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IT and computer science

Today's changing world needs technology leadership that can identify opportunities and create solutions – trusted leaders who work across sectors and industries to deliver security and sustainability.

The Faculty of Engineering and Information Technology (FEIT) has a long history of tackling big challenges to benefit society. This has been our mission for more than 160 years. Confronted with new global challenges, complex issues like climate change and digital disruption need our attention – with a contemporary approach to IT solutions.

In the face of these challenges, we’re using research to create more impact than ever before.

As a graduate researcher, you’ll find a wide range of research topics available. We employ more than 450 academic staff, all experts in their field. This means you’ll find deep knowledge and expertise in your chosen area – mentors who think creatively about complex issues, and who’ll help you achieve your research goals.

Diversity is important to us. We promote an inclusive culture, with strong female representation and an increasing number of Indigenous students and staff. More than half of the Faculty's students come from overseas.

Together, we’re driven by a passion to keep finding solutions to the biggest challenges of our time.

Explore our research

As a graduate researcher in FEIT, you can pursue exciting opportunities in a  range of projects .

Our priority research disciplines are:

AI, data science and robotic: Artificial intelligence, big data and robotics are disrupting the world. No one will remain untouched by this evolving technology. FEIT is collaborating across the University to pursue multidisciplinary research opportunities. This includes working with the Melbourne Centre for Data Science in the Faculty of Science.
Smart and sustainable development: At a global level, we need more efficient and sustainable use of resources. FEIT research focuses on energy, water distribution, food production and smart infrastructure.
Health technologies: Expertly designed technologies can ha ve significant impact on global health and wellbeing. FEIT is working with health professionals and patients to deliver healthier communities.
Defence technologies: our increasingly complex world requires excellent security and cybersecurity technologies. FEIT is a national leader in defence research.

We also offer research innovation programs by sector. Work on real-life business challenges with our industry partners in these areas:

Transport : creating more sustainable transport systems and more liveable cities.
Defence : keeping Australians safe in a complex security landscape.
Water, environment and agriculture : securing vital natural resources for future generations.
Sustainable mining : improving sustainability in the mining sector.
Food and agribusiness : assisting food businesses with new products and processes.
Infrastructure : meeting the infrastructure needs of rapidly growing urban populations.
Energy : understanding how to transition to a clean energy system.
Cybersecurity : detecting cyberattacks and governing cyber operations.

Depending on your research theme, you’ll be aligned with one of three schools within FEIT:

School of Computing and Information Systems
School of Chemical and Biomedical Engineering
School of Electrical, Mechanical and Infrastructure Engineering

Research centres and institutes

FEIT is home to more than 20 major  research centres and institutes . These organisations represent joint ventures between universities, industry and government bodies in Australia. Each centre offers its own research opportunities.

Learn how we're making a difference

We’re exploring the flaws and ethics of AI . The Biometric Mirror raises awareness about the social implications of unrestricted AI. It takes your photo, then analyses it to identify your demographic and personality characteristics.
We’re using your smart phone as your therapist . Technology is changing how we interact. It’s now being used to offer digital mental healthcare.
We’re predicting traffic in real-time . Sophisticated AI can predict traffic congestion up to three hours in advance, to help commuters and freight companies plan their journeys and support traffic signal optimisation.
We’re designing ‘sight’ for computers . Computer vision research is developing algorithms that can efficiently recognise objects and surroundings, for use in applications like autonomous vehicles.

Collaborate with other disciplines

We work across disciplines to address big, bold questions. Collaborating with researchers from other disciplines leads to creativity and innovation. Depending on the topic, you might work with experts in design, economics or health.

Interdisciplinary initiatives and institutes that relate to engineering include:

Creativity and Wellbeing Hallmark Research Initiative
Centre for Artificial Intelligence and Digital Ethics
ARC Training Centre in Cognitive Computing for Medical Technologies

Graduate researchers also have access to many other interdisciplinary research opportunities across the University, including PhD Programs .

Partner with an overseas institution

Our international joint PhD opportunities allow you to access expertise, training and resources from two institutions, and spend a minimum of 12 months studying overseas.

Some of our joint PhD projects have included:

A study into machine learning for second language acquisition , with the Hebrew University of Jerusalem (Israel).
A study into trustworthy and insightful algorithms for industrial decision making , with KU Leuven (Belgium).

Explore more fully-funded joint PhD projects .

Work in a stimulating environment

Melbourne connect.

Melbourne Connect is a purpose-built, innovation precinct at our Parkville campus. It encourages collaboration between the disciplines of science, technology, engineering and mathematics, and redefines how businesses, researchers, governments and entrepreneurs work together to drive digital solutions.

Search for a supervisor in your field of research
Learn more about completing a Doctor of Philosophy - Engineering and IT.
Learn more about completing a Master of Philosophy - Engineering and IT .
Find out more about how to apply .
Explore the  School of Computing and Information Systems website  to learn more about engineering and IT research.
Read about the latest research findings IT and Computer Science .

Information Technology and Computer Science

Study information technology & computer science

Register to receive information on graduate study, scholarships, key dates, upcoming events and what it's like to study with us.

Revolutionise business, entertainment and health with IT.

Explore how the latest advancements in AI and cybersecurity are impacting the world by pairing creative thinking and practical application with science and engineering. Benefit from a curriculum designed by world-leading experts and aligned with the industry.

Access internships and industry projects, and develop the technical and professional skills that will keep you agile in a constantly evolving industry. Whether it’s big data, cloud computing, software engineering or bioinformatics, you’ll be equipped to work in all types of settings – from your own start-up to multinationals, and not-for-profits.

Our programs

Master of information technology.

Create technical solutions and drive success in business, government, health, entertainment and society. Choose your specialisation and an elective track to hone your expertise in a field that matches your interests. 2 years full time or 4 years part time, on campus (Parkville).

Master of Information Systems

Prepare yourself for a dynamic career in IT management and digital business. Explore topics such as database systems, organisational processes, app development, consulting, business analysis, emerging technologies, IT strategy and governance. 2 years full time or 4 years part time, on campus (Parkville).

Master of Software Engineering

Acquire the best practice knowledge of every stage of the software development cycle from design and engineering to deployment. You can specialise in ‘Artificial Intelligence’, ‘Business’, ‘Cyber Security’, ‘Distributed Computing’ or ‘Human Computer Interaction’. 6 years part time or 3 years full time, on campus (Parkville).

Master of Computer Science

Gain specialist skills in at least one area of knowledge systems, programming languages and distributed computing, information systems, mathematics/statistics, spatial information science or linguistics. 2 years full time or 4 years part time, on campus (Parkville).

Master of Data Science

Tailor the course to suit your interest in a specialist area of data science. Gain the technological and analytical abilities that are vital for managing and interpreting large, complex collections of data. 2 years full time or 4 years part time, on campus (Parkville).

Other courses

Gain new skills in programming, designing online solutions and developing web applications. 1 year full time or 2 years part time, on campus (Parkville).

Gain programming/maths experience with the equivalent of a major in Computer Science at undergraduate level. 6 months full time or 1 year part time, on campus (Parkville).

The course provides a pathway to the Master of Computer Science and provides the knowledge of undergraduate level computer science. 1 year full time or 2 years part time, on campus (Parkville).

An ideal starting point for those interested in joining the booming data science industry and who do not have a background in computer science or statistics. 1 year full time or 2 years part time, on campus (Parkville).

Why study with us?

The University of Melbourne is ranked # 1 in Australia for Computer Science and Information Systems
The School of Computing and Information Systems is an international research leader in computer science, information systems and software engineering. This world class research is the basis of the course curriculum.
Ranked #8 for graduate employability

Times Higher Education World University Rankings 2022 / QS Graduate Employability 2022

Study Engineering and IT: Information Session

Monday 20 May, Melbourne Connect Learn more about studying engineering and IT at the University of Melbourne. Join us for an in-person information session and Q&A.

Looking for personalised advice?

Find out more about our graduate degrees and get support with your application. Speak to our expert staff online, via phone or at an upcoming event. You can also register to learn more about your course options and opportunities via email.

I chose to study the Master of Information Systems because of its flexibility and it gives me the opportunity to pursue many different career paths. The course work helps students grasp the complexity of real-world applications of information systems in a variety of industries and since I’m interested in UI and UX, I wanted the opportunity to choose electives within the course so I could explore my interests. April Xu Master of Information Systems

School of Computing and Information Systems

Artificial intelligence.

Artificial intelligence research is a particular strength in the School of Computing and Information Systems. Our researchers address many different approaches to AI, encompassing deep learning, data mining, machine learning, natural language processing, and agent-based systems. Our theories and techniques can be applied to a wide range of practical problems, including cyber-security, health, finance and government.

Melbourne is also host to the IBM and ARC Training Centre for Cognitive Computing for Medical Technologies , which is furthering our research and translating into solving critical needs in the domains of medicine and health.

Group leader

Research Themes

Artificial intelligence assurance lab.

Our research explores ethical, regulatory and legal issues relating to Artificial Intelligence. We validate AI technologies with respect to quality, safety, privacy, and reliability.

AI and Autonomy Lab

Intelligent systems can act (semi-)autonomously, working alongside human experts to analyse and help solve complex challenges. Designing good agents needs to balance the ability of agents to work effectively with other agents and human experts to have the maximum real-world impact.

Natural Language Processing

Natural Language Processing (NLP) is a field of artificial intelligence that focuses on enabling computers to understand, interpret, and generate human language. We develop algorithms and computational models to analyze and process large volumes of natural language data in order to extract meaning and insights from text, speech, and other forms of human communication.

Digital Health

Digital health refers to the use of data and technology, such as mobile apps, wearables, and other digital tools, to improve healthcare delivery, patient outcomes, and overall health and wellness. We work in several areas of digital health and integrate data, analytics, and communication technologies to help healthcare providers and patients manage and prevent diseases, track health metrics, and improve healthcare access and efficiency.

First Name	Last name	Position
Naveed	Akhtar	Senior Research Fellow, Decra
Uwe	Aickelin	Professor and Head of School
Basim	Azam	Research Fellow
James	Bailey	Professor
Tim	Baldwin	Professor
Khuyagbaatar	Batsuren	Research Assistant in Natural Language Processing
Michelle	Blom	Senior Lecturer
Renata	Borovica-Gajic	Lecturer
Nestor	Cabello	Research Fellow in Artificial Intelligence
Daniel	Capurro	Senior Lecturer
Yanchuan	Chang	Postdoctoral Research Fellow
Brian	Chapman	Associate Professor
Simon	Coghlan	Senior Lecturer in Digital Ethics
Trevor	Cohn	Professor
Michael	Conway	Senior Lecturer
Andrew	Cullen	Research Fellow
Simon	D'Alfonso	Lecturer
Ting	Dang	Senior Lecturer
Tom	Drummond	Melbourne Connect Chair of Digital Innovation for Society
Kris	Ehinger	Senior Lecturer
Lea	Frermann	Lecturer
Nicholas	Geard	Associate Professor
Mohammad	Golzarijalal	Research Fellow - Modelling & Optimisation
Caren	Han	Senior Lecturer in Digital Innovation
Eun-Jung	Holden	Professor of Digital Innovation
Jean	Honorio	Senior Lecturer in Machine Learning
Eduard	Hovy	Professor in Digital Innovation
Curtis	Huang	Research Fellow
Shanika	Karunasekera	Professor
Kemal	Kurniawan	Research Fellow
Christine	de Kock	Associate Lecturer in NLP / Human Language Technology
Michael	Kirley	Professor
Lars	Kulik	Professor
Kemal	Kurniawan	Research Fellow
Jey Han	Lau	Lecturer
Chris	Leckie	Professor
Sze	Leung	Research Assistant
Jinhao	Li	Research Assistant
Chunhua	Liu	Research Fellow in Empirical Software Engineering
Feng	Liu	Lecturer
Nir	Lipovetzky	Senior Lecturer
Ling	Luo	Lecturer
Mansoureh	Maadi	Research Fellow - Digital, The ARC Digital Bioprocess Development Hub
Neil	Marchant	Research Fellow
Julian	Marx	Lecturer
Sarah	Monazam Erfani	Arc Decra Fellow
Bastian	Oetomo	Postdoctoral Research Fellow
Yulia	Otmakhova	Research Fellow, NLP/Media Bias
Giulio	Passerotti	Research Fellow
Adrian	Pearce	Professor
Batugahage Kushani Anuradha	Perera	Postdoctoral Fellow in Social Media Analytics
Jianzhong	Qi	Senior Lecturer
Sarita	Rosenstock	Lecturer
Ben	Rubinstein	Professor
Simone	Schmidt	Research Associate in Digital Mental Health
Long	Song	Research Fellow
Fangziyun	Tong	Research Assistant in Digital Mental Health
Douglas Eduardo	Valente Pires	Associate Professor
Ekaterina	Vylomova	Lecturer
Joseph	West	Research Fellow
Zesheng	Ye	Postdoctoral Research Fellow in Trustworthy Machine Learning
Cameron	Zachreson	Research Fellow
Ying	Zhao	Research Fellow

Artificial Intelligence Graduate Researchers

Given	Family name	Thesis Title
David	Adams	Automatic Insights: Database management in the era of data deluge
Abeer	Alshehri	Explanation of goal recognition systems
Hanan	Alsouly	Dynamic many-objective optimisation using evolutionary algorithms
Jiayang	Ao	Explainable computer vision algorithms
Vincent	Barbosa Vaz	Predict+optimise through time
Lyndon	Benke	Deceptive planning in multiagent environments
Uri	Berger	Interactive multimodal language acquisition
Maria	Bulychev	TBA
Daniel	Cabrera Lozoya	Augmenting clinical mental health practice with machine learning models and digital phenotyping insights
Chengyi	Cai	Foundation-model reuse via model reprogramming
Meng	Cai	Enhancing Transformer Models: A Study of Information Bottleneck Theory for Efficient Representation Learning
Nathaniel	Carpenter	Towards a therapist's AI - Building a real-time support system for clinicians engaging in therapeutic conversations via online chat sessions
Wachiraphan	Charoenwet	Pragmatic use of CodeQL in the context of code review
Liuliu	Chen	Understanding Internalized Stigma in People with Mental Health Conditions on Social Media: Manifestations, Influencing Factors, and Impacts
Ming-Bin	Chen	Interactive agents for combating misinformation
Shaona	Cheng	Agitation States Computing for Tailored Music Recommendation
Damian	Curran	Towards a unified narrative representation for computational understanding of narrative text
Sayantan	Dasgupta	Energy-Aware Machine Learning
Dinuka	de Zoysa	Discovering Insights through Intent Prediction and Guided Exploration
Roben	Delos Reyes	Modelling the impact of pandemics on health care services
Nadeeshan Dananjaya Kumara	Dissanayake Mudiyanselage	Intelligent Intersection Management for Improved Traffic Safety
Songlin	Du	Collaborative Human-ML Decision Making for Medical Diagnostics: an ICP-based approach
Yilin	Geng	Character-centric Story Understanding and Generation
Chenhao	Gu	Reconstructing Social Influence Networks and Tracking Opinion Dynamics on Social Media
Christopher	Guest	TBA
Matteo	Guida	Towards Multilingual Models of Framing Detection in News Coverage of Contemporary Polarizing Issues
Yiyi	Guo	Transfer learning driven weather prediction
Tom	Harris	Multiscale modelling of infectious disease systems
Afsaneh	Hasanebrahimi	Robust Anomaly Detection
Haitian	He	Video anomaly detection in crowded scenes at multi-timescale
Mitra	Heidari	Modelling and optimization of bioprocess systems
Nimeshika Udayangani	Hewa Dehigahawattage	A Pixel-level Unsupervised Approach to Image Anomaly Detection
Markus	Hiller	Constraining learning methods through geometry and causal reasoning
Guang	Hu	Explainable agency using epistemic planning
Sukai	Huang	Texted based reinforcement learning agent
Zhuoqun (Calvin)	Huang	Adaptive data analysis for principled data reuse
Demian Aaron	Inostroza Amestica	Explaining cross-lingual variation in grammatical case systems through Information-theoretical approaches
Dasun Oshada	Jayasinghe	Real time digital twins for intelligent transportation systems
Fan	Jiang	Retriever-augmented Approaches for Natural Language Processing
Weiwei	Jiang	Developing interactive systems using Near-Infrared Spectroscopy
Yanbei	Jiang	Abstract Visual Reasoning with Text Explanation
Anirudh	Joshi	Determining argument quality and reasoning proficiency using deep neural networks
Zaher	Joukhadar	Autonomous and robust AI in low-resource settings
Jemima	Kang	Using NLP to determine semantic drift in mental health discourse
Saumya Hansanie	Karunadhika	Development of a Novel Algorithm for Motif Discovery and Anomaly Detection in Medical Time Series Data from Ventilators
Dimuthu Lakmal	Kariyawasan Jalath Thanthrige	A Multi-Modal Approach For Fake News Detection On Social Media
Oliver	Kim	Task planning in mobile robots using common sense as a generative model
Fajri	Koto	Neural Language Model for Abstractive Text Summarisation
Mojgan	Kouhounestani	Modification of the temporal data embedded in electronic medical records dataset targeting cancer prediction using machine learning methods
Robert	Langtry	Machine learning for automated generation of validated infra-red signature models
Thao	Le	Explaining the Confidence in AI-Assisted Decision Making
Thi Xuan May	Le	Shapelet Transformer for Time Series and Its Applications in Healthcare
Chao	Lei	Automated Monitoring of Green Infrastructure in Melbourne
Craig	Lewis	Entrepreneurial initiatives and team collaboration: Effects of modes of behaviour on start-up team effectiveness and success
Haopeng	Li	Multimodal Video Understanding Based on Deep Learning
Jinhao	Li	Deep hypothesis testing and its applications in rule-based recommendations
Miao	Li	Neural Multi-document Modelling and Abstractive Summarization
Muxing	Li	Trustworthiness in Using Foundation Models
Yuhao	Li	Robust and explainable medical data mining and its application
Zuqing	Li	Query Constraint-Aware Tabular Data Generation
Ran	Liang	Spatio-temporal Traffic Prediction Using Deep Learning Models
Zheng Wei	Lim	Cross-lingual Psycholinguistics with NLP methods
Hong Yi	Lin	Using Neural Machine Translation Approaches to Automate Code Improvements for Code Reviews
Chang	Liu	Personalized Outlier Detection for Time Series Using XGBoost and Deep Learning Algorithms
Shijie	Liu	Enhancing adversarial defence via robust statistics and certified robustness
Yuansan	Liu	Robust AI for guidance of a cochlear implant procedure
Xueqi	Ma	Adversarial Learning based on Manifold Learning and Graph-based learning
Aso	Mahmudi	Developing Advanced Processing Tools for Under-Resourced Languages Focusing on Morphological Features
Isura	Manchanayaka	Identifying Coordination and Influential People in Social Media and Their Intentions
Kevin	McDonald	Enhancing reinforcement learning algorithms for team-based systems
Raphaël	Merx	Enhancing Machine Translation for Medical Education: A Study on Nursing Students in Timor-Leste
Behzad	Moradi	Enhanced Bilevel Optimization via Machine Learning
Suhail	Najeeb	Explaining Vision Transformers for Small Object Detection
Abir	Naskar	Identifying Adolescent Risk-taking Behaviours from Clinical Text
Thye Shan	Ng	Modular Multimodal Architectures for Plug-and-Play Applications
Paul	Ou	Data-Driven Methods for Modelling, Optimising and Validating Digital Bioprocess Development
Zhihao (Hardy)	Pei	Reinforcement Learning for robust decision-making under deep uncertainty
Anh	Pham	Measuring and improving the usability of agent-based models for infectious disease modelling
Tien Dung	Pham	A Robust Datamining Approach to Cell Culture Media Optimisation
Marzieh	Parvaneh Akhteh Khaneh	Designing online learning environment based on peer feedback
Priyanka	Pillai	Understanding the impact of population heterogeneity on the computational modelling of STIs
Pagnarasmey	Pit	Unlearnable Text and Protecting Digital Data from Exploitation
Pagnarith	Pit	Macro-economic policy investigation through agent-based modelling
Yiyuan (Gracie)	Pu	Literature-based discovery for Alzheimer's disease
Viktoria	Schram	Performance Prediction for Low Resource Scenarios
Rinu Ann	Sebastian	Explainable computer vision to improve human-machine interaction
Prabodi	Senevirathna	Quantifying and mitigating machine-learning induced overdiagnosis in sepsis
Xinling	Shen	Dynamic Indoor Evacuation Planning in an Emergency
Zewei	Shi	Multimodal Large Language Model for Digital Trust
Jiajia	Song	What Makes AI Planning Hard? From Complexity Analysis to Algorithm Design
Yige	Song	Student learning profile - The exploration, interpretation and feedback provision on students’ online learning behaviours
Xinyu	Su	Traffic prediction using graph neural networks
Fengze	Sun	Effective and Efficient Algorithms for Region Similarity Queries
Sing Chee	Tan	Improving Rapid Response Systems through Predictive Analytics
Gisela	Vallejo	A Fair Plan Towards Mitigating Bias and Misinformation
Sameera	Vithanage	Towards Understanding User Perceptions of Fake News on Social Media
Hung Thinh	Truong	Evidence extraction from the clinical trials literature
Archana	Vadakattu	Dynamic learning in cognitive agent architectures
Chen	Wang	Inverse Reinforcement Learning Approach for intent inference in adversarial environments
Chenyang	Wang	Extending matrix profile with soft comparison operators and weighting functions for time series anomaly detection
Dalin	Wang	Image captioning with conditional-GAN
Jinxi	Wang	Experimental Design and Performance Optimisation of Monoclonal Antibody Production in Bioreactors under Insufficient Data Based on Machine Learning
Jun	Wang	Adversarial machine learning for machine translation
Tingxuan	Wang	Modelling 3D Shape of Sands from X-ray Computed Tomography Images
Yuxiang	Wang	NeuralDB: Unleashing the Power of Neural Networks in Database Management Systems for Intelligent Data Processing
Helani	Wickramaarachchi	An efficient, autonomous reward shaping algorithm with evolutionary game theory: applied to the field of multi-agent systems
Zhuohan	Xie	Hierarchically structured neural narrative generation
Rui	Xing	Towards Explainable Fact Checking
Aotao (John)	Xu	A computational analysis of conceptual combination through time
Diana	Yang	Robust data mining
Jie	Yang	Save you from irrational decisions: a responsive agent affected by user emotions
Jinrui	Yang	Fairness and Bias in Natural Language Processing
Shuo	Yang	Multimodal Commonsense Knowledge Distillation for Visual Question Answering
Aryan	Yazdan Parast	Improving robustness of machine perception by intervention
Meng Abigail	Yuan	Modalities and measurement of systems for information discovery
Canaan	Yung	Adversarial attacks on generative AI models
Jiacheng	Zhang	Enhancing trustworthiness and robustness of machine learning models in adversarial environments
Tianyi	Zhang	Digital phenotyping (personal sensing) for mental health and well-being
Zhenkai	Zhang	To solve the current problems of NeRF and to explore the application of NeRF in robotic vision or automatic drive
Johnson	Zhou	Applied Deep Learning Control for Neurological Disease Models
Zhijian	Zhou	Data-adaptive Non-parametric Hypothesis Testing
Anqi	Zhu	Action recognition with explanation
Rongxin	Zhu	Automatic summarization for multi-party conversation
Farzaneh	Zirak	Using Eye-Tracking Technology to Improve Visual Data Exploratory Tools Performance

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Emerging technologies for enrichment in old age
Ethics and digital games
Evaluation of natural user interfaces in query auto-completion
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Getting well and being present
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HandLog: tangible interactions for game input and rehabilitation
Improving Vitamin D status and related health in young women
Insertable technology for human interactions
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Kinecting with orang-utans
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Mobile fieldwork and learning
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Promoting student peer review in Australian tertiary education
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Pholiota Unlocked
Reading on ubiquitous devices
Smart Garden Watering
Smartphones for science
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COMMENTS

Doctor of Philosophy - The University of Melbourne
Make your own research contribution with the Doctor of Philosophy (Engineering and IT) at Australia’s leading university*. Build your expertise in a specialist area and be supported by experienced supervisors and advisory committees to create significant change in society.
School of Computing and Information Systems, The University ...
The School of Computing and Information Systems is an international research leader in computer science, information systems and software engineering. We are focused on delivering impact in the following key areas: Research themes. Artificial intelligence.
Computer science - School of Computing and Information Systems
We are working on novel and practical solutions to improve the security and privacy of large real-world systems. Our research includes both attack and defense approaches that work on different layers, from web APIs, ML models, core software libraries to micro-architecture, firmware and hardware.
Research options in IT and computer science
Explore the ways in which you can undertake research in IT and Computer Science at the University of Melbourne and read through the unique benefits.
Information Technology and Computer Science
Master of Computer Science. Gain specialist skills in at least one area of knowledge systems, programming languages and distributed computing, information systems, mathematics/statistics, spatial information science or linguistics. 2 years full time or 4 years part time, on campus (Parkville).
Artificial intelligence - School of Computing and Information ...
Our researchers address many different approaches to AI, encompassing deep learning, data mining, machine learning, natural language processing, and agent-based systems. Our theories and techniques can be applied to a wide range of practical problems, including cyber-security, health, finance and government.