- From: Gunjan Singh <gunjans@iiitd.ac.in>
- Date: Wed, 16 Aug 2023 11:32:22 +0530
- To: semantic-web@w3.org
- Message-ID: <CADcark=GL3v=x0K0nBn=mLZ2ydUDyB8yvrXZX+PVGd8CY43YsQ@mail.gmail.com>
Dear All,
TL;DR
************************
The Semantic Reasoning Evaluation Challenge (SemREC)
<https://semrec.github.io/> (SemREC'23) is just ten days away from the
submission deadline. SemREC'23 is collocated with the 22nd International
Semantic Web Conference <https://iswc2023.semanticweb.org/>.
We invite you to make submissions in the following categories -
1. *Ontologies - Submit a real-world ontology that is a challenge in
terms of the reasoning time or memory consumed during reasoning. We expect
a detailed description of the ontology along with the analysis of the
reasoning performance, the workarounds if any, that were used to make the
ontology less challenging (for example, dropping a few axioms, redesigning
the ontology, etc.), and the (potential) applications in which the ontology
could be used. We will be evaluating the submitted ontologies based on the
time consumed for a reasoning task, such as classification, and the memory
consumed during reasoning.*
2. Systems - Submit an ontology/RDFS reasoner that uses neural-symbolic
techniques for reasoning and optimization.
Extended Deadline - 25 August 2023, 23:59 (AOE)
If you have any questions, please contact me (gunjans@iiitd.ac.in).
Further details are on the website: https://semrec.github.io/.
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Longer version
*************************
Despite the development of several ontology reasoning optimizations, the
traditional methods either do not scale well or only cover a subset of OWL
2 language constructs. As an alternative, neuro-symbolic approaches are
gaining significant attention. However, the existing methods can not deal
with very expressive ontology languages. Other than that, some SPARQL query
engines also support reasoning, but their performance also is still
limited. To find and improve these performance bottlenecks of the
reasoners, we ideally need several real-world ontologies that span the
broad spectrum in terms of their size and expressivity. However, that is
often not the case. One of the potential reasons for ontology developers to
not build ontologies that vary in terms of size and expressivity is the
performance bottleneck of the reasoners. SemREC aims to deal with this
chicken and egg problem.
The second edition of this challenge includes the following tasks-
-
Task-1 - Ontologies. Submit a real-world ontology that is a challenge in
terms of the reasoning time or memory consumed during reasoning. We expect
a detailed description of the ontology along with the analysis of the
reasoning performance, the workarounds if any, that were used to make the
ontology less challenging (for example, dropping a few axioms, redesigning
the ontology, etc.), and the (potential) applications in which the ontology
could be used. We will be evaluating the submitted ontologies based on the
time consumed for a reasoning task, such as classification, and the memory
consumed during reasoning.
-
Task-2 - Systems
-
Ontology/RDFS Reasoners. Submit an ontology/RDFS reasoner that uses
neural-symbolic techniques for reasoning and optimization. In terms of
technique used, the submissions could fall under any of the below (or
related) categories.
1.
Using learning-based techniques for performance optimization of
traditional reasoning algorithms.
2.
Inductive reasoning techniques based on a subsymbolic
representation of entities and relations learned through the
maximization
of an objective function over valid triples.
3.
Techniques that can learn the deductive reasoning aspect using the
ontology axioms.
4.
Neural Multi-hop reasoners to deal with reasoning where multi-hop
inference is required.
Based on precision and recall, we will evaluate the submitted systems on
the test datasets for scalability (performance evaluation on large and
expressive ontologies) and transfer capabilities (ability to reason over
ontologies from different domains). We expect a detailed description of the
system, including an evaluation of the system on the provided datasets.
-
SPARQL query engines that support entailment regimes such as RDF, RDFS,
or OWL 2. We expect a detailed description of the system, including an
evaluation of the system on the provided datasets.
Submission Details
Participants are requested to make a manuscript submission describing their
entry.
-
For Task 1, we expect a detailed description of the ontology along with
the analysis of the reasoning performance, and the workarounds, if any,
that were used to make the ontology less challenging (for example, dropping
a few axioms, redesigning the ontology, etc.), and the (potential)
applications in which the ontology could be used.
-
For Task 2, we expect a detailed description of the system, including
evaluating the system on the provided datasets. We will further evaluate
the submitted systems on a subset of the test datasets for scalability
(performance evaluation on large and expressive ontologies) and transfer
capabilities (ability to reason over ontologies from different domains).
The submissions can be either in the form of short papers of length 5 pages
or long papers of length 10-12 pages. All the submissions must be in
English and follow the 1-column CEUR-ART style (overleaf template)
<https://www.overleaf.com/latex/templates/ceurart-template-for-submissions-to-semrec-challenge/qktzxsbyhsdp>.
The proceedings will be published as a volume of CEUR-WS
<http://ceur-ws.org/>. Submissions should be made in the form of a pdf
document on EasyChair.
Website: https://semrec.github.io/
Organizers
Gunjan Singh, IIIT-Delhi, India.
Raghava Mutharaju, IIIT-Delhi, India.
Pavan Kapanipathi, IBM T.J. Watson Research Center, USA.
Best regards,
Gunjan
--
Thanks and Regards
Gunjan Singh
Ph. D Student, KRaCR Lab <https://kracr.iiitd.edu.in/>, IIIT-Delhi
<https://cse.iiitd.ac.in/>, India
IBM Research Fellow
Received on Wednesday, 16 August 2023 06:02:41 UTC