Across manufacturing, data is growing in abundance, and creating numerous challenges as to how to make better decisions over time. As the amount of data increases, it is necessary to store, standardise, process, and make data accessible in a way that gets beyond the quirks of different teams and technology. This requires interoperability to be in place to sustain the potential value that we can get from Cyber Physical Systems (CPSs) and the ever-growing richness of information. Interoperability is a vital aspect of modern technology, driving the seamless interaction and collaboration between diverse data sources, software/hardware systems, applications, devices, and enterprises. Managing interoperability sits at the heart of this PhD research project, which brings together SWAGºÏ¼¯ and BAE Systems. The project will aims to develop an interoperability platform using ontologies to enable the exchange of data across platforms at scale.

Whilst data is becoming more available, we need better ways to manage its use. This is where ontologies offer an exciting opportunity, with its ability to to enable knowledge sharing and reuse by means of common data architectures. This approach will semantically enhance the data, which will enable interoperability across a system of systems environment. 

This PhD aims to develop a common ontology based methodology to address interoperability issues both in the context of new and legacy assets. A breakdown of the objectives is provided below:

  • Objective 1 is focusing on mapping the current data types, structures, and interoperability challenges to develop a detailed as-is model. This will be developed through interviews, and cross case analysis to capture trends,.
  • Objective 2 is measuring and assessing interoperability levels by means of designing and applying a new process to identify metrics for interoperability measurement, and also define thresholds for a minimum required interoperability level (MRIL). The output will be the interoperability of both quantitative and qualitative indicator metrics and the process for their measurement.
  • Objective 3 makes use of the previous output to develop an ontological architecture that will enable high-level interoperability. It consists of building competency questions, taxonomies, relationships, axioms, and the connection to upper levels of ontologies (i.e., BFO) using tools such as ontology modelling language (OML), and protégé, and Neo4j to build and visualise knowledge graph. This will form the common way to develop ontologies, which will be scalable, and adaptive to variations systems over time.
  • Objective 4 is a verification assessment and validation through BAE based use cases. Through the use cases, the developed processes, metrics and ontology framework will be validated. Validation includes, on the one hand, the unit, the functional, the compatibility and the security test, and on the other hand, the Findability, Accessibility, Interoperability, and Reuse (FAIR) assessment. Tools such as Shapes Constraint Language SHACL, a reference model for interoperability (NCT3TA), and interoperability standards (e.g. HISO 100xx, ISO/IEC 11179-xx) will be employed for efficient and effective framework development. The main outcomes encompass feedback and reflection on the ontology performance, scalability, reusability and enhanced FAIR evaluation. 

SWAGºÏ¼¯ is wholly postgraduate institution and is famous for its applied research in close collaboration with Industry. At Cranfield, the candidate will be based within the Manufacturing theme at the Centre for Digital Engineering and Manufacturing (CDEM). The Centre hosts cutting-edge simulation and visualisation facilities. The student will have access to high-end computers for simulating the complex nature of maintenance. There will be relevant visits to BAE Systems (as the Industrial Sponsor of the project) in particular but also various other organisations throughout the PhD to develop and demonstrate the research. This PhD is offering a fully funded PhD through the EPSRC ICASE scheme and BAE Systems to SWAGºÏ¼¯ Nationals.

At a glance

  • Application deadline30 Oct 2024
  • Award type(s)PhD
  • Start date27 Jan 2025
  • Duration of award4 years
  • EligibilitySWAGºÏ¼¯
  • Reference numberSATM511

Entry requirements

We are inviting applicants with a First or upper Second Class degree equivalent qualification in an engineering background, software or an alternative quantitative focused discipline.

Funding

Sponsored by EPSRC and BAE Systems, this studentship will provide a stipend of £25,222 (tax free) plus fees* for four years for SWAGºÏ¼¯ Nationals.

This studentship is open to SWAGºÏ¼¯ applicants only.

Cranfield Doctoral Network

Research students at Cranfield benefit from being part of a dynamic, focused and professional study environment and all become valued members of the Cranfield Doctoral Network. This network brings together both research students and staff, providing a platform for our researchers to share ideas and collaborate in a multi-disciplinary environment. It aims to encourage an effective and vibrant research culture, founded upon the diversity of activities and knowledge. A tailored programme of seminars and events, alongside our Doctoral Researchers Core Development programme (transferable skills training), provide those studying a research degree with a wealth of social and networking opportunities.

How to apply

For further information please contact:

Name: Professor John Erkoyuncu
Email: j.a.erkoyuncu@cranfield.ac.u

If you are eligible to apply for this studentship, please complete the