Core includes a provision to assert calendar date and clock time to the instances of bfo:Temporal Instant by using two sub-classes of ValueExpression: TemporalInstantValueExpression and TemporalIntervalValueExpression and a data property hasDateTimeValue which can link a xsd:DateTime to TemporalInstantValueExpression. However, both TemporalInstantValueExpression and TemporalIntervalValueExpression classes are mapped to Time Ontology in OWL classes to allow users to utilize the capability of Time Ontology in OWL for asserting calendar and clock time as well as durations in various formats, granularity and systems.
Test Case # time-1 (Validation of data modelled using both IOF-Core and OWL-Time)
Purpose | Test the ability to consistently use Time Ontology in OWL time description class and properties in conjunction with IOF-Core constructs |
---|---|
Scope | Calendar and clock |
Conducted by | @Arkopaul Sarkar |
IOF Core version | IOF Core spring release candidate available at https://github.com/iofoundry/ontology/tree/core_allen_interval_algebra |
Date of testing | Aug 20, 2023 |
User story | Test scenarios are derived from the examples given in https://www.w3.org/TR/owl-time/#examples. |
Data | Test data are derived from the examples given in https://www.w3.org/TR/owl-time/#examples. Examples covered:
|
Test criteria |
|
Pre-process steps |
|
System configuration | Intel(R) Core(TM) i7-9750H CPU @ 2.60GHz 2.59 GHz with 32.0 GB RAM |
Methodology | The assertions in the following file are compared with the assertions given in https://www.w3.org/TR/owl-time/#examples in Turtle format as well as reasoned for checking consistency.
|
Result | All tests are passed as shown in the following table. The ontology was processed without issues by Hermit reasoner in 5651 ms. |
# | Example modeled | Model using OWL-Time | Model using IOF Core and OWL-Time | Result |
---|---|---|---|---|
1 | DateTimeDescription vs dateTime | ex:meetingStart
a :Instant ;
:inDateTime ex:meetingStartDescription ;
:inXSDDateTimeStamp 2017-04-12T10:30:00+10:00 .
ex:meetingStartDescription
a :DateTimeDescription ;
:unitType :unitMinute ;
:minute 30 ;
:hour 10 ;
:day "---12"^^xsd:gDay ;
:dayOfWeek :Wednesday ;
:dayOfYear 102 ;
:week 15 ;
:month "--04"^^xsd:gMonth ;
:monthOfYear greg:April ;
:timeZone <https://www.timeanddate.com/time/zones/aest> ;
:year "2017"^^xsd:gYear . | :meetingStart rdf:type owl:NamedIndividual ,
obo:BFO_0000203 ;
Core:hasValueExpressionAtAllTimes :meetingStartDescription .
:meetingStartDescription rdf:type owl:NamedIndividual ,
time:DateTimeDescription ;
intervals:monthOfYear intervals:April ;
time:dayOfWeek time:Wednesday ;
time:timeZone <https://www.timeanddate.com/time/zones/aest> ;
time:unitType time:unitMinute ;
time:day "---12"^^xsd:gDay ;
time:dayOfYear 102 ;
time:hour 10 ;
time:minute 30 ;
time:month "--04"^^xsd:gMonth ;
time:week 15 ;
time:year "2017"^^xsd:gYear ;
Core:hasDateTimeValue "2017-04-12T10:30:00+10:00"^^xsd:dateTime . | |
2 | Use of temporal reference systems | ex:AbbyBirthday
a :Instant ;
:inDateTime ex:AbbyBirthdayHebrew ;
:inTimePosition ex:AbbyBirthdayUnix ;
rdfs:label "Abby's birthdate"^^xsd:string ;
:inDateTime ex:AbbyBirthdayGregorian ;
:inXSDDateTimeStamp "2001-05-23T08:20:00+08:00"^^xsd:dateTimeStamp ;
.
ex:AbbyBirthdayGregorian
a :DateTimeDescription ;
:day "---23"^^xsd:gDay ;
:dayOfWeek :Wednesday ;
:dayOfYear "143"^^xsd:nonNegativeInteger ;
:hour "8"^^xsd:nonNegativeInteger ;
:minute "20"^^xsd:nonNegativeInteger ;
:month "--05"^^xsd:gMonth ;
:monthOfYear greg:May ;
:timeZone <https://www.timeanddate.com/time/zones/awst> ;
:unitType :unitMinute ;
:year "2001"^^xsd:gYear ;
.
ex:AbbyBirthdayUnix
a :TimePosition ;
:hasTRS <http://dbpedia.org/resource/Unix_time> ;
:numericPosition 990577200 ;
rdfs:label "Abby's birthdate in Unix time"^^xsd:string ;
.
ex:UnixTime
rdfs:subClassOf time:TimePosition ;
rdfs:subClassOf [
rdf:type owl:Restriction ;
owl:hasValue <http://dbpedia.org/resource/Unix_time> ;
owl:onProperty time:hasTRS ;
] ;
. | ||
3 | Temporal precision | |||
4 | A Use Case for Scheduling |