Professor Kate Smith-Miles is Pro Vice-Chancellor (Research Capability) at The University of Melbourne, and a Melbourne Laureate Professor of Applied Mathematics in the School of Mathematics and Statistics. She is also Director of the ARC Industrial Transformation Training Centre for Optimisation Technologies, Integrated Methodologies and Applications (OPTIMA).
Prior to joining The University of Melbourne in September 2017, she was Professor of Applied Mathematics at Monash University, Head of the School of Mathematical Sciences (2009-2014), and inaugural Director of the Monash Academy for Cross & Interdisciplinary Mathematical Applications (MAXIMA) from 2013-2017. Previous roles include President of the Australian Mathematical Society (2016-2018), and membership of the Australian Research Council College of Experts (2017-2019), as well as Associate Dean (Enterprise and Innovation) for the Faculty of Science at the University of Melbourne from 2019-2023.
Kate obtained a B.Sc(Hons) in Mathematics and a Ph.D. in Electrical Engineering, both from The University of Melbourne. Commencing her academic career in 1996, she has published 2 books on neural networks and data mining, and around 300 refereed journal and international conference papers in the areas of neural networks, optimisation, data mining, and various applied mathematics topics. She has supervised over 30 PhD students to completion, and has been awarded over AUD$20 million in competitive grants, including 13 Australian Research Council grants and industry awards. She was awarded a Georgina Sweet Australian Laureate Fellowship from the Australian Research Council (2014-2020), enabling her Instance Space Analysis methodology to be expanded into an online tool (MATILDA, Melbourne Algorithm Test Instance Library with Data Analytics).
Kate was elected a Fellow of the Australian Academy of Science in 2022, a Fellow of the Institute of Engineers Australia (FIEAust) in 2006, and a Fellow of the Australian Mathematical Society (FAustMS) in 2008. Awards include: the Australian Mathematical Society Medal in 2010 for distinguished research; the EO Tuck Medal from ANZIAM in 2017 for outstanding research and distinguished service; the Ren Potts Medal for outstanding research in the theory and practice of operations research from the Australian Society for Operations Research (ASOR) in 2019; and the Monash University Vice-Chancellor’s Award for Excellence in Postgraduate Supervision in 2012.
In addition to her academic activities, she also regularly act as a consultant to industry in the areas of optimisation, data mining, and intelligent systems. She is also actively involved in mentoring, particularly with the aim of encouraging greater female participation in mathematics, and chaired the Advisory Board for the AMSI Choose Maths program.
I'm interested in most branches of applied mathematics, but especially optimisation, pattern recognition, and modelling of complex systems.
Current projects include developing new methodologies for objective assessment of algorithm performance; generating new test instances for various classes of optimisation problems; improved scheduling algorithms; and expensive black-box optimisation.
My bibliometric analysis includes: h-index = 53 (google scholar) and 40 (Scopus), with over 13300 citations on google scholar (over 6500 Scopus citations).
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OPTIMA's website live!
See optima.org.au to learn more about OPTIMA. Commencing operations in September 2021, based at Melbourne Connect, our new $8 million Training Centre for Optimisation Technologies, Integrated Methodologies and Applications (OPTIMA) is funded by the Australian Research Council in partnerships with 11 industry partners and Monash and University of Melbourne.
An Introduction to Instance Space Analysis and our online tool MATILDA is now available, recently presented online at the World Congress on Computational Intelligence, in July 2020
Our Instance Space Analysis methodology is now available as an online tool (MATILDA - Melbourne Algorithm Test Instance Library with Data Analytics). Please visit matilda.unimelb.edu.au to take a look. You can explore our library problems, or generate an instance space for your own problem to explore algorithm strengths and weaknesses. Let us know if you'd like to add a problem to our library, and we are always keen to collaborate. You can read more about MATILDA in The Conversation, and here.