Industrial AI Research Centre Amanda Johnston (IndustrialAI@unisa.edu.au)
I am Director of the UniSA Industrial AI Research Centre. (Note: please send administrative requests to IndustrialAI@unisa.edu.au). I am also Program Lead for Digital Technologies and Interoperability in the Future Energy Exports CRC.
My research area sits at the junction of different computing disciplines across Artificial Intelligence, Software Engineering, data and process management.
The underlying goal is to develop high efficiency methods for modelling and constructing intelligent software systems for solving real world problems, typically from an industrial and organisational background.
The main focus of my recent work is in the areas of Industry 4.0, interoperability, integration, Self-Aware Systems and autonomous... Read more
About me
I am Director of the UniSA Industrial AI Research Centre. (Note: please send administrative requests to IndustrialAI@unisa.edu.au). I am also Program Lead for Digital Technologies and Interoperability in the Future Energy Exports CRC.
My research area sits at the junction of different computing disciplines across Artificial Intelligence, Software Engineering, data and process management.
The underlying goal is to develop high efficiency methods for modelling and constructing intelligent software systems for solving real world problems, typically from an industrial and organisational background.
The main focus of my recent work is in the areas of Industry 4.0, interoperability, integration, Self-Aware Systems and autonomous decisionmaking, complex event processing, software system evolution and debugging, and emergent semantics. Typical application areas involve the autonomous enterprise, intelligent asset management/plant operations, future aware business processes, ontologies for design and product configuration, as well as health and bioinformatics.
External project partners: Current and recent project partners include Assetricity, Synengco, BAE Maritime Australia, Lockheed Martin Australia, Defence Science & Technology (DST), the Asset Institute, Yokogawa Electric, ANSTO, Mainpac, Siemens, Delta Electricity/Energy Australia, MacGen/AGL, SA Pathology.
Industrial Standards: I am member of TC184/WG6 (Oil and Gas Interoperability). I am chair of the Joint Special Interest Group for Operations and Maintenance Standards supported by MIMOSA, PCA and FIATECH which has been involved since 2012 in the international Oil and Gas Interoperability Pilot (OGI Pilot). I am currently Co-CTO of MIMOSA.
Industrial Demo: live demo of the OIIE/OGI Pilot and the UniSA transformation engine is depicted in the video below. Warning: This is a long video (40 minutes) primarily aimed at an industrial engineering audience involving detailed presentations from our industry partners.
Health Standards: I have been involved in the RCPA (Royal College of Pathology Australia) effort for developing standards for clinical databases of genetic variants, following our engagement in genetic data curation: MAWSON Project, funded by QPP (Quality Pathology Pathways program, Department of Health and Ageing); Data Capture project funded by ANDS (Australian National Data Service); Human Variome Project - Australian front end (funded by NeCTAR).
About me
About me
Doctor of Philosophy (Computer Science) University of Technology
Masters of Computer Science Research University of Technology
The AI and Software Engineering Lab studies high level descriptions of software systems and problem solving tasks, with the goal of more effective and less maintenance effective software development for complex real world domains. Work ranges from the analysis of classic software engineering methods such as Model-Driven Engineering to knowledge representation and reasoning methods such as ontologies and model-based reasoning. Applications of these techniques are found in such diverse areas as interoperability and systems integration, business process and web service integration, diagnosis/software debugging, product configuration, and the Semantic Web.
Research
Excludes commercial-in-confidence projects.
STEM-132: AI Supported Sustainable Standards-Based Interoperability PhD Truong Giang Vu, Future Energy Exports CRC Limited, 15/10/2024 - 22/04/2032
FEnEx CRC Project Zero - 20.RP0.001, Future Energy Exports CRC Limited, 01/12/2020 - 31/12/2026
FEnEX 21.RP3.0106: Asset Reliability and Risk Interoperability to Optimise Maintenance Execution and Improve Risk Management of Energy Producers, Future Energy Exports CRC Limited, 01/07/2022 - 01/01/2026
Enhancing the RAN’s Undersea Surveillance Minimum Viable Capability, Defence SA, 14/03/2024 - 01/01/2026
FEnEx 20.RP3.0048: Open Specification for Analytics Interoperability, Future Energy Exports CRC Limited, 01/04/2021 - 30/06/2025
Future Energy Exports CRC Limited Scholarship, Future Energy Exports CRC Limited, 01/01/2022 - 30/06/2025
DHCRC-0156: A Predictive Harm Response Management algorithmic tool to reduce adverse events in healthcare setting, Digital Health CRC, 20/07/2021 - 30/06/2025
Supporting research projects in relation to 108940 - Asset Institute, Asset Institute Limited, 11/07/2023 - 11/01/2024
Int Policing: Entity Linking & Resolution, D2D CRC Limited, 01/01/2016 - 31/12/2019
D2D CRC Limited Scholarship, D2D CRC Limited, 28/11/2016 - 30/11/2019
CERA 329 DeepRay Glider Robust Autonomy, Cwth Dept of Defence, 24/03/2017 - 31/05/2019
Urban Best Practice Expert System, UN-Habitat, 16/05/2018 - 16/05/2019
Standard-driven data transformation between software ecosystems in the oil and gas interoperability pilot, International Research Grants Program (DSD), 01/06/2015 - 30/11/2018
D2D CRC Limited Scholarship, D2D CRC Limited, 29/02/2016 - 28/02/2018
Techniques of Generating Behavioral Models for Constructive Combat Simulations, Cwth Dept of Defence, 01/09/2016 - 30/05/2017
Ongoing Development of Automated Techniques of Generating Behavioural Models for Constructive Combat Simulations, Defence Science & Technology Organisation, 23/03/2016 - 01/06/2016
Research
Research outputs for the last seven years are shown below. Some long-standing staff members may have older outputs included. To see earlier years visit ORCID, ResearcherID or Scopus
Open access indicates that an output is open access.
Year | Output |
---|---|
2023 |
|
2023 |
|
2023 |
1
|
2019 |
3
|
2018 |
4
|
2018 |
10
3
|
2014 |
15
|
2014 |
55
|
2014 |
7
3
|
2011 |
5
4
|
Year | Output |
---|---|
2024 |
Open access
|
2024 |
Open access
4
5
1
|
2023 |
Open access
|
2022 |
Open access
3
1
|
2022 |
148
105
1
|
2021 |
Open access
6
1
|
2021 |
24
12
|
2019 |
Open access
27
20
|
2018 |
Open access
25
25
1
|
2018 |
Open access
18
10
|
2017 |
Open access
23
22
1
|
2015 |
10
5
|
2015 |
4
3
|
2015 |
37
28
2
|
2014 |
Open access
20
11
|
2014 |
8
7
|
2012 |
5
1
|
2011 |
Open access
7
4
|
2010 |
5
5
|
2009 |
Open access
|
2009 |
Open access
7
5
|
2008 |
1
1
|
Year | Output |
---|---|
2023 |
1
1
|
2022 |
Open access
1
|
2022 |
1
1
|
2022 |
Open access
2
|
2021 |
Open access
|
2021 |
1
|
2021 |
5
|
2021 |
Open access
1
|
2021 |
Open access
2
|
2019 |
Open access
4
|
2019 |
Open access
3
|
2019 |
5
3
|
2019 |
|
2018 |
Open access
2
|
2018 |
Open access
23
|
2018 |
4
|
2018 |
Open access
|
2018 |
1
|
2018 |
12
8
|
2018 |
Open access
2
1
|
2018 |
Open access
2
|
2018 |
Open access
3
|
2018 |
Open access
13
6
|
2018 |
5
|
2017 |
Open access
2
|
2017 |
Open access
6
5
|
2017 |
Open access
1
|
2017 |
3
|
2016 |
Open access
12
|
2016 |
Open access
3
|
2016 |
2
|
2016 |
2
|
2015 |
Open access
|
2015 |
|
2015 |
Open access
1
|
2015 |
10
7
1
|
2015 |
|
2015 |
Open access
|
2015 |
5
1
1
|
2014 |
Open access
6
|
2014 |
Open access
1
|
2014 |
2
1
|
2014 |
1
|
2014 |
4
|
2014 |
Open access
8
|
2014 |
Open access
3
1
|
2013 |
2
|
2013 |
1
|
2013 |
5
4
|
2013 |
11
7
|
2013 |
4
|
2013 |
3
|
2013 |
Open access
5
|
2013 |
Open access
1
|
2012 |
|
2012 |
10
|
2012 |
Open access
4
|
2012 |
Open access
5
6
|
2012 |
|
2011 |
Open access
3
|
2011 |
|
2011 |
3
|
2011 |
|
2010 |
Open access
21
13
|
2010 |
Open access
5
2
|
2010 |
2
|
2010 |
15
11
|
2010 |
Open access
|
2010 |
3
2
|
2010 |
Open access
1
|
2010 |
2
1
|
2010 |
4
4
|
2009 |
|
2009 |
9
5
|
2009 |
Open access
|
2009 |
Open access
|
2009 |
Open access
|
2009 |
|
2009 |
31
|
2009 |
2
2
|
2009 |
Open access
23
11
|
2009 |
Open access
3
1
|
2009 |
Open access
|
2009 |
7
5
|
2008 |
|
2008 |
5
4
|
2008 |
1
1
|
2008 |
1
|
2008 |
Open access
58
|
2008 |
|
2008 |
2
|
2008 |
|
2008 |
10
|
2008 |
|
2008 |
3
3
|
2008 |
Open access
|
2008 |
Open access
|
2008 |
|
2008 |
|
2008 |
4
|
Year | Output |
---|---|
2009 |
Stumptner, M 2009, Twenty-first International Joint Conference on Artificial Intelligence (IJCAI-09). |
2008 |
|
Research
The AI and Software Engineering Lab studies high level descriptions of software systems and problem solving tasks, with the goal of more effective and less maintenance effective software development for complex real world domains. Work ranges from the analysis of classic software engineering methods such as Model-Driven Engineering to knowledge representation and reasoning methods such as ontologies and model-based reasoning. Applications of these techniques are found in such diverse areas as interoperability and systems integration, business process and web service integration, diagnosis/software debugging, product configuration, and the Semantic Web.
Research
Details | Registry | Status |
---|---|---|
Method and system for information integration in industrial systems Grossmann, Georg; Stumptner, Markus; Schrefl, Michael |
Australia | Filed |
Method and system for information integration in industrial systems Grossmann, Georg; Stumptner, Markus; Schrefl, Michael |
US | Filed |
External engagement & recognition
Organisation | Country |
---|---|
Aalto University | FINLAND |
Asset Institute | AUSTRALIA |
Athabasca University | CANADA |
Australian National University | AUSTRALIA |
Australian Nuclear Science and Technology Organisation | AUSTRALIA |
Autonomous University of Barcelona | SPAIN |
BAE Systems | AUSTRALIA |
Carnegie Mellon University | UNITED STATES |
Carnegie Mellon University Australia | AUSTRALIA |
Central Adelaide Local Health Network Incorporated | AUSTRALIA |
China Aerospace Science and Technology Corporation | CHINA |
China State Ship Building Corporation Limited | CHINA |
CSIRO Data61 | AUSTRALIA |
Data to Decisions CRC | AUSTRALIA |
Data61 | AUSTRALIA |
Deakin University | AUSTRALIA |
Defence Science and Technology Group | AUSTRALIA |
Delft University of Technology (TU Delft) | NETHERLANDS |
Department of Defence | AUSTRALIA |
Ecole Nationale Superieure Agronomique | FRANCE |
Flinders University | AUSTRALIA |
FOM University of Applied Sciences | CANADA |
Graz University of Technology | AUSTRIA |
Hewlett-Packard | UNITED STATES |
Huazhong Agricultural University | CHINA |
Intersticia Pty Ltd | AUSTRALIA |
Johannes Kepler University of Linz | AUSTRIA |
La Trobe University | AUSTRALIA |
Lockheed Martin | AUSTRALIA |
MIMOSA | UNITED STATES |
MTConnect Institute | UNITED STATES |
Munich University of Applied Sciences | GERMANY |
Oracle Corporation | AUSTRALIA |
Origin Energy | AUSTRALIA |
Private Individual | UNITED KINGDOM |
Queensland University of Technology | AUSTRALIA |
Sentek Technologies | AUSTRALIA |
Shanghai Customs College | CHINA |
Siemens | AUSTRALIA |
Siemens Austria | AUSTRIA |
Technische Universitat Graz | AUSTRIA |
Texas State University | UNITED STATES |
Ulm University | GERMANY |
University of Adelaide | AUSTRALIA |
University of Dortmund | GERMANY |
University of Edinburgh | UNITED KINGDOM |
University of Hamburg | GERMANY |
University of Klagenfurt | AUSTRIA |
University of South Australia | AUSTRALIA |
University of Southampton | UNITED KINGDOM |
University of Western Australia | AUSTRALIA |
University of Wollongong | AUSTRALIA |
Wuhan University | CHINA |
External engagement & recognition
Engagement/recognition | Year |
---|---|
Area Editor, Model-Based ReasoningAI Communications |
2018 |
Editorial Board memberArtificial Intelligence for Engineering Design, Analysis and Manufacturing (AI EDAM) |
2018 |
Member, Mathematical, Information and Computing Sciences Committee (MIC), Research Evaluation CommitteeAustralian Research Council (ARC) |
2018 |
Area Editor, Model-Based ReasoningAI Communications |
2017 |
Editorial Board memberArtificial Intelligence for Engineering Design, Analysis and Manufacturing (AI EDAM) |
2017 |
MemberAssociation for Computing Machinery (ACM) |
2017 |
MemberInstitute of Electrical and Electronics Engineers (IEEE) Computer Society |
2017 |
Member, Steering Committee for AI and Expert SystemsAustralian Computer Society (ACS) |
2017 |
Research Evaluation Committee MemberExcellence in Research for Australia |
2015 |
Editor, Special Issue on ConfigurationArtificial Intelligence for Engineering Design, Analysis and Manufacturing (AI EDAM) |
2011 |
General ChairAustralian AI Conference |
2010 |
Teaching & student supervision
Teaching & student supervision
Supervisions from 2010 shown
Thesis title | Student status |
---|---|
132- AI Supported Sustainable Standards-Based Interoperability | Current |
A framework for natural language communication with uninhabited aerial vehicles in air traffic management | Current |
Development of industry 4 living laboratories in education and research | Current |
Enhanced risk interoperability in digital twin modelling | Current |
FEnEx CRC PhD Open Analytics Interoperability | Current |
Modelling causal knowledge patterns for causal knowledge graphs | Current |
Ontological Enrichment of Data Standards for Digital Twin Management | Current |
Secure Autonomous System Architectures for a Hyperconnected World | Current |
Synthetic data imputation for virtual sensors in adaptive digital twins | Current |
A comparison of machine learning algorithms applied to quantitative structure-activity relationship studies in drug discovery | Completed |
A conceptual framework for the consistent management of process views | Completed |
A decentralised rule-based peer-to-peer framework for real-time SOA systems | Completed |
An integrated multi-level modelling and verification framework for data interoperability | Completed |
Analysis and improvements to the four-dimensional X-ray velocimetry respiratory imaging process | Completed |
Constraint-based automated service discovery and composition | Completed |
Event and temporal constraint management in dynamic business environments | Completed |
Formal models from controlled natural language via cognitive grammar and configuration | Completed |
Instantiation of information systems development processes | Completed |
Knowledge representation and reasoning for a model-based approach to higher level information fusion | Completed |
Ontology-based conceptual payload design | Completed |
Ontology-driven integration and representation of engineering design processes and artefacts | Completed |
Towards efficient deep reinforcement learning in complex and dynamic tasks | Completed |
Understanding information security risk in Australian real estate sectors | Completed |
Value-based stochastic systems analysis | Completed |
VizDSL: a visual Domain Specific Language for modelling visualisation processes | Completed |